UV/Vis+ Photochemistry Database
Literature Service: Organic Acids / Esters / Amino Acids / Anhydrids
Substances (unsorted): HCO2-, HCOOH, CH3COOH, C4H6O2, C4H6O3, CH3C(O)OOH, OCHCOOH, CH3CH2COOH, CH3CH2CH2COOH, (CH3)2-CH-COOH, CH2=CHCH2COOH, C4H9COOH, CH(O)COOH, CCl3COOH, CF3COOH, C2F2O3, C3H3FO3, C4F6O3, C2F5COOH, C6F10O3, C7H5FO2, C8H5F3O2, C9H7F3O2, C2H3ClO2, C2H2Cl2O2, C7H5ClO2, C7H5ClO3, C7H5ClO4, C7H4Cl2O3, C7H5BrO2, C7H4Br2O2, C7H4Cl2O2, C6H5COOH, C7H5NO4, C7H6O5, C3H4O2, C8H8O2, C8H8O2, C9H10O2, C9H18O2, C12H10O2, C12H10O3, C8H4O3, C8H8O3, C9H8O2, C9H10O3, C10H12O2, C3H2O3, C4H2O4, C5H2O5, C5H4O4, C5H6O4, C4H7NO4, C5H9NO4, C5H10N2O3, C6H6O4, C6H8O4, C7H6O4, C8H6O4, C8H6O4, C9H8O4, C9H10O4, C9H10O5, C10H10O2, C10H10O3, C10H10O4, C9H6O6, C9H6O6, C9H6O6, C10H14O3, C10H6O4, C10H6O8, C11H6O10, C12H6O12, COOH(CH2)3COOH, COOHCH2COOH, (COOH)2, C2O42-, C4H6O4, C5H6O3, C6H8O3, C6H4(COOH)2, C9H8O3, C10H10O3, C10H16O3, cis-C10H16O3, C15H24O3, CH3COCO2H, C3H3O3-, C4H2O3, C4H4O4, C4H6O4, C4H4O3, C4F4O3, HO2CCH(OH)CO2H, HCOOCH3, HCOOC2H5, HCOOC3H7, HCOOC4H9, CH3COOCH3, CH3COOC2H5, C5H8O2, C6H12O2, C15H21NO6, C4H9(C6H4(OH)COO), C6H5NO2, C6H5NO3, trans-C6H6N2O2, cis-C6H6N2O2, C11H12N2O2, C2H4O3, C3H6O3, C3H5O3-, C4H4O5, C4H6O6, C4H8O3, C4H8O4, C4H7O4-, C6H12O3, C7H6O3, C8H8O3, C9H10O3, C10H8O3, C10H12O3, C7H10O4, C7H12O2, C8H8O4, C8H10O4, C9H8O4, C10H16O4, C11H12O4, C16H18O9, C13H9Cl3N2O, C11H20O2, C9H13N2O9P, C9H14N3O8P, C3H5NO, C3H7NO2, C3H7NO3, C4H9NO3, C5H9NO2, C5H9NO3, C5H11NO2, C6H13NO2, C9H11NO2, C11H9NO2, C9H11NO3, C11H9NO3, C2H3NO3, C3H9O6P, C2H4N2O3, C4H4N2O4, C5H4N2O4, C5H4N4O3, C3H7NO5S, C3H8ClNO2S, C5H11NO2S, C6H10ClN3O2, C6H15ClN2O2, C6H15ClN4O2, C6H12N2O4S2, C7H5NO3, C7H7NO2, C8H9NO2, C9H11NO2, C8H7NO4, C7H8N2O2, C8H6N2O2, C9H8N2O2, C8H7NO4, C9H9NO4, C9H9NO6, C8H16O2, C11H8O2, C12H12O2, C13H10O2, C13H10O3, C13H14O5, C14H6O8, C14H10O2, C14H10O3, C14H12O2, C14H12O8, C14H28O2, C15H10O2, C18H32O2, C18H34O2, C29H48O2, C32H52O2, C37H54O2, C76H52O46
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Authors | Journal/Source | Title/Paper | Data Sheet |
---|---|---|---|
HCO2-; methanoate; formate; formate anion; CAS-No.: 71-47-6; PubChem: CID 283 | |||
J.L. Weeks, G.M.A.C. Meaburn, S. Gordon | Radiation Research, 19, 559-567, (1963) | Absorption coefficients of liquid water and aqueous solutions in the far ultraviolet | |
CH2O2; HCOOH; formic acid; methanoic acid; CAS-No.: 64-18-6; PubChem: CID 284 | |||
J.L. Weeks, G.M.A.C. Meaburn, S. Gordon | Radiation Research, 19, 559-567, (1963) | Absorption coefficients of liquid water and aqueous solutions in the far ultraviolet | |
S. Nagakura, K. Kaya, H. Tsubomura | J. Mol. Spectroscopy, 13, 1-8, (1964) | Vacuum ultraviolet absorption spectra and electronic structures of formic acid, acetic acid and ethyl acetate | |
V. McMillan | in Calvert and Pitts, Photochemistry, London, p. 428, (1966) | UV absorption spectrum of formic acid | |
I. Watanabe, Y. Yokoyama, S. Ikeda | Chem. Phys. Lett., 19, 406-409, (1973) | Vibrational structures in the photoelectron spectrum of formic acid | |
T.L. Ng, S. Bell | J. Molecular Spectroscopy, 50, 166-181, (1974) | The PI* <--- n transition of formic acid | |
D.L. Singleton, G. Paraskevopoulos, R.S. Irwin | J. Photochem., 37, 209-216, (1987) | UV Absorption Cross-Sections of the Monomer and Dimer of Formic Acid (302 K) | |
T. Ebata, A. Fujii, T. Amano, M. Ito | J. Phys. Chem., 91 (24), 6095-6097, (1987) | Photodissociation of formic acid: Internal state distribution of OH fragment | |
M. Suto, X. Wang, L.C. Lee | J. Phys. Chem., 92, 3764-3768, (1988) | Fluorescence Yields from Photodissociative Excitation of HCOOH, HCOOCH3, and CH3COOH in the Vacuum-Ultraviolet Region | |
D.L. Singleton, G. Paraskevopoulos, R.S. Irwin | J. Phys. Chem., 94, 695-699, (1990) | Laser photolysis of carboxylic acids in the gas phase: direct determination of the hydroxyl quantum yield at 222 nm | |
M. Schwell, F. Dulieu, H.-W. Jochims, J.-H. Fillion, J.-L. Lemaire, H. Baumgärtel, S. Leach | J. Phys. Chem. A, 106, 10908-10918, (2002) | Photophysical Studies of Formic Acid in the Vacuum UV: Fragmentation, Fluorescence, and Ionization in the 6-23 eV Photon Energy Range | |
S. Leach, M. Schwell, F. Dulieu, J.-L. Chotin, H.-W. Jochims, H. Baumgärtel | Phys. Chem. Chem. Phys., 4, 5025-5039, (2002) | Photophysical Studies of Formic Acid in the VUV : Absorption spectrum in the 6 - 22 eV region | |
E.M.S. Maçôas, J. Lundell, M. Pettersson, L. Khriachtchev, R. Fausto, M. Räsänen | J. Mol. Spectroscopy, 219, 70-80, (2003) | Vibrational spectroscopy of cis- and trans-formic acid in solid argon | |
S. Leach, M. Schwell, D. Talbi, G. Berthier, K. Hottmann, H.-W. Jochims, H. Baumgärtel | Chem. Phys., 286, 15-43, (2003) | He I photoelectron spectroscopy of four isotopologues of formic acid: HCOOH, HCOOD, DCOOH and DCOOD | |
K. Li, M.I. Stefan, J.C. Crittenden | Environ. Sci. Technol., 38 (24), 6685-6693, (2004) | UV Photolysis of Trichloroethylene: Product Study and Kinetic Modeling | |
M.M. Fujimoto, H.K. Tanaka, R.R.T. Marinho, A. Medina, F.V. Prudente, M.G.P. Homem | J. Phys. Chem. A, 124, 32, 6478-6485, (2020) | Cross Sections and Asymmetry Parameters for Formic Acid in the Vacuum-Ultraviolet Energy Range | |
P.A.S. Randi, D.F. Pastega, M.H.F. Bettaga, N.C. Jones, S.V. Hoffmann, S. Eden, A. Souza Barbosa, P. Limao-Vieira | Spectrochim. Acta A, 289, 122237, (2023) | Electronically excited states of formic acid investigated by theoretical and experimental methods | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
G.E. Adams, E.J. Hart | J. Am. Chem. Soc., 84, 3994 - 3999, (1962) | Radiolysis and photolysis of aqueous formic acid. Carbon monoxide formation | |
P. Vujkovic Cvijin, D.A. Gilmore, G.H. Atkinson | Appl. Spectrosc., 42, 770-774, (1988) | Determination of Gaseous Formic Acid and Acetic Acid by Pulsed Ultraviolet Photoacoustic Spectroscopy | |
F. Ioannoni, D.C. Moule, D.J. Clouthier | J. Phys. Chem., 94, 2290-2294, (1990) | Laser spectroscopic and quantum chemical studies of the lowest excited states of formic acid | |
R.S. Irwin, D.L. Singleton, G. Paraskevopoulos, R. McLaren | Int. J. Chem. Kinetics, 26, 219-225, (1993) | Photochemistry of formic acid monomer at 222 nm | |
S.R. Langford, A.D. Batten, M. Kono, M.N.R. Ashfold | J. Chem. Soc., Faraday Trans., 93(21), 3757-3764, (1997) | Near-UV photodissociation dynamics of formic acid | |
Seung Keun Shin, Eui Joong Han, Hong Lae Kim | J. Photochem. Photobiol. A: Chemistry, 118, 71-74, (1998) | Photodissociation dynamics of formic acid at 193 nm | |
Keon Woo Lee, Kyoung-Seok Lee, Kyung-Hoon Jung, Hans-Robert Volpp | J. Chem. Phys., 117, 9266-9274, (2002) | The 212.8-nm photodissociation of formic acid: Degenerate four-wave mixing spectroscopy of the nascent OH(X2 Pi…) radicals | |
C2H4O2; CH3COOH; acetic acid; ethanoic acid; CAS-No.: 64-19-7; PubChem: CID 176 | |||
S. Nagakura, K. Kaya, H. Tsubomura | J. Mol. Spectrosc., 13, 1-8, (1964) | Vacuum ultraviolet absorption spectra and electronic structures of formic acid, acetic acid and ethyl acetate | |
D.L. Singleton, G. Paraskevopoulos, R.S. Irwin | J. Phys. Chem., 94, 695-699, (1990) | Laser photolysis of carboxylic acids in the gas phase: direct determination of the hydroxyl quantum yield at 222 nm | |
P.E. Hintze, S. Aloisio, V. Vaida | Chem. Phys. Lett., 343, 159-165, (2001) | Electronic spectroscopy of organic acid dimers | |
J.J. Orlando, G.S. Tyndall | J. Photochem. Photobiol. A: Chem. 157, 161-166, (2003) | Gas phase UV absorption spectra for peracetic acid, and for acetic acid monomers and dimers | |
P. Limão-Vieira, A. Giuliani, J. Delwiche, R. Parafita, R. Mota, D. Duflot, J.-P. Flament, E. Drage, P. Cahillane, N.J. Mason, S.V. Hoffmann, M.-J. Hubin-Franskin | Chem. Phys. 324, 339-349 (2006) | Acetic acid electronic state spectroscopy by high-resolution vacuum ultraviolet photo-absorption, electron impact, He(I) photoelectron spectroscopy and ab initio calculations | |
S. Leach, M. Schwell, S. Un, H.-W. Jochims, H. Baumgaertel | Chem. Phys., 321, 159–170, (2006) | VUV absorption spectrum of acetic acid between 6 and 20 eV | |
M. Schwell, H.-W. Jochims, H. Baumgaertel, F. Dulieu, S. Leach | Planetary and Space Science, 54, 1073-1085, (2006) | VUV photochemistry of small biomolecules | |
I. Begashaw, M.N. Fiddler, S. Bililign, S.S. Brown | J. Phys. Chem. A, 115 (5), 753-761, (2011) | Measurement of the Fourth O-H Overtone Absorption Cross Section in Acetic Acid Using Cavity Ring-Down Spectroscopy | |
A.C. Doner, M.G. Christianson, J.C. Davis, A.L. Koritzke, A. Larsson, K. Frandsen, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 236, 106603, (2019) | Vacuum-ultraviolet absorption cross-sections of functionalized cyclic hydrocarbons: Six-membered rings | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
P. Vujkovic Cvijin, D.A. Gilmore, G.H. Atkinson | Appl. Spectrosc., 42, 770-774, (1988) | Determination of Gaseous Formic Acid and Acetic Acid by Pulsed Ultraviolet Photoacoustic Spectroscopy | |
S.S. Hunnicutt, L.D. Waits, J.A. Guest | J. Phys. Chem., 93, 5188-5195, (1989) | Energetic constraints in the 218 nm photolysis of acetic acid | |
S.S. Hunnicutt, L.D. Waits, J.A. Guest | J. Phys. Chem., 95 (2), 562-570, (1991) | 1(N,.pi.*)-Photochemistry of acetic acid at 200 nm: further evidence for an exit channel barrier and reaction selectivity | |
C4H6O2; allyl formate; formic acid, allyl ester; CAS-No.: 1838-59-1; PubChem: CID 61278 | |||
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022) | Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species | |
C4H6O3; acetic anhydride; acetic acid anhydride; acetyl acetate; CAS-No.: 108-24-7; PubChem: CID 7918 | |||
V. McMillan | Photochemistry, J.G. Calvert, J.N. Pitts, London, (1966) | UV spectrum of acetic anhydride | |
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022) | Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
C2H4O3; CH3C(O)OOH; peracetic acid; CAS-No.: 79-21-0 | |||
J.J. Orlando, G.S. Tyndall | J. Photochem. Photobiol. A: Chem., 157, 2-3, 161-166, (2003) | Gas phase UV absorption spectra for peracetic acid, and for acetic acid monomers and dimers (248 K, 298 K) | |
C2H2O3; OCHCOOH; glyoxalic acid; CAS-No.: 298-12-4 | |||
K. Li, M.I. Stefan, J.C. Crittenden | Environ. Sci. Technol., 38 (24), 6685-6693, (2004) | UV Photolysis of Trichloroethylene: Product Study and Kinetic Modeling | |
C3H6O2; CH3CH2COOH; propionic acid; CAS-No.: 79-09-4 | |||
D.L. Singleton, G. Paraskevopoulos, R.S. Irwin | J. Phys. Chem., 94, 695-699, (1990) | Laser photolysis of carboxylic acids in the gas phase: direct determination of the hydroxyl quantum yield at 222 nm | |
P.E. Hintze, S. Aloisio, V. Vaida | Chem. Phys. Lett., 343, 159-165, (2001) | Electronic spectroscopy of organic acid dimers | |
A. Vicente, R. Antunes, D. Almeida, I.J.A. Franco, S.V. Hoffmann, N.J. Mason, S. Eden, D. Duflot, S. Canneaux, J. Delwiche, M.-J. Hubin-Franskin, P. Limão-Vieira | Phys. Chem. Chem. Phys., 11, 5729-5741, (2009) | Photoabsorption measurements and theoretical calculations of the electronic state spectroscopy of propionic, butyric, and valeric acids | |
C4H8O2; CH3CH2CH2COOH; butyric acid; butanoic acid; CAS-No.: 107-92-6; PubChem: CID 264 | |||
P.E. Hintze, S. Aloisio, V. Vaida | Chem. Phys. Lett., 343, 159-165, (2001) | Electronic spectroscopy of organic acid dimers | |
A. Vicente, R. Antunes, D. Almeida, I.J.A. Franco, S.V. Hoffmann, N.J. Mason, S. Eden, D. Duflot, S. Canneaux, J. Delwiche, M.-J. Hubin-Franskin, P. Limão-Vieira | Phys. Chem. Chem. Phys., 11, 5729-5741, (2009) | Photoabsorption measurements and theoretical calculations of the electronic state spectroscopy of propionic, butyric, and valeric acids | |
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022) | Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
C4H8O2; (CH3)2-CH-COOH; isobutyric acid; CAS-No.: 79-31-2 | |||
P.E. Hintze, S. Aloisio, V. Vaida | Chem. Phys. Lett., 343, 159-165, (2001) | Electronic spectroscopy of organic acid dimers | |
C4H6O2; CH2=CHCH2COOH; vinylacetic acid; 3-butenoic acid; CAS-No.: 625-38-7 | |||
M.E. Dunn, G.C. Shields, K. Takahashi, R.T. Skodje, V. Vaida | J. Phys. Chem. A, 112 (41), 10226-10235, (2008) | Experimental and Theoretical Study of the OH Vibrational Spectra and Overtone Chemistry of Gas-Phase Vinylacetic Acid | |
C4H6O2; vinyl acetate; ethenyl acetate; CAS-No.: 108-05-4; PubChem: CID 7904 | |||
A.C. Doner, M.M. Davis, A.L. Koritzke, M.G. Christianson, J.M. Turney, H.F. Schaefer III, L. Sheps, D.L. Osborn, C.A. Taatjes, B. Rotavera | Int. J. Chem. Kin., 53 (1), 127-145, (2021) | Isomer-Dependent Reaction Mechanisms of Cyclic Ether Intermediates: cis-2,3-dimethyloxirane and trans-2,3-dimethyloxirane | |
A.C. Doner, A.R. Webb, N.S. Dewey, S.W. Hartness, M.G. Christianson, A.L. Koritzke, A. Larsson, K.M. Frandsen, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 292, 108346, (2022) | Vacuum-ultraviolet absorption cross-sections of functionalized four-carbon species | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
C5H10O2; C4H9COOH; valeric acid; CAS-No.: 109-52-4 | |||
A. Vicente, R. Antunes, D. Almeida, I.J.A. Franco, S.V. Hoffmann, N.J. Mason, S. Eden, D. Duflot, S. Canneaux, J. Delwiche, M.-J. Hubin-Franskin, P. Limão-Vieira | Phys. Chem. Chem. Phys., 11, 5729-5741, (2009) | Photoabsorption measurements and theoretical calculations of the electronic state spectroscopy of propionic, butyric, and valeric acids | |
C5H10O2; isobutyl formate; 2-methylpropyl formate; CAS-No.: 542-55-2; PubChem: 10957 | |||
M.A. Smialek, M. Labuda, J. Guthmuller, S.V. Hoffmann, N.C. Jones, M.A. MacDonald, L. Zuin, N.J. Mason, P. Limão-Vieira | J. Phys. Chem. A, 119 (32), 8647-8656, (2015) | Valence and Ionic Lowest-Lying Electronic States of Isobutyl Formate Studied by High-Resolution Vacuum Ultraviolet Photoabsorption, Photoelectron Spectroscopy, and Ab Initio Calculations | |
C5H10O2; methyl butyrate; methyl butanoate; butanoic acid, methyl ester; CAS-No.: 623-42-7; PubChem: CID 12180 | |||
M.A. Smialek, D. Duflot, N.C. Jones, S.V. Hoffmann, L. Zuin, M. Macdonald, N.J. Mason, P. Limao-Vieira | Eur. Phys. J. D, 74, 153, (2020) | On the electronic structure of methyl butyrate and methyl valerate | |
C2H2O3; CH(O)COOH; glyoxylic acid; CAS-No.: 563-96-2 | |||
R.A. Back, S. Yamamoto | Can. J. Chem., 63, 542-548, (1985) | The gas-phase photochemistry and thermal decomposition of glyoxylic acid | |
C2HCl3O2; CCl3COOH; trichloroacetic acid; trichloroethanoic acid; CAS-No.: 76-03-9; PubChem: CID 6421 | |||
J. Gan, T. Zhu, Y. Zhang, D. Li, T. Li, M. Zhao, Z. Zhao, L. Wang | Chemosphere, 331, 138753, (2023) | Degradation and dechlorination of trichloroacetic acid induced by an in situ 222 nm KrCl* excimer radiation | |
C2HF3O2; CF3COOH; trifluoroacetic acid; 2,2,2-trifluoroethanoic acid; perfluoroacetic acid; TFA; CAS-No.: 76-05-1; PubChem: CID 6422 | |||
H. Basch, M.B. Robin, N.A. Kuebler | J. Chem. Phys., 49, 5007-5018, (1968) | Electronic Spectra of Isoelectronic Amides, Acids, and Acyl Fluorides | |
O.V. Rattigan, O. Wild, R.L. Jones, R.A. Cox | J. Photochem. Photobiol. A: Chem., 73, 1-9 (1993) | Temperature-dependent absorption cross-sections of CF3COCl, CF3COF, CH3COF, CCl3CHO and CF3COOH | |
L.M. Reynard, D.J. Donaldson | J. Phys. Chem. A, 106 (37), 8651-8657, (2002) | Overtone-Induced Chemistry of Trifluoroacetic Acid: An Experimental and Theoretical Study | |
C2F2O3; dicarbonic difluoride; fluoroformic anhydride; fluoroformic acid anhydride; CAS-No.: 177036-04-3; PubChem: CID 15758408 | |||
H. Pernice, H. Willner, K. Bierbrauer, M. Burgos Paci, G.A. Arguello | Angewandte Chemie, 41 (20), 3832-3834, (2002) | Fluorameisensaeureanhydrid, FC(O)OC(O)F | |
C3H3FO3; 3-fluoropyruvic acid; 3-fluoropyruvate; 3-fluoro-2-oxopropanoic acid; fluoropyruvic acid; CAS-No.: 433-48-7; PubChem: CID 67946 | |||
Y. Avi-Dor, R. Lipkin | J. Biol. Chem., 233, 69-72, (1958) | A Spectrophotometric Method for the Determination of Reduced Glutathione | |
C4F6O3; perfluoroacetic anhydride; CAS-No.: 407-25-0 | |||
G.A. Chamberlain, E. Whittle | J. Chem. Soc., Faraday Trans. 1,68, 88-95, (1972) | Photochemistry of anhydrides: Part 1.- Photolysis of Perfluoroacetic anhydride vapour: A new source of CF3 radicals | |
C3HF5O2; C2F5COOH; pentafluoropropionic acid; CAS-No.: 422-64-0 | |||
N. Rontu, V. Vaida | J. Molecular Spectroscopy, 237, 19-26, (2006) | Vibrational spectroscopy of perfluoropropionic acid in the region between 1000 and 11000 cm-1 | |
N. Rontu, V. Vaida | J. Phys. Chem. B, 112 (2), 276–282, (2008) | Vibrational Spectroscopy of Perfluorocarboxylic Acids from the Infrared to the Visible Regions | |
C6F10O3; pentafluoropropionic anhydride; CAS-No.: 356-42-3 | |||
G.A. Chamberlain, E. Whittle | J. Chem. Soc., Faraday Trans. 1,68, 96-103, (1972) | Photochemistry of anhydrides: Part 2.- Photolysis of Perfluoropropionic anhydride: A new source of C2F5 radicals | |
C7H5FO2; o-fluorobenzoic acid; 2-fluorobenzoic acid; CAS-No.: 445-29-4; PubChem: CID 9935 | |||
W.F. Forbes | Can. J. Chem., 37 (12), 1977-1985, (1959) | Light absorption studies. Part XVI. The ultraviolet absorption spectra of fluorobenzenes | |
C7H5FO2; p-fluorobenzoic acid; 4-fluorobenzoic acid; CAS-No.: 456-22-4; PubChem: 24872662 | |||
W.F. Forbes | Can. J. Chem., 37 (12), 1977-1985, (1959) | Light absorption studies. Part XVI. The ultraviolet absorption spectra of fluorobenzenes | |
C8H5F3O2; 2-(trifluoromethyl)benzoic acid; o-trifluoromethylbenzoic acid; CAS-No.: 433-97-6; PubChem: CID 9899 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C8H5F3O2; 3-(trifluoromethyl)benzoic acid; m-trifluoromethylbenzoic acid; CAS-No.: 454-92-2; PubChem: CID 9963 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C8H5F3O2; 4-(trifluoromethyl)benzoic acid; p-trifluoromethylbenzoic acid; CAS-No.: 455-24-3; PubChem: CID 9966 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C9H7F3O2; methyl 2-(trifluoromethyl)benzoate; 2-(trifluoromethyl)benzoic acid methyl ester; CAS-No.: 344-96-7; PubChem: CID 2775578 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C9H7F3O2; methyl 3-(trifluoromethyl)benzoate; 3-(trifluoromethyl)benzoic acid methyl ester; CAS-No.: 2557-13-3; PubChem: CID 520213 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C9H7F3O2; methyl 4-(trifluoromethyl)benzoate; 4-(trifluoromethyl)benzoic acid methyl ester; CAS-No.: 2967-66-0; PubChem: CID 520447 | |||
A. Manfrin, A. Haenggli, J. van den Wildenberg, K. McNeill | Environ. Sci. Technol., 54, 18, 11109–11117, (2020) | Substituent Effects on the Direct Photolysis of Benzotrifluoride Derivatives | |
C7H5ClO2; 2-chlorobenzoic acid; o-chlorobenzoic acid; CAS-No.: 118-91-2; PubChem: CID 8374 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H5ClO2; 3-chlorobenzoic acid; m-chlorobenzoic acid; CAS-No.: 535-80-8; PubChem: CID 447 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H5ClO2; 4-chlorobenzoic acid; p-chlorobenzoic acid; CAS-No.: 74-11-3; PubChem: CID 6318 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
E.M. Payne, B. Liu, L. Mullen, K.G. Linden | Environ. Sci. Technol. Lett., 9, 9, 779–785, (2022) | UV 222 nm emission from KrCl* excimer lamps greatly improves advanced oxidation performance in water treatment | |
J. Xu, C.-H. Huang | Environ. Sci. Technol. Lett., 10, 6, 543-548, (2023) | Enhanced Direct Photolysis of Organic Micropollutants by Far-UVC Light at 222 nm from KrCl* Excilamps | |
C7H5ClO3; 3-chlorosalicylic acid; 3-chloro-2-hydroxybenzoic acid; CAS-No.: 1829-32-9; PubChem: CID 74585 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 5-chlorosalicylic acid; 5-chloro-2-hydroxybenzoic acid; CAS-No.: 321-14-2; PubChem: CID 9447 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 2-chloro-5-hydroxybenzoic acid; CAS-No.: 56961-30-9; PubChem: CID 458210 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 3-chloro-5-hydroxybenzoic acid; 5-chloro-m-salicylic acid; CAS-No.: 53984-36-4; PubChem: CID 13071646 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 4-chloro-3-hydroxybenzoic acid; CAS-No.: 34113-69-4; PubChem: CID 141872 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 2-chloro-4-hydroxybenzoic acid; 4-hydroxy-2-chlorobenzoic acid; CAS-No.: 56363-84-9; PubChem: CID 91821 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO3; 3-chloro-4-hydroxybenzoic acid; 4-hydroxy-3-chlorobenzoic acid; CAS-No.: 3964-58-7; PubChem: CID 19860 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO4; 2-chloro-3,4-dihydroxybenzoic acid; CAS-No.: 87932-50-1; PubChem: CID 15608164 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO4; 3-chloro-4,5-dihydroxybenzoic acid; CAS-No.: 87932-49-8; PubChem: CID 54358 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5ClO4; 5-chloro-2,4-dihydroxybenzoic acid; 5-chloro-beta-resorcylic acid; CAS-No.: 67828-44-8; PubChem: CID 105728 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H4Cl2O3; 3,5-dichlorosalicylic acid; 3,5-dichloro-2-hydroxybenzoic acid; CAS-No.: 320-72-9; PubChem: CID 9445 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H4Cl2O3; 3,5-dichloro-4-hydroxybenzoic acid; CAS-No.: 3336-41-2; PubChem: CID 18749 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H5BrO2; 2-bromobenzoic acid; o-bromobenzoic acid; CAS-No.: 88-65-3; PubChem: CID 6940 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H5BrO2; 3-bromobenzoic acid; m-bromobenzoic acid; CAS-No.: 585-76-2; PubChem: CID 11456 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H5BrO2; 4-bromobenzoic acid; p-bromobenzoic acid; CAS-No.: 586-76-5; PubChem: CID 11464 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H4Br2O2; 2,6-dibromobenzoic acid; CAS-No.: 601-84-3; PubChem: CID 4400143 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C2H3ClO2; chloroacetic acid; monochloroacetic acid; CAS-No.: 79-11-8; PubChem: CID 300 | |||
K. Li, M.I. Stefan, J.C. Crittenden | Environ. Sci. Technol., 38 (24), 6685-6693, (2004) | UV Photolysis of Trichloroethylene: Product Study and Kinetic Modeling | |
C2H3ClO2; methyl chloroformate; chloroformic acid methyl ester; methyl carbonochloridate; CAS-No.: 79-22-1; PubChem: CID 6586 | |||
J.B. Polya | PhD Thesis, ETH Zurich, Switzerland, (1937) | Absorptionsspektrographische und chemische Untersuchungen über chemische Kampfstoffe | |
C2H2Cl2O2; dichloroacetic acid; dichloroethanoic acid; CAS-No.: 79-43-6; PubChem: CID 6597 | |||
K. Li, M.I. Stefan, J.C. Crittenden | Environ. Sci. Technol., 38 (24), 6685-6693, (2004) | UV Photolysis of Trichloroethylene: Product Study and Kinetic Modeling | |
C7H4Cl2O2; 2,6-dichlorobenzoic acid; CAS-No.: 50-30-6; PubChem: CID 5758 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H6O2; C6H5COOH; benzoic acid; carboxybenzene; CAS-No.: 65-85-0; PubChem: 243 | |||
E.A. Fehnel | J. Am. Chem. Soc., 72 (3), 1404-1405, (1950) | Steric effects in the ultraviolet absorption spectra of 2,4,6-trimethylbenzoic acid and methyl ester | |
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | 176. The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
H.E. Ungnade, R.W. Lamb | J. Am. Chem. Soc., 74 (15), 3789-3794, (1952) | The Absorption Spectra of Benzoic Acid and Esters | |
P.M. Oestreicher, C.G Farmilo, L. Levi | Bulletin on Narcotics, 3, 42-70, (1954) | Part III B. Ultraviolet Spectral Data for Ninety Narcotics and Related Compounds | |
W.F. Forbes, W.A. Mueller, A.S. Ralph, J.F. Templeton | Can. J. Chem., 35, 1049-1059, (1957) | Light absorption studies part VIII. The secondary band of acetophenones and benzoic acids in ultraviolet spectra | |
W.F. Forbes | Can. J. Chem., 37(12): 1977-1985, (1959) | Light absorption studies: Part XVI. The ultraviolet absorption spectra of fluorobenzenes | |
H. Hosoya, S. Nagakura | Spectrochimica Acta, 17 (3), 324-343, (1961) | Spectroscopic studies on reactive intermediates of esterification of aromatic carboxylic acids; Abstract | |
H. Hosoya, J. Tanaka, S. Nagakura | J. Molecular Spectroscopy, 8, 257-275, (1962) | Ultraviolet absorption spectra of monomer and dimer of benzoic acid | |
A.K. Chandra | J. Phys. Chem., 66 (3), 562-564, (1962) | Ultraviolet absorption spectra of o-, m-, and p-nitrobenzoic acids | |
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
J.C. Baum, D.S. McClure | J. Am. Chem. Soc., 101 (9), 2335-2339, (1979) | The ultraviolet transitions of benzoic acid. 1. Interpretation of the singlet absorption spectrum | |
C.E. Lund Myhre, C.J. Nielsen | Atmospheric Chemistry and Physics 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
E. Roth, A. Chakir, A. Ferhati | J. Phys. Chem. A, 114 (38), 10367-10379, (2010) | Study of a Benzoylperoxy Radical in the Gas Phase: Ultraviolet Spectrum and C6H5C(O)O2 + HO2 Reaction between 295 and 357 K | |
J. Xu, C.-H. Huang | Environ. Sci. Technol. Lett., 10, 6, 543-548, (2023) | Enhanced Direct Photolysis of Organic Micropollutants by Far-UVC Light at 222 nm from KrCl* Excilamps | |
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
F. Chau, C. Gibbons, D. Barton | Can. J. Chem., 50(13): 2017–2021 (1972) | The Photolysis of Benzoic Acid in the Vapor Phase | |
C7H5NO4; p-nitrobenzoic acid; 4-nitrobenzoic acid; CAS-No.: 62-23-7; PubChem: 6108 | |||
A.K. Chandra | J. Phys. Chem., 66 (3), 562-564, (1962) | Ultraviolet absorption spectra of o-, m-, and p-nitrobenzoic acids | |
C7H5NO4; o-nitrobenzoic acid; 2-nitrobenzoic acid; CAS-No.: 552-16-9; PubChem: CID 11087 | |||
A.K. Chandra | J. Phys. Chem., 66 (3), 562-564, (1962) | Ultraviolet absorption spectra of o-, m-, and p-nitrobenzoic acids | |
C7H5NO4; m-nitrobenzoic acid; 3-nitrobenzoic acid; CAS-No.: 121-92-6; PubChem: CID 8497 | |||
A.K. Chandra | J. Phys. Chem., 66 (3), 562-564, (1962) | Ultraviolet absorption spectra of o-, m-, and p-nitrobenzoic acids | |
C7H6O5; gallic acid; 3,4,5-trihydroxybenzoic acid; CAS-No.: 149-91-7; PubChem: CID 370 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C3H4O2; acrylic acid; propenoic acid; prop-2-enoic acid; CAS-No.: 79-10-7; PubChem: CID 6581 | |||
H. Morita, K. Fuke, S. Nagakura | Bull. Chem. Soc. Japan, 49 (4), 922-928, (1976) | Electronic Structure and Spectra of Acrylic Acid in the Vapor and Condensed Phases | |
M. Mendes, A.S. Barbosa, F. Ferreira da Silva, N.C. Jones, S.V. Hoffmann, G. García, M.H.F. Bettega, P. Limão-Vieira | J. Phys. Chem. A, 122 (41), 8191-8197, (2018) | Probing the Lowest-Lying Electronic States of Acrylic Acid by Experimental and Theoretical Methods | |
C8H8O2; methyl benzoate; benzoic acid, methyl ester; CAS-No.: 93-58-3; PubChem: 7150 | |||
E.A. Fehnel | J. Am. Chem. Soc., 72 (3), 1404-1405, (1950) | Steric effects in the ultraviolet absorption spectra of 2,4,6-trimethylbenzoic acid and methyl ester | |
H. Hosoya, J. Tanaka, S. Nagakura | J. Molecular Spectroscopy, 8, 257-275, (1962) | Ultraviolet absorption spectra of monomer and dimer of benzoic acid | |
J.C. Baum, D.S. McClure | J. Am. Chem. Soc., 101 (9), 2335-2339, (1979) | The ultraviolet transitions of benzoic acid. 1. Interpretation of the singlet absorption spectrum | |
R.A. McClelland, V. M. Kanagasabapathy, S. Steenken | Can. J. Chem., 68(3), 375-382, (1990) | Flash photolysis production of the tetrahedral intermediate of the methanolysis of methyl benzoate. Direct measurement of the rate of breakdown of the conjugate base form | |
C10H12O2; 2, 4, 6-trimethyl benzoic acid; mesitoic acid; CAS-No.: 480-63-7 | |||
E.A. Fehnel | J. Am. Chem. Soc., 72 (3), 1404-1405, (1950) | Steric effects in the ultraviolet absorption spectra of 2,4,6-trimethylbenzoic acid and methyl ester | |
D.W. Beistel, E.R. Atkinson, S. Safavi | J. Molecular Spectroscopy, 5, 174-179, (1967) | The ultraviolet absorption spectrum of 2, 4, 6-trimethylbenzoic acid in 100 per cent sulfuric acid | |
C3H2O3; deltic acid; 2,3-dihydroxycycloprop-2-en-1-one; CAS-No.: 54826-91-4; PubChem: CID 11679790 | |||
related data (e.g. quantum yield studies; photolysis studies, theoretical studies, etc.) | |||
F. Colmenero, R. Escribano | J. Phys. Chem. A, 123 (19), 4241-4261, (2019) | Thermodynamic, Raman Spectroscopic, and UV-Visible Optical Characterization of the Deltic, Squaric, and Croconic Cyclic Oxocarbon Acids; C3H2O3_theo_abs_data; C3H2O3_theo_abs_graph; C3H2O3_theo_refractive_data; C3H2O3_theo_refractive_graph | |
C4H2O4; squaric acid; 3,4-dihydroxy-3-cyclobutene-1,2-dione; CAS-No.: 2892-51-5; PubChem: CID 17913 | |||
related data (e.g. quantum yield studies; photolysis studies, theoretical studies, etc.) | |||
F. Colmenero, R. Escribano | J. Phys. Chem. A, 123 (19), 4241-4261, (2019) | Thermodynamic, Raman Spectroscopic, and UV-Visible Optical Characterization of the Deltic, Squaric, and Croconic Cyclic Oxocarbon Acids; C4H2O4_theo_abs_data; C4H2O4_theo_abs_graph; C4H2O4_theo_refractive_data; C4H2O4_theo_refractive_graph | |
C5H2O5; croconic acid; 4,5-dihydroxycyclopentenetrione; CAS-No.: 488-86-8 | |||
K. Yamada, N. Mizuno, Y. Hirata | Bull. Chem. Soc. Japan, 31 (5), 543-549, (1958) | Structure of croconic acid | |
K.K. Hartley, A.R. Wolff, L.D. Travis | Icarus, 77, 382-390, (1989) | Croconic acid: An absorber in the Venus clouds? | |
related data (e.g. quantum yield studies; photolysis studies, theoretical studies, etc.) | |||
F. Colmenero, R. Escribano | J. Phys. Chem. A, 123 (19), 4241-4261, (2019) | Thermodynamic, Raman Spectroscopic, and UV-Visible Optical Characterization of the Deltic, Squaric, and Croconic Cyclic Oxocarbon Acids; C5H2O5_theo_abs_data; C5H2O5_theo_abs_graph; C5H2O5_theo_refractive_data; C5H2O5_theo_refractive_graph | |
C5H4O4; aconic acid; 5-oxo-4,5-dihydro-3-furancarboxylic acid; CAS-No.: 585-68-2 | |||
N.R. Campbell, J.H. Hunt | J. Chem. Soc., 1176-1179, (1947) | Unsaturated lactones. Some esters of aconic and coumalic acids | |
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C5H6O4; citraconic acid; methylmaleic acid; citraconate; CAS-No.: 498-23-7; PubChem: CID 643798 | |||
K. Jankovska, I. Spirevska, L. Šoptrajanova | Bull. of the Chemists and Technologists of Macedonia, 18 (1), 47–50, (1999) | Protonation of citraconic and mesaconic acid in aqueousand ethanolic solutions | |
C5H6O4; mesaconic acid; methylfumaric acid; mesaconate; CAS-No.: 498-24-8; PubChem: CID 638129 | |||
N.R. Campbell, J.H. Hunt | J. Chem. Soc., 1176-1179, (1947) | Unsaturated lactones. Some esters of aconic and coumalic acids | |
K. Jankovska, I. Spirevska, L. Šoptrajanova | Bull. of the Chemists and Technologists of Macedonia, 18 (1), 47–50, (1999) | Protonation of citraconic and mesaconic acid in aqueousand ethanolic solutions | |
C. Avendano, A. Briceno | CrystEngComm, 11, 408-411, (2009) | Concomitant [2 + 2] cycloaddition solid state reactions from co-crystals self-assembled via mechanochemistry | |
C5H6O4; itaconic acid; 2-methylidenebutanedioic acid; CAS-No.: 97-65-4; PubChem: CID 811 | |||
N.R. Campbell, J.H. Hunt | J. Chem. Soc., 1176-1179, (1947) | Unsaturated lactones. Some esters of aconic and coumalic acids | |
C4H7NO4; D,L-aspartic acid; 2-aminobutanedioic acid; CAS-No.: 617-45-8; PubChem: CID 424 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H9NO4; glutamic acid; L-glutamic acid; CAS-No.: 56-86-0; PubChem: CID 33032 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H10N2O3; L-glutamine; glutamine; CAS-No.: 56-85-9; PubChem: CID 5961 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H6O4; methyl aconate; CAS-No.: | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C6H6O4; kojic acid; 5-hydroxy-2-(hydroxymethyl)-4H-pyran-4-one; CAS-No.: 501-30-4; PubChem: CID 3840 | |||
Z. Moldovan, D.E.Popa, I.G. David, M. Buleandra, I.A. Badea | J. Spectroscopy, 6929520, 1-9, (2017) | A Derivative Spectrometric Method for Hydroquinone Determination in the Presence of Kojic Acid, Glycolic Acid, and Ascorbic Acid | |
M.S. Piantavini, A.G. Goncalves, A.C.L.B. Trindade, M.D. Noseda, A.L.R. Merce, A.E.H. Machado, R. Pontarolo | Quim. Nova, 40 (7), 774-780, (2017) | Elucidation of the electronic spectrum changes of KA-Al3+ complex by potentiometric titration, FTIR, 13C RMN and quantum mechanics | |
C6H8O4; dimethyl maleate; maleic acid dimethyl ester; dimethyl maleinate; CAS-No.: 624-48-6; PubChem: CID 5271565 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C6H8O4; dimethyl fumarate; dimethyl (E)-butenedioate; CAS-No.: 624-49-7; PubChem: CID 637568 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C7H6O4; gamma-resorcylic acid; 2,6-dihydroxybenzoic acid; CAS-No.: 303-07-1; PubChem: CID 9338 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C7H6O4; 2,4-dihydroxybenzoic acid; beta-resorcylic acid; 4-carboxyresorcinol; CAS-No.: 89-86-1; PubChem: CID 1491 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O4; 2,5-dihydroxybenzoic acid; hydroquinonecarboxylic acid; gentisic acid; CAS-No.: 490-79-9; PubChem: CID 3469 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O4; 3,4-dihydroxybenzoic acid; 4-carboxy-1,2-dihydroxybenzene; protocatechuic acid; CAS-No.: 99-50-3; PubChem: CID 72 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O4; 3,5-dihydroxybenzoic acid; alpha-resorcylic acid; 5-carboxyresorcinol; CAS-No.: 99-10-5; PubChem: CID 7424 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O4; 2,3-dihydroxybenzoic acid; pyrocatechuic acid; 2-pyrocatechuic acid; CAS-No.: 303-38-8; PubChem: CID 19 | |||
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C8H6O4; terephthalic acid; benzene-1,4-dicarboxylic acid; TPA; CAS-No.: 100-21-9 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
C8H6O4; isophthalic acid; benzene-1,3-dicarboxylic acid; CAS-No.: 121-91-5; PubChem: 8496 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
C9H8O4; acetylsalicylic acid; benzoic acid, 2-(acetyloxy)-; aspirin; ASA; CAS-No.: 50-78-2 | |||
R.E. Stuckey | J. Pharm. Pharmacol., 4 (6), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
A. Ruiz Medina, M.L. Fernandez de Cordova, A. Molina-Diaz | J. Pharma. Biomed. Analysis, 21, 983-992, (1999) | Simultaneous determination of paracetamol, caffeine and acetylsalicylic acid by means of a FI ultraviolet pls multioptosensing device | |
M.O. Iwunze | Analytical Letters, 41 (16), 2944-2953, (2008) | Absorptiometric Determination of Acetylsalicylic Acid in Aqueous Ethanolic Solution | |
C9H10O4; 2,6-dimethoxybenzoic acid; CAS-No.: 1466-76-8; PubChem: CID 15109 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C9H10O4; 3,4-dimethoxybenzoic acid; veratric acid; veratrylic acid; CAS-No.: 93-07-2; PubChem: CID 7121 | |||
Y. Hirshberg, D. Lavie, E.D. Bergmann | J. Chem. Soc., 1030-1034, (1951) | The action of alcohol on phthalic anhydrides | |
C9H10O5; syringic acid; 4-hydroxy-3,5-dimethoxybenzoic acid; 3,5-dimethoxy-4-hydroxybenzoic acid; CAS-No.: 530-57-4; PubChem: CID 10742 | |||
S. Arciva, L. Ma, C. Mavis, C. Guzman, C. Anastasio | Atmos. Chem. Phys., 24 (7), 4473-4485, (2024) | Formation and loss of light absorbance by phenolic aqueous SOA by °OH and an organic triplet excited state | |
C10H10O2; p-methycinnamic acid; 4-methycinnamic acid; CAS-No.: 1866-39-3 | |||
C. Peng, J. Dai, J. Yu, J. Yin | AIP Advances, 5 (2), 027133, (2015) | Intercalation of p-methycinnamic acid anion into Zn-Al layered double hydroxide to improve UV aging resistance of asphalt | |
C10H10O3; 4-methoxycinnamic acid; p-methoxycinnamic acid; 3-(4-methoxyphenyl)acrylic acid; CAS-No.: 830-09-1; PubChem: CID 699414 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C10H10O4; ferulic acid; 4-hydroxy-3-methoxycinnamic acid; CAS-No.: 1135-24-6; PubChem: CID 445858 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
J.M.D. Markovic, N.A. Petranovic, J.M. Baranac | J. Agric. Food Chem., 48 (11), 5530-5536, (2000) | A Spectrophotometric Study of the Copigmentation of Malvin with Caffeic and Ferulic Acids | |
C10H10O4; trans-ferulic acid; 4-hydroxy-3-methoxycinnamic acid; CAS-No.: 537-98-4; PubChem: CID 445858 | |||
S. Arciva, L. Ma, C. Mavis, C. Guzman, C. Anastasio | Atmos. Chem. Phys., 24 (7), 4473-4485, (2024) | Formation and loss of light absorbance by phenolic aqueous SOA by °OH and an organic triplet excited state | |
C10H10O4; cis-ferulic acid; (2Z)-3-(4-hydroxy-3-methoxyphenyl)prop-2-enoic acid; CAS-No.: 1014-83-1; PubChem: CID 1548883 | |||
S. Arciva, L. Ma, C. Mavis, C. Guzman, C. Anastasio | Atmos. Chem. Phys., 24 (7), 4473-4485, (2024) | Formation and loss of light absorbance by phenolic aqueous SOA by °OH and an organic triplet excited state | |
C10H10O4; 4,5-dimethylphthalic acid; 1,2-benzenedicarboxylic acid, 4,5-dimethyl-; CAS-No.: 5680-10-4; PubChem: CID 10910403 | |||
N.P. Anashkina, M.T. Golikova, L.Kh. Bikchurina | J. Appl. Spectr., 17 (3), 1153-1155, (1972) | Ultraviolet absorption spectra of methyl-substituted phthalic acids | |
C10H10O4; 4,5-dimethylisophthalic acid; 4,6-dimethylbenzene-1,3-dicarboxylic acid; CAS-No.: 2790-09-2; PubChem: CID 314208 | |||
N.P. Anashkina, M.T. Golikova, L.Kh. Bikchurina | J. Appl. Spectr., 17 (3), 1153-1155, (1972) | Ultraviolet absorption spectra of methyl-substituted phthalic acids | |
C10H10O4; 2,5-dimethylterephthalic acid; 1,4-benzenedicarboxylicacid, 2,5-dimethyl-; CAS-No.: 6051-66-7; PubChem: CID 299989 | |||
N.P. Anashkina, M.T. Golikova, L.Kh. Bikchurina | J. Appl. Spectr., 17 (3), 1153-1155, (1972) | Ultraviolet absorption spectra of methyl-substituted phthalic acids | |
C10H10O4; ethyl phthalate; ethyl 2-carboxybenzoate; phthalic acid, monoethyl ester; CAS-No.: 2306-33-4; PubChem: CID 75318 | |||
Y. Hirshberg, D. Lavie, E.D. Bergmann | J. Chem. Soc., 1030-1034, (1951) | The action of alcohol on phthalic anhydrides | |
C9H6O6; trimesic acid; benzene-1,3,5-tricarboxylic acid; CAS-No.: 554-95-0; PubChem: 11138 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
C9H6O6; hemimellitic acid; 1,2,3-benzenetricarboxylic acid; CAS-No.: 569-51-7; PubChem: CID 11288 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
C9H6O6; trimellitic acid; benzene-1, 2,4-tricarboxylic acid; CAS-No.: 528-44-9; PubChem: 10708 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
C10H14O3; trimethylorthobenzoate; CAS-No.: 707-07-3 | |||
R.A. McClelland, V.M. Kanagasabapathy, S. Steenken | Can. J. Chem., 68(3), 375-382, (1990) | Flash photolysis production of the tetrahedral intermediate of the methanolysis of methyl benzoate. Direct measurement of the rate of breakdown of the conjugate base form | |
C10H6O4; coumarin-3-carboxylic acid; 3-carboxycoumarin; CAS-No.: 531-81-7; PubChem: CID 10752 | |||
Q. Yang, J. Vana, P. Klan | Photochem. Photobiol. Sci., (2022) | The complex photochemistry of coumarin-3-carboxylic acid in acetonitrile and methanol | |
C10H6O8; pyromellitic acid; 1,2,4,5-benzenetetracarboxylic acid; CAS-No.: 89-05-4; PubChem: CID 6961 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
C11H6O10; 1,2,3,4,5-benzenepentacarboxylic acid; benzenepentacarboxylic acid; CAS-No.: 1585-40-6 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
C12H6O12; mellitic acid; benzene-1,2,3,4,5,6-hexacarboxylic acid; CAS-No.: 517-60-2; PubChem: 2334 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
C5H8O4; COOH(CH2)3COOH; glutaric acid; CAS-No.: 110-94-1 | |||
C.E. Lund Myhre, C. J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C3H4O4; COOHCH2COOH; malonic acid; CAS-No.: 141-82-2 | |||
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C2H2O4; (COOH)2; oxalic acid; CAS-No.: 144-62-7; PubChem: CID 971 | |||
R.A. Back | Can. J. Chem., 62, 1414-1428, (1984) | The ultraviolet absorption spectrum of oxalic acid vapor | |
S. Yamamoto, R.A. Back | J. Phys. Chem., 89, 622-625, (1985) | The Gas-Phase Photochemistry of Oxalic Acid | |
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
K. Li, M.I. Stefan, J.C. Crittenden | Environ. Sci. Technol., 38 (24), 6685-6693, (2004) | UV Photolysis of Trichloroethylene: Product Study and Kinetic Modeling | |
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C2O42-; oxalate; ethanedioate; CAS-No.: 338-70-5; PubChem: CID 71081 | |||
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C4H6O4; dimethyl oxalate; CAS-No.: 553-90-2; PubChem: CID 11120 | |||
H.J. Maria, S.P. McGlynn | J. Mol. Spectroscopy, 42 (1), 177-196, (1972) | Electronic States of Oxalic Acid and Dimethyloxalate. Absorption Studies | |
C5H6O3; 4-oxo-pent-2c-enoic acid; cis-beta-acetylacrylic acid; (E)-4-oxo-pent-2-enoic acid; CAS-No.: 2833-21-8 | |||
S. Seltzer, K.D. Stevens | J. Org. Chem., 33 (7), 2708-2711, (1968) | The preparation of cis-beta-acetylacrylic acid | |
C5H6O3; trans-beta-acetylacrylic acid; 3-acetylacrylic acid; CAS-No.: 4743-82-2 | |||
E. Shaw | J. Am. Chem. Soc., 68 (12), 2510-2513, (1946) | A synthesis of protoanemonin. The tautomerism of acetylacrylic acid and of penicillic acid | |
S. Seltzer, K.D. Stevens | J. Org. Chem., 33 (7), 2708-2711, (1968) | The preparation of cis-beta-acetylacrylic acid | |
C6H8O3; acetylacrylic acid methyl ester; methyl acetylacrylate; CAS-No.: 2833-24-1 | |||
E. Shaw | J. Am. Chem. Soc., 68 (12), 2510-2513, (1946) | A synthesis of protoanemonin. The tautomerism of acetylacrylic acid and of penicillic acid | |
C8H6O4; C6H4(COOH)2; phthalic acid; benzene-1,2-dicarboxylic acid; ortho-phthalic acid; CAS-No.: 88-99-3; PubChem: 1017 | |||
N. Berman, C.H. Ruof, H.C. Howard | Anal. Chem., 23 (12), 1882-1883, (1951) | Ultraviolet absorption spectra of benzenecarboxylic acids | |
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
N.P. Anashkina, M.T. Golikova, L.Kh. Bikchurina | J. Appl. Spectr., 17 (3), 1153-1155, (1972) | Ultraviolet absorption spectra of methyl-substituted phthalic acids | |
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C8H8O2; phenylacetic acid; phenylethanoic acid; PAA; CAS-No.: 103-82-2; PubChem: CID 999 | |||
W.D. Kumler, L.A. Strait, E.L. Alpen | J. Am. Chem. Soc., 72 (4), 1463-1466, (1950) | The ultraviolet absorption spectra of alpha-phenylcarbonyl compounds | |
R.E. Buckles, K.G. Bremer | J. Am. Chem. Soc., 77 (3), 805-806, (1955) | The effect of base on the ultraviolet absorption spectra of phenylacetic acids | |
C8H8O2; 2-methylbenzoic acid; o-toluic acid; CAS-No.: 118-90-1; PubChem: CID 8373 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C8H8O2; 3-methylbenzoic acid; m-toluic acid; CAS-No.: 99-04-7; PubChem: CID 7418 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C8H8O2; 4-methylbenzoic acid; p-toluic acid; CAS-No.: 99-94-5; PubChem: CID 7470 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C8H4O3; phthalic anhydride; 2-benzofuran-1,3-dione; CAS-No.: 85-44-9 | |||
Y. Hirshberg, D. Lavie, E.D. Bergmann | J. Chem. Soc., 1030-1034, (1951) | The action of alcohol on phthalic anhydrides | |
C8H8O3; methyl 4-hydroxybenzoate; methylparaben; methyl p-hydroxybenzoate; CAS-No.: 99-76-3; PubChem: CID 7456 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C9H18O2; nonanoic acid; pelargonic acid; nonoic acid; CAS-No.: 112-05-0; PubChem: CID 8158 | |||
S. Rossignol, L. Tinel, A. Bianco, M. Passananti, M. Brigante, D.J. Donaldson, C. George | Science, 353 (6300), 699-702, (2016) | Atmospheric photochemistry at a fatty acid–coated air-water interface | |
N. Numadate, S. Saito, Y. Nojima, Taka-aki Ishibashi, S. Enami, T. Hama | J. Phys. Chem. Lett., 13 (35), 8290-8297, (2022) | Direct Observation and Quantitative Measurement of OH Radical Desorption During the Ultraviolet Photolysis of Liquid Nonanoic Acid | |
S.Saito, N. Numadate, H. Teraoka, S. Enami, H. Kobayashi, T. Hama | Science Advances, 9 (38), (2023) | Impurity contribution to ultraviolet absorption of saturated fatty acids | |
C9H10O2; 2,6-dimethylbenzoic acid; vic-m-xylylic acid; CAS-No.: 632-46-2; PubChem: CID 12439 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C9H8O2; cinnamic acid; trans-cinnamic acid; 3-phenylacrylic acid; CAS-No.: 140-10-3; PubChem: CID 444539 | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C9H8O2; cis-cinnamic acid; isocinnamic acid; (Z)-3-phenyl-2-propenoic acid; CAS-No.: 102-94-3; PubChem: CID 5372954 | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
C12H10O2; 2-methyl-1-naphthoic acid; 2-methylnaphthalene-1-carboxylic acid; CAS-No.: 1575-96-8; PubChem: CID 74091 | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 3-methyl-1-naphthoic acid; 3-methylnaphthalene-1-carboxylic acid; CAS-No.: | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 4-methyl-1-naphthoic acid; 4-methylnaphthalene-1-carboxylic acid; CAS-No.: 4488-40-8 | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 5-methyl-1-naphthoic acid; 5-methylnaphthalene-1-carboxylic acid; CAS-No.: | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 6-methyl-1-naphthoic acid; 6-methylnaphthalene-1-carboxylic acid; CAS-No.: 6315-19-1; PubChem: CID 228101 | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 7-methyl-1-naphthoic acid; 7-methylnaphthalene-1-carboxylic acid; CAS-No.: 35387-22-5; PubChem: CID 13668048 | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O2; 8-methyl-1-naphthoic acid; 8-methylnaphthalene-1-carboxylic acid; CAS-No.: 19310-98-6; PubChem: CID 597859 | |||
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C12H10O3; 2-naphthoxyacetic acid; 2-naphthyloxyacetic acid; CAS-No.: 120-23-0; PubChem: CID 8422 | |||
J. Xu, C.-H. Huang | Environ. Sci. Technol. Lett., 10, 6, 543-548, (2023) | Enhanced Direct Photolysis of Organic Micropollutants by Far-UVC Light at 222 nm from KrCl* Excilamps | |
C9H8O3; p-coumaric acid; 4-hydroxycinnamic acid; (E)-3-(4-hydroxyphenyl)-2-propenoic acid; CAS-No.: 501-98-4; PubChem: CID 637542 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
H. He, L. Qin, Y. Zhang, M. Han, J. Li, Y. Liu, K. Qiu, X. Dai, Y. Li, M. Zeng, H. Guo, Y. Zhou, X. Wang | Anal. Chem., 91, 4, 2634–2643, (2019) | 3,4-Dimethoxycinnamic Acid as a Novel Matrix for Enhanced In Situ Detection and Imaging of Low-Molecular-Weight Compounds in Biological Tissues by MALDI-MSI | |
C10H10O3; methyl p-coumarate; methyl 3-(4-hydroxyphenyl)prop-2-enoate; 2-propenoic acid, 3-(4-hydroxyphenyl)-, methyl ester; CAS-No.: 3943-97-3 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C9H10O3; 2-hydroxy-2-phenylpropionic acid; atrolactic acid; 2-hydroxy-2-phenylpropanoic acid; CAS-No.: 515-30-0; PubChem: CID 1303 | |||
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
C10H16O3; pinonic acid; CAS-No.: 61826-55-9 | |||
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C10H16O3; cis-pinonic acid; cis-3-acetyl-2,2-dimethylcyclobutaneacetic acid; CAS-No.: 473-72-3 | |||
H. Lignell, S.A. Epstein, M.R. Marvin, D. Shemesh, B. Gerber, S. Nizkorodov | J. Phys. Chem. A, 117 (48), 12930-12945, (2013) | Experimental and Theoretical Study of Aqueous Cis-Pinonic Acid Photolysis | |
T. Otto, T. Schaefer, H. Herrmann | J. Phys. Chem. A, 122 (47), 9233-9241, (2018) | Aqueous-Phase Oxidation of Terpene-Derived Acids by Atmospherically Relevant Radicals | |
C10H16O3; limononic acid; 3-isopropenyl-6-oxoheptanoic acid; CAS-No.: 4436-82-2; PubChem: CID 4488713 | |||
B. Witkowsky, M. Al-sharafi, T. Gierczak | Environ. Sci. Technol., 53 (15), 8823-8832, (2019) | Ozonolysis of beta-caryophyllonic and limononic acids in the aqueous phase: kinetics, product yield and mechanism | |
C15H24O3; beta-caryophyllonic acid; CAS-No.: | |||
B. Witkowsky, M. Al-sharafi, T. Gierczak | Environ. Sci. Technol., 53 (15), 8823-8832, (2019) | Ozonolysis of beta-caryophyllonic and limononic acids in the aqueous phase: kinetics, product yield and mechanism | |
C3H4O3; CH3COCO2H; pyruvic acid; 2-oxopropionic acid; CAS-No.: 127-17-3; PubChem: CID 1060 | |||
S. Yamamoto, R.A. Back | Can. J. Chem., 63, 549-554, (1985) | The photolysis and thermal decomposition of pyruvic acid in the gas phase | |
A. Horowitz, R. Meller, G.K. Moortgat | J. Photochem. Photobiol. A: Chem., 146, 19-27, (2001) | The UV-VIS absorption cross sections of the alpha-dicarbonyl compounds: pyruvic acid, biacetyl and glyoxal | |
A. Mellouki, Y. Mu | J. Photochem. Photobiol. A: Chem., 157, 295-300, (2003) | On the atmospheric degradation of pyruvic acid in the gas phase | |
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
M. Mekic, M. Brigante, D. Vione, S. Gligorovski | Atmos. Env., 185, 237-242, (2018) | Exploring the ionic strength effects on the photochemical degradation of pyruvic acid in atmospheric deliquescent aerosol particles | |
M. Luo, D. Shemesh, M.N. Sullivan, M.R. Alves, M. Song, R.B. Gerber, V.H. Grassian | J. Phys. Chem. A, 124, 25, 5071-5080, (2020) | Impact of pH and NaCl and CaCl2 Salts on the Speciation and Photochemistry of Pyruvic Acid in the Aqueous Phase | |
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
G.F. Vesley, P.A. Leermakers | J. Phys. Chem., 68, 2364-2366, (1964) | The Photochemistry of alpha-Keto Acids and alpha-Keto Esters. III. Photolysis of Pyruvic Acid in the Vapor Phase | |
M.G.M. Berges, P. Warneck | Ber. Bunsenges. Phys. Chem., 96 (3), 413-416, (1992) | Product quantum yields for the 350 nm photodecomposition of pyruvic acid in air | |
S. Dhanya, D.K. Maity, H.P. Upadhyaya, A. Kumar, P.D. Naik, R.D. Saini | J. Chem. Phys., 118, 10093, (2003) | Dynamics of OH formation in photodissociation of pyruvic acid at 193 nm | |
M.I. Guzman, M.R. Hoffmann, A.J. Colussi | J. Geophys. Res., 112, D10123, (2007) | Photolysis of pyruvic acid in ice: Possible relevance to CO and CO2 ice core record anomalies | |
K. Takahashi, K.L. Plath, R.T. Skodje, V. Vaida | J. Phys. Chem. A, 112 (32), 7321-7331, (2008) | Dynamics of Vibrational Overtone Excited Pyruvic Acid in the Gas Phase: Line Broadening through Hydrogen-Atom Chattering | |
C3H3O3-; pyruvate; 2-oxopropanoate; CAS-No.: 57-60-3; PubChem: CID 107735 | |||
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C4H2O3; maleic anhydride; 2,5-furandione; CAS-No.: 108-31-6; PubChem: CID 7923 | |||
W.G. Barb | Trans. Faraday Soc.,49, 143-148, (1953) | Ultra-violet absorption and molecular complex formation of maleic anhydride in aromatic solvents | |
R.A. Back, J.M. Parsons | Can. J. Chem., 59, 1342-1346, (1981) | The thermal and photochemical decomposition of maleic anhydride in the gas phase | |
P. Marshall, V.C. Papadimitriou, D.K. Papanastasiou, J.M. Roberts, J.B. Burkholder | J. Photochem. Photobiol. A: Chem., 382, 111953, (2019) | UV and infrared absorption spectra and 248 nm photolysis of maleic anhydride (C4H2O3) | |
C4H4O4; fumaric acid; (2E)-but-2-enedioic acid; trans-butenedioic acid; CAS-No.: 110-17-8; PubChem: CID 444972 | |||
C. Avendano, A. Briceno | CrystEngComm, 11, 408-411, (2009) | Concomitant [2 + 2] cycloaddition solid state reactions from co-crystals self-assembled via mechanochemistry | |
C4H6O4; succinic acid; CAS-No.: 110-15-6 | |||
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C4H4O3; succinic anhydride; dihydro-2,5-furandione; CAS-No.: 108-30-5 | |||
S. Yamamoto, R.A. Back | Can. J. Chem., 61 (12), 2790-2794, (1983) | The thermal and photochemical decompositions of succinic anhydride and 2,3-dimethyl succinic anhydride in the gas phase | |
C4F4O3; tetrafluorosuccinic anhydride; CAS-No.: 699-30-9 | |||
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
P.E. Watkins, E. Whittle | J. Chem. Soc., Faraday Trans. I, 76, 503-511, (1980) | Photochemistry of anhydrides. Part 5.-Photolysis of perfluorosuccinnic anhydride | |
D.E. Weibel, E.R. de Staricco, E.H. Staricco | J. Photochem. Photobiol. A: Chem., 49 (3), 279-285, (1989) | Quantum yield dependence on the wavelength in the gas phase photolysis of perfluorosuccinic anhydride | |
C3H4O5; HO2CCH(OH)CO2H; tartronic acid; CAS-No.: 80-69-3 | |||
C.E. Lund Myhre, C.J. Nielsen | Atmos. Chem. Phys., 4, 1759-1769, (2004) | Optical properties in the UV and visible spectral region of organic acids relevant to tropospheric aerosols | |
C2H4O2; HCOOCH3; methyl formate; formic acid methyl ester; CAS-No.: 107-31-3; PubChem: CID 7865 | |||
M. Suto, X. Wang, L.C. Lee | J. Phys. Chem., 92, 3764-3768, (1988) | Fluorescence Yields from Photodissociative Excitation of HCOOH, HCOOCH3, and CH3COOH in the Vacuum-Ultraviolet Region | |
E. Vésine, A. Mellouki | J. Chim. Phys. Physico-Chim. Biol., 94, 1634-1641, (1997) | UV absorption cross sections for a series of formates | |
B. Benayada, Daddi Oubekka Leila | Desalination, 126, 83-86, (1999) | UV absorption cross sections for acetates | |
M. Schwell, H.-W. Jochims, H. Baumgaertel, F. Dulieu, S. Leach | Planetary and Space Science, 54, 1073-1085, (2006) | VUV photochemistry of small biomolecules | |
Y. Nunes, G. Martins, N.J. Mason, D. Duflot, S.V. Hoffmann, J. Delwiche, M.-J. Hubin-Franskin, P. Limão-Vieira | Phys. Chem. Chem. Phys., 12, 15734-15743, (2010) | Electronic states spectroscopy of methyl formate probed by high resolution VUV photoabsorption, He(I) photoelectron spectroscopy and ab initio calculations | |
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
C3H6O2; HCOOC2H5; ethyl formate; formic acid ethyl ester; CAS-No.: 109-94-4 | |||
E. Vésine, A. Mellouki | J. Chim. Phys. Physico-Chim. Biol., 94, 1634-1641, (1997) | UV absorption cross sections for a series of formates | |
B. Benayada, Daddi Oubekka Leila | Desalination, 126, 83-86, (1999) | UV absorption cross sections for acetates | |
M.A. Smialek, M. Labuda, J. Guthmuller, M.-J. Hubin-Franskin, J. Delwiche, D. Duflot, N.J. Mason, S.V. Hoffmann, N.C. Jones, P. Limão-Vieira | J. Chem. Phys. 141, 104311, (2014) | Valence and ionic lowest-lying electronic states of ethyl formate as studied by highresolution vacuum ultraviolet photoabsorption, He(I) photoelectron spectroscopy, and ab initio calculations | |
C4H8O2; HCOOC3H7; n-propyl formate; formic acid, propyl ester; CAS-No.: 110-74-7 | |||
E. Vésine, A. Mellouki | J. Chim. Phys. Physico-Chim. Biol., 94, 1634-1641, (1997) | UV absorption cross sections for a series of formates | |
C5H10O2; HCOOC4H9; n-butyl formate; formic acid, butyl ester; CAS-No.: 592-84-7 | |||
E. Vésine, A. Mellouki | J. Chim. Phys. Physico-Chim. Biol., 94, 1634-1641, (1997) | UV absorption cross sections for a series of formates | |
C3H6O2; CH3COOCH3; methyl acetate; acetic acid methyl ester; CAS-No.: 79-20-9; PubChem: CID 6584 | |||
B. Benayada, Daddi Oubekka Leila | Desalination, 126, 83-86, (1999) | UV absorption cross sections for acetates | |
B. Sivaraman, B.G. Nair, J.-I. Lo, S. Kundu, D. Davis, V. Prabhudesai, B.N. Raja Sekhar, N.J. Mason, B.-M. Cheng, E. Krishnakumar | Astrophys. J., 778 (2), 157, (2013) | Vacuum ultraviolet and infrared spectra of condensed methyl acetate on cold astrochemical dust analogs | |
C4H8O2; CH3COOC2H5; ethyl acetate; acetic acid ethyl ester; CAS-No.: 141-78-6 | |||
J.L. Weeks, G.M.A.C. Meaburn, S. Gordon | Radiation Research, 19, 559-567, (1963) | Absorption coefficients of liquid water and aqueous solutions in the far ultraviolet | |
S. Nagakura, K. Kaya, H. Tsubomura | J. Mol. Spectroscopy, 13, 1-8, (1964) | Vacuum ultraviolet absorption spectra and electronic structures of formic acid, acetic acid and ethyl acetate | |
B. Benayada, Daddi Oubekka Leila | Desalination, 126, 83-86, (1999) | UV absorption cross sections for acetates | |
M.A. Smialek, M. Labuda, J. Guthmuller, M.-J. Hubin-Franskin, J. Delwiche, S.V. Hoffmann, N.C. Jones, N.J. Mason, P. Limão-Vieira | Eur. Phys. J. D, 70, 138, (2016) | Electronic state spectroscopy by high-resolution vacuum ultraviolet photoabsorption, He(I) photoelectron spectroscopy and ab initio calculations of ethyl acetate | |
C5H8O2; methyl crotonate; crotonic acid methyl ester; CAS-No.: 623-43-8; PubChem: CID 638132 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C6H12O2; isobutyl acetate; 2-methylpropyl ethanoate; isobutyl ethanoate; CAS-No.: 110-19-0; PubChem: CID 8038 | |||
M.A. Smialek, M. Labuda, M.-J. Hubin-Franskin, J. Delwiche, S.V. Hoffmann, N.C. Jones, N.J. Mason, P. Limão-Vieira | Eur. Phys. J. D, 71, 129, (2017) | Isobutyl acetate: electronic state spectroscopy by high-resolution vacuum ultraviolet photoabsorption, He(I) photoelectron spectroscopy and ab initio calculations | |
C6H12O2; methyl valerate; methyl pentanoate; pentanoic acid, methyl ester; CAS-No.: 624-24-8; PubChem: CID 12206 | |||
M.A. Smialek, D. Duflot, N.C. Jones, S.V. Hoffmann, L. Zuin, M. Macdonald, N.J. Mason, P. Limao-Vieira | Eur. Phys. J. D, 74, 153, (2020) | On the electronic structure of methyl butyrate and methyl valerate | |
C15H21NO6; domoic acid; CAS-No.: 14277-97-5; PubChem: CID 5282253 | |||
M. Falk, J.A. Walter, P.W. Wiseman | Can. J. Chem., 67, 1421-1425, (1989) | Ultraviolet spectrum of domoic acid | |
M.A. Quilliam, P.G. Sim, A.W. McCulloch, A.G. McInnes | Int. J. Environ. Anal. Chem., 36, 139-156, (1989) | High-Performance Liquid Chromatography of Domoic Acid, a Marine Neurotoxin, with Application to Shellfish and Plankton | |
R.-C. Bouillon, T.L. Knierim, R.J. Kieber, S.A. Skrabal, J.L.C. Wright | Limnology and Oceanography, 51 (1), 321-330, (2006) | Photodegradation of the algal toxin domoic acid in natural water matrices | |
R.-C. Bouillon, R.J. Kieber, S.A. Skrabal, J.L.C. Wright | Marine Chemistry, 110 (1-2), 18-27, (2008) | Photochemistry and identification of photodegradation products of the marine toxin domoic acid | |
C15H21NO6; isodomoic acid E; domoric acid; CAS-No.: 133005-85-3; PubChem: CID 44568340 | |||
R.-C. Bouillon, R.J. Kieber, S.A. Skrabal, J.L.C. Wright | Marine Chemistry, 110 (1-2), 18-27, (2008) | Photochemistry and identification of photodegradation products of the marine toxin domoic acid | |
C11H14O3; C4H9(C6H4(OH)COO); butylparaben; butyl 4-hydroxybenzoate; CAS-No.: 94-26-8 | |||
related data (e.g. quantum yield studies; photolysis studies, etc.) | |||
D. Bledzka, D. Gryglik, J.S. Miller | J. Photochem. Photobiol. A: Chem., 203, 131-136, (2009) | Photodegradation of butylparaben in aqueous solutions by 254 nm irradiation | |
C6H5NO2; niacin; nicotinic acid; CAS-No.: 59-67-6; PubChem: CID 938 | |||
R.F. Evans, E.F.G. Herington, W. Kynaston | Trans. Faraday Soc.,49, 1284-1292, (1953) | Determination of dissociation constants of the pyridine-monocarboxylic acids by ultra-violet photoelectric spectrophotometry | |
H.P. Stephenson, H. Sponer | J. Am. Chem. Soc., 79 (9), 2050-2056, (1957) | Near Ultraviolet absorption spectra of the pyridine monocarboxylic acids in water and ethanol solutions | |
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H5NO2; isonicotinic acid; pyridine-4-carboxylic acid; CAS-No.: 55-22-1; PubChem: 5922 | |||
R.F. Evans, E.F.G. Herington, W. Kynaston | Trans. Faraday Soc.,49, 1284-1292, (1953) | Determination of dissociation constants of the pyridine-monocarboxylic acids by ultra-violet photoelectric spectrophotometry | |
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H5NO2; picolinic acid; 2-pyridinecarboxylic acid; CAS-No.: 98-98-6 | |||
R.F. Evans, E.F.G. Herington, W. Kynaston | Trans. Faraday Soc.,49, 1284-1292, (1953) | Determination of dissociation constants of the pyridine-monocarboxylic acids by ultra-violet photoelectric spectrophotometry | |
H.H.G. Jellinek, J.R. Urwin | J. Phys. Chem., 58 (7), 548-550, (1954) | Ultraviolet Absorption Spectra and Dissociation Constants of Picolinic, Isonicotinic Acids and their Amides | |
H.P. Stephenson, H. Sponer | J. Am. Chem. Soc., 79 (9), 2050-2056, (1957) | Near Ultraviolet absorption spectra of the pyridine monocarboxylic acids in water and ethanol solutions | |
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H5NO3; picolinic acid N-oxide; 2-pyridinecarboxylic acid 1-oxide; picolinic acid 1-oxide; CAS-No.: 824-40-8; PubChem: CID 69986 | |||
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H5NO3; nicotinic acid N-oxide; oxiniacic acid ; nicotinic acid 1-oxide; CAS-No.: 2398-81-4; PubChem: CID 16976 | |||
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H5NO3; isonicotinic acid N-oxide; 4-carboxypyridine 1-oxide; isonicotinic acid 1-oxide; CAS-No.: 13602-12-5; PubChem: CID 26130 | |||
N. Hata | Bull. Chem. Soc. Japan, 31 (3), 255-260, (1958) | Ultraviolet Absorption Spectra of Three Isomeric Pyridine Monocarboxylic Acids and Their N-Oxides | |
C6H6N2O2; trans-urocanic acid; (E)-3-(1H-imidazol-4-yl)prop-2-enoic acid; CAS-No.: 104-98-3 | |||
K.M. Hanson, B. Li, J.D. Simon | J. Am. Chem. Soc.,119,2715-2721, (1997) | A Spectroscopic Study of the Epidermal Ultraviolet Chromophoretrans-Urocanic Acid | |
cis-C6H6N2O2; cis-urocanic acid; (Z)-3-(1H-imidazol-5-yl)prop-2-enoic acid; CAS-No.: 7699-35-6 | |||
K.M. Hanson, B. Li, J.D. Simon | J. Am. Chem. Soc.,119,2715-2721, (1997) | A Spectroscopic Study of the Epidermal Ultraviolet Chromophoretrans-Urocanic Acid | |
C11H12N2O2; tryptophan; DL-tryptophan; Trp; CAS-No.: 54-12-6; PubChem: CID | |||
D.J. McLean, A.C. Giese | J. Biol. Chemistry, 187 (2), 537-542, (1950) | Absorption spectra of proteins and amino acids after ultraviolet irradiation | |
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
M. Spangenberg, J.I. Bryant, S.J. Gibson, P.J. Mousley, Y. Ramachers, G.R. Bell | Scientific Reports, 11, 3682, (2022) | Ultraviolet absorption of contaminants in water | |
C2H4O3; glycolic acid; 2-hydroxyethanoic acid; hydroxyacetic acid; CAS-No.: 79-14-1; PubChem: 757 | |||
M. Simic, P. Neta, E. Hayon | J. Phys. Chem., 73 (12), 4214-4219, (1969) | Pulse radiolysis of aliphatic acids in aqueous solutions. II. Hydroxy and polycarboxylic acids | |
C3H6O3; lactic acid; 2-hydroxypropanoic acid; CAS-No.: 50-21-5; PubChem: CID 612 | |||
M. Simic, P. Neta, E. Hayon | J. Phys. Chem., 73 (12), 4214-4219, (1969) | Pulse radiolysis of aliphatic acids in aqueous solutions. II. Hydroxy and polycarboxylic acids | |
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C3H5O3-; lactate; 2-hydroxypropanoate; CAS-No.: 113-21-3; PubChem: CID 91435 | |||
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C4H4O5; oxalacetic acid; oxaloacetic acid; 2-oxosuccinic acid; CAS-No.: 328-42-7; PubChem: CID 970 | |||
A.L. Klodt, K. Zhang, M.W. Olsen, J.L. Fernandez, F. Furche, S.A. Nizkorodov | ACS Earth Space Chem., 5, 4, 931-940, (2021) | Effect of Ammonium Salts on the Decarboxylation of Oxaloacetic Acid in Atmospheric Particles | |
C4H6O6; tartaric acid; 2,3-dihydroxybutanedioic acid; CAS-No.: 87-69-4; PubChem: 444305 | |||
M. Simic, P. Neta, E. Hayon | J. Phys. Chem., 73 (12), 4214-4219, (1969) | Pulse radiolysis of aliphatic acids in aqueous solutions. II. Hydroxy and polycarboxylic acids | |
C4H8O3; ethyl methyl carbonate; carbonic acid, ethyl methyl ester; CAS-No.: 623-53-0; PubChem: CID 522046 | |||
A. Kumar Das, K. Sunanda, B.N. Rajasekhar | J. Quant. Spectr. Rad. Transfer, 272, 107789, (2021) | Electronic and vibrational spectroscopy of ethyl methyl carbonate: A comparative experimental and theoretical study | |
C4H8O4; 2-methylglyceric acid; 2,3-dihydroxy-2-methylpropanoic acid; CAS-No.: 21620-60-0; PubChem: CID 560781 | |||
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C4H7O4-; 2-methylglycerate 2,3-dihydroxy-2-methylpropanoate; CAS-No.: | |||
L.N. Tran, K.A. Abellar, J.D. Cope, T.B. Nguyen | J. Phys. Chem. A, 126, 37, 6517–6525, (2022) | Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4•–) Oxidation of Some Atmospherically Relevant Organic Compounds | |
C6H12O3; 1-methoxy-2-propylacetate; PGMEA; MPA; CAS-No.: 108-65-6; PubChem: CID 7946 | |||
A.G. Zogka, A. Mellouki, M.N. Romanias, Y. Bedjanian, M. Idir, B. Grosselin, V. Daële | J. Phys. Chem. A, 120 (45), 9049-9062, (2016) | Atmospheric Chemistry of 1-Methoxy 2-Propyl Acetate: UV Absorption Cross Sections, Rate Coefficients, and Products of Its Reactions with OH Radicals and Cl Atoms | |
C7H6O3; salicylic acid; 2-hydroxybenzoic acid; CAS-No.: 69-72-7; PubChem: CID 338 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
J.C. Dearden, W.F. Forbes | Can. J. Chem., 37(8), 1294-1304, (1959) | Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols | |
J.J. Jankowski, D.J. Kieber, K. Mopper | Photochemistry and Photobiology, 70(3), 319-328, (1999) | Nitrate and Nitrite Ultraviolet Actinometers | |
I.P. Pozdnyakov, A. Pigliucci, N. Tkachenko, V.F. Plyusnin, E. Vauthey, H. Lemmetyinen | J. Phys. Org. Chem., 22 (5), 449-454, (2009) | The photophysics of salicylic acid derivatives in aqueous solution | |
Y. Qian, X. Yin, H. Lin, B. Rao, S.C. Brooks, L. Liang, B. Gu | Environ. Sci. Technol. Lett., 1 (10), 426-431, (2014) | Why Dissolved Organic Matter Enhances Photodegradation of Methylmercury | |
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O3; m-hydroxybenzoic acid; 3-hydroxybenzoic acid; CAS-No.: 99-06-9; PubChem: CID 7420 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
J.C. Dearden, W.F. Forbes | Can. J. Chem., 37(8), 1294-1304, (1959) | Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols | |
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C7H6O3; p-hydroxybenzoic acid; 4-hydroxybenzoic acid; PHBA; CAS-No.: 99-96-7; PubChem: CID 135 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
J.C. Dearden, W.F. Forbes | Can. J. Chem., 37(8), 1294-1304, (1959) | Light absorption studies: Part XIV. The ultraviolet absorption spectra of phenols | |
D. Wan, G. Song, W. Mi, X. Tu, Y. Zhao, Y. Bi | Environ. Sci. Technol., 58, 1, 805–815, (2024) | Insights into the Enhanced Photogeneration of Hydroxyl Radicals from Chlorinated Dissolved Organic Matter | |
C8H8O3; o-anisic acid; 2-methoxybenzoic acid; CAS-No.: 579-75-9; PubChem: CID 11370 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
I.P. Pozdnyakov, A. Pigliucci, N. Tkachenko, V.F. Plyusnin, E. Vauthey, H. Lemmetyinen | J. Phys. Org. Chem., 22 (5), 449-454, (2009) | The photophysics of salicylic acid derivatives in aqueous solution | |
C8H8O3; m-anisic acid; 3-methoxybenzoic acid; CAS-No.: 586-38-9; PubChem: CID 11461 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C8H8O3; p-anisic acid; 4-methoxybenzoic acid; draconic acid; CAS-No.: 100-09-4; PubChem: CID 7478 | |||
C.M. Moser, A.I. Kohlenberg | J. Chem. Soc., 804-809, (1951) | The ultra-violet absorption spectra of some benzoic acids with electron-repelling substituents | |
C9H10O3; (2-methylphenoxy)acetic acid; o-tolyloxyacetic acid; CAS-No.: 1878-49-5; PubChem: CID 74651 | |||
E.R. Clark, S.G. Williams | J. Chem. Soc. B, 859-866, (1967) | The conformations of aromatic ethers as determined from their ultraviolet absorption spectra | |
C10H8O3; p-formylcinnamic acid; 4-formylcinnamic acid; CAS-No.: 23359-08-2; PubChem: CID 5357280 | |||
F. Nakanishi, H. Nakanishi, T. Tasai, Y. Suzuki, M. Hasegawa | Chem. Lett., 3 (6), 525-528, (1974) | Water participation in the crystalline state photoreaction photodimerization of p-formylcinnamic acid | |
C10H12O3; p-carboxyphenyldimethylcarbinol; CAS-No.: | |||
N.A. Shimanko, E.A. Robinzon, T.K. Efimova | J. Applied Spectroscopy, 8 (5), 533-534, (1968) | Electronic absorption spectra of some aromatic oxygen compounds | |
C10H12O3; 2,6-dimethylphenoxyacetic acid; CAS-No.: 13335-71-2; PubChem: CID 101369 | |||
E.R. Clark, S.G. Wilson | J. Chem. Soc. B,0, 859-866, (1967) | The conformations of aromatic ethers as determined from their ultraviolet absorption spectra | |
C10H12O3; propylparaben; propyl 4-hydroxybenzoate; CAS-No.: 94-13-3; PubChem: CID 7175 | |||
H.-W. Yu, M. Park, S. Wu, I.J. Lopez, W. Ji, J. Scheideler, S.A. Snyder | Water Research, 166, 115030, (2019) | Strategies for selecting indicator compounds to assess attenuation of emerging contaminants during UV advanced oxidation processes | |
C7H10O4; dimethyl itaconate; dimethyl 2-methylenesuccinate; itaconic acid dimethyl ester; CAS-No.: 617-52-7; PubChem: CID 69240 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C7H10O4; dimethyl mesaconate; (E)-2-methyl-2-butenedioic acid dimethyl ester; CAS-No.: 617-53-8 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C7H10O4; dimethyl citraconate; citraconic acid dimethyl ester; CAS-No.: 617-54-9; PubChem: CID 12045 | |||
R.F. Rekker, P.J. Brombacher, H. Hamann, W.T. Nauta | Recueil des Travaux Chimiques des Pays-Bas, 73 (5), 410–416, (1954) | Aconic acid and related compounds: I. Discussion of the structure of aconic acid | |
C7H12O2; methyl cyclopentanecarboxylate; cyclopentanecarboxylic acid, methyl ester; CAS-No.: 4630-80-2; PubChem: CID 78365 | |||
A.C. Doner, H.A. Moran, A.R. Webb, M.G. Christanson, A.L. Koritzke, N.S. Dewey, S.W. Hartness, B. Rotavera | J. Quant. Spectr. Rad. Transfer, 297, 108438, (2023) | Machine learning models for binary molecular classification using VUV absorption spectra | |
C8H8O4; vanillic acid; 4-hydroxy-3-methoxybenzoic acid; CAS-No.: 121-34-6; PubChem: CID 8468 | |||
H. Mikawa, K. Sato, C. Takasaki, K. Ebisawa | Bull. Chem. Soc. Japan, 29 (2), 254-258, (1956) | Studies on the Cooking Mechanism of Wood. XIV. On the UVAbsorption Spectrum, Phenolic Hydroxyl Group and Carboxyl Group of Thiolignin | |
S. Tang, F. Li, N.T. Tsona, C. Lu, X. Wang, L. Du | ACS Earth Space Chem., 4, 6, 862–872, (2020) | Aqueous-Phase Photooxidation of Vanillic Acid: A Potential Source of Humic-like Substances (HULIS) | |
Y. Wang, W. Huang, L. Tian, Y. Wang, F. Li, D.D. Huang, R. Zhang, B.R. Go Mabato, R.-J. Huang, Q. Chen, X. Ge, L. Du, Y. Ge Ma, M. Gen, K. in Hoi, K. Meng Mok, J.Z. Yu, C.K. Chan, X. Li, Y. Jie Li | ACS Earth Space Chem., (2022) | Decay Kinetics and Absorption Changes of Methoxyphenols and Nitrophenols during Nitrate-Mediated Aqueous Photochemical Oxidation at 254 and 313 nm | |
C8H8O4; dehydroacetic acid; methylacetopyronone; biocide 470F; CAS-No.: 520-45-6; PubChem: CID 122903 | |||
J.A. Berson | J. Am. Chem. Soc., 74 (20), 5172-5175, (1952) | On the Structure of Dehydroacetic Acid | |
M.V. Cooke, G.M. Chans, G.A. Arguello, W.J. Pelaez | Heliyon, 6 (7), E04457, (2020) | Photolysis, tautomerism and conformational analysis of dehydroacetic acid and a comparison with 2-hydroxyacetophenone and 2-acetyl-1,3-cyclohexanodione | |
C8H10O4; penicillic acid; 5-hydroxy-5-isopropenyl-4-methoxy-furan-2-one; CAS-No.: 90-65-3; PubChem: 1268111 | |||
E. Shaw | J. Am. Chem. Soc., 68 (12), 2510-2513, (1946) | A synthesis of protoanemonin. The tautomerism of acetylacrylic acid and of penicillic acid | |
C9H8O4; caffeic acid; 3,4-dihydroxycinnamic acid; CAS-No.: 331-39-5; PubChem: CID 689043 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
J.M.D. Markovic, N.A. Petranovic, J.M. Baranac | J. Agric. Food Chem., 48 (11), 5530-5536, (2000) | A Spectrophotometric Study of the Copigmentation of Malvin with Caffeic and Ferulic Acids | |
C9H8O4; 4-methylphthalic acid; 1,2-benzenedicarboxylic acid, 4-methyl-; CAS-No.: 4316-23-8; PubChem: CID 20310 | |||
N.P. Anashkina, M.T. Golikova, L.Kh. Bikchurina | J. Appl. Spectr., 17 (3), 1153-1155, (1972) | Ultraviolet absorption spectra of methyl-substituted phthalic acids | |
C10H16O4; (+)-camphoric acid; (1R,3S)-(+)-camphoric acid; CAS-No.: 124-83-4 | |||
T. Otto, T. Schaefer, H. Herrmann | J. Phys. Chem. A, 122 (47), 9233-9241, (2018) | Aqueous-Phase Oxidation of Terpene-Derived Acids by Atmospherically Relevant Radicals | |
C11H12O4; ethyl caffeate; ethyl 3-(3,4-dihydroxyphenyl)acrylate; caffeic acid ethyl ester; CAS-No.: 102-37-4; PubChem: CID 5317238 | |||
L. Jurd | Archives Biochem. Biophys., 66, 284-288, (1957) | The detection of aromatic acids in plant extracts by the ultraviolet absorption spectra of their ions | |
C11H12O4; 3,4-dimethoxycinnamic acid; dimethylcaffeic acid; DMCA; CAS-No.: 2316-26-9; PubChem: CID 717531 | |||
H. He, L. Qin, Y. Zhang, M. Han, J. Li, Y. Liu, K. Qiu, X. Dai, Y. Li, M. Zeng, H. Guo, Y. Zhou, X. Wang | Anal. Chem., 91, 4, 2634–2643, (2019) | 3,4-Dimethoxycinnamic Acid as a Novel Matrix for Enhanced In Situ Detection and Imaging of Low-Molecular-Weight Compounds in Biological Tissues by MALDI-MSI | |
C16H18O9; chlorogenic acid; 3-caffeoylquinic acid; CAS-No.: 327-97-9; PubChem: CID 1794427 | |||
S. Okamura, M. Watanabe | Agric. Biol. Chem., 46 (1), 297-299, (1982) | Measurement of Hydroxycinnamic Acid Ester Hydrolase Activity by the Change of UV Absorption | |
A. Belay, A.V. Gholap | African J. Pure and Applied Chem., 3 (11), 234-240, (2009) | Characterization and determination of chlorogenic acids (CGA) in coffee beans by UV-Vis spectroscopy | |
G. Navarra, M. Moschetti, V. Guarrasi, M.R. Mangione, V. Militello, M. Leone | J. Chemistry, Vol. 2017, 1-8, (2017) | Simultaneous Determination of Caffeine and Chlorogenic Acids in Green Coffee by UV/Vis Spectroscopy | |
C13H9Cl3N2O; benzoic acid 2-(2,4,6-trichlorophenyl) hydrazide; CAS-No.: 33422-33-2 | |||
K.T. Koshy , A.R. Friedman , A.L. VanDerSlik , D.R. Graber | J. Agric. Food Chem., 23 (6), 1084-1088, (1975) | Photolysis of Benzoic Acid 2-(2,4,6-Trichlorophenyl)hydrazide | |
C11H20O2; undecylenic acid; undec-10-enoic acid; CAS-No.: 112-38-9; PubChem: 5634 | |||
A.L. Gomez, J. Park, M.L. Walser, A. Lin, S.A. Nizkorodov | J. Phys. Chem. A, 110, 3584-3592, (2006) | UV Photodissociation Spectroscopy of Oxidized Undecylenic Acid Films | |
C9H13N2O9P; uridylic acid; uridine monophosphate; UMP; CAS-No.: 58-97-9; PubChem: 6030 | |||
J. McT. Ploeser, H.S. Loring | J. Biol. Chem., 178, 431-437, (1949) | The ultraviolet absorption spectra of the pyrimidine ribonucleosides and ribonucleotides | |
C9H14N3O8P; cytidylic acid; cytidine monophosphate; CMP; CAS-No.: 63-37-6; PubChem: 6131 | |||
J. McT. Ploeser, H.S. Loring | J. Biol. Chem., 178, 431-437, (1949) | The ultraviolet absorption spectra of the pyrimidine ribonucleosides and ribonucleotides | |
C3H5NO; C2H5NCO; ethyl cyanate; cyanic acid, ethyl ester; cyanoethylate; CAS-No.: 627-48-5; PubChem: CID 533706 | |||
J.W. Rabalais, J.R. McDonald, S.P. McGlynn | J. Chem. Phys., 51 (11), 5103-5111, (1969) | Electronic States of HNCO, Cyanate Salts, and Organic Isocyanates. II. Absorption Studies | |
C3H7NO2; CH3CH(NH2)COOH; alanine; 2-aminopropanoic acid; CAS-No.: 302-72-7; PubChem: 5950 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
R. Abu-Eittah, A. Obaid, S. Basahl, E. Diefallah | Bull. Chem. Soc. Japan, 61, 2609-2613, (1988) | Molecular orbital treatment of some amino acids | |
M. Tia, B. Cunha de Miranda, S. Daly, F. Gaie-Levrel, G.A. Garcia, L. Nahon, I. Powis | J. Phys. Chem. A, 118 (15), 2765-2779, (2014) | VUV Photodynamics and Chiral Asymmetry in the Photoionization of Gas Phase Alanine Enantiomers | |
C3H7NO3; DL-serine; 2-amino-3-hydroxypropanoic acid; CAS-No.: 302-84-1; PubChem: CID 617 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C4H9NO3; DL-threonine; 2-amino-3-hydroxybutanoic acid; CAS-No.: 80-68-2; PubChem: CID 205 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H9NO2; L-proline; proline; CAS-No.: 147-85-3; PubChem: CID 145742 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H9NO3; hydroxy-L-proline; trans-4-hydroxy-L-proline; CAS-No.: 51-35-4; PubChem: CID 5810 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H11NO2; DL-valine; 2-amino-3-methylbutanoic acid; CAS-No.: 516-06-3; PubChem: CID 1182 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H13NO2; DL-leucine; 2-amino-4-methylpentanoic acid; CAS-No.: 328-39-2; PubChem: CID 857 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H13NO2; DL-isoleucine; 2-amino-3-methylpentanoic acid; CAS-No.: 443-79-8; PubChem: CID 791 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C9H11NO2; phenylalanine; Phe; 2-amino-3-phenylpropanoic acid; CAS-No.: 63-91-2; PubChem: 6140 | |||
R. Abu-Eittah, A. Obaid, S. Basahl, E. Diefallah | Bull. Chem. Soc. Japan, 61, 2609-2613, (1988) | Molecular orbital treatment of some amino acids | |
C9H11NO2; DL-phenylalanine; 2-amino-3-phenylpropanoic acid; CAS-No.: 150-30-1; PubChem: CID 994 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C11H9NO2; 3-indoleacrylic acid; trans-3-indoleacrylic acid; CAS-No.: 1204-06-4; PubChem: CID 5375048 | |||
J.M. Kaper, O. Gebhard, C.J.van den Berg, H.Veldstra | Archives Biochem. Biophys., 103 (3), 475-487, (1963) | Studies on indolepyruvic acid II. Ultraviolet spectrophotometry | |
C9H11NO3; tyrosine; Tyr; L-tyrosine; CAS-No.: 60-18-4; PubChem: CID 6057 | |||
N. Kretchmer, R. Taylor | J. Am. Chem. Soc., 72 (7), 3291-3292, (1950) | Effect of pH on the far ultraviolet absorption of tyrosine | |
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
L. Li, D.M. Lubman | Anal. Chem., 59 (20), 2538-2541, (1987) | Ultraviolet-Visible Absorption Spectra of Biological Molecules in the Gas Phase Using Pulsed Laser-Induced Volatilization Enhancement in a Diode Array Spectrophotometer | |
R. Abu-Eittah, A. Obaid, S. Basahl, E. Diefallah | Bull. Chem. Soc. Japan, 61, 2609-2613, (1988) | Molecular orbital treatment of some amino acids | |
C11H9NO3; 3-indolepyruvic acid; indole-3-pyruvic acid; indole-3-pyruvate; CAS-No.: 392-12-1; PubChem: CID 803 | |||
J.M. Kaper, O. Gebhard, C.J.van den Berg, H.Veldstra | Archives Biochem. Biophys., 103 (3), 475-487, (1963) | Studies on indolepyruvic acid II. Ultraviolet spectrophotometry | |
C2H3NO3; oxamic acid; amino(oxo)acetic acid; oxamate; CAS-No.: 471-47-6; PubChem: CID 974 | |||
A. Halasa, L. Lapinski, H. Rostkowska, I. Reva, M.J. Nowak | J. Phys. Chem. A, 119 (11), 2203-2210, (2015) | Tunable Diode Lasers as a Tool for Conformational Control: The Case of Matrix-Isolated Oxamic Acid | |
C3H9O6P; glycerol 1-phosphate; (S)-2,3-dihydroxypropyl dihydrogen phosphate; L-glycerol 1-phosphate; CAS-No.: 5746-57-6; PubChem: 439276 | |||
J. Greenwald, M. Halmann | J. Chem. Soc., Perkin Trans., 2, 1095-1101, (1972) | The Photochemistry of Phosphorus Compounds. Part VII. The Far-ultraviolet Spectroscopy and Photochemistry of Glycerol 1-Phosphate and of Glycerol 2-Phosphate in Aqueous Solutions | |
C3H9O6P; glycerol 2-phosphate; glycerol 2-(dihydrogen phosphate); CAS-No.: 17181-54-3 | |||
J. Greenwald, M. Halmann | J. Chem. Soc., Perkin Trans., 2, 1095-1101, (1972) | The Photochemistry of Phosphorus Compounds. Part VII. The Far-ultraviolet Spectroscopy and Photochemistry of Glycerol 1-Phosphate and of Glycerol 2-Phosphate in Aqueous Solutions | |
C2H4N2O3; methazonic acid; nitroacetaldehyde oxime; CAS-No.: 5653-21-4; PubChem: CID 58810166 | |||
D.J. Morgan | J. Org. Chem., 27 (12), 4646-4649, (1962) | The ultraviolet absorption spectra of methazonic acid and its sodium salts | |
C4H4N2O4; dialuric acid; 2,4,5,6-pyrimidinetetrol; CAS-No.: 444-15-5 | |||
J.W. Patterson, A. Lazarow, S. Levey | J. Biol. Chem.,177(1),187-96, (1949) | Alloxan and dialuric acid: Their stabilities and ultraviolet absorption spectra | |
C5H4N2O4; orotic acid; 6-carboxyuracil; CAS-No.: 65-86-1; PubChem: CID 967 | |||
H. Nakatani | J. Pharm. Soc. Japan, 83 (1), 1-5, (1963) | Studies on Pharmaceutical Preparations of Orotic Acid. I | |
C5H4N4O3; uric acid; 2,6,8-trioxypurine; lithic acid; 2,6,8-trihydroxypurine; CAS-No.: 69-93-2; PubChem: CID 1175 | |||
M. Grootveld, B. Halliwell | Biochem. J., 243(3), 803-808, (1987) | Measurement of allantoin and uric acid in human body fluids. A potential index of free-radical reactions in vivo? | |
H. Montaseri, H. Khajehsharifi, S. Yousefinejad | Quim. Nova, 37 (8), 1404-1409, (2014) | UV determination of epinephrine, uric acid, and acetaminophen in pharmaceutical formulations and some human body fluids using multivariate calibration | |
M. Spangenberg, J.I. Bryant, S.J. Gibson, P.J. Mousley, Y. Ramachers, G.R. Bell | Scientific Reports, 11, 3682, (2022) | Ultraviolet absorption of contaminants in water | |
C3H7NO5S; L-cysteic acid; cysteinesulfonic acid; CAS-No.: 498-40-8; PubChem: CID 72886 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C3H8ClNO2S; L-cysteine hydrochloride; cystein chloride; CAS-No.: 52-89-1; PubChem: CID 60960 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C5H11NO2S; DL-methionine; 2-amino-4-(methylthio)butanoic acid; CAS-No.: 59-51-8; PubChem: CID 876 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H12N2O4S2; L-cystine; cystine; CAS-No.: 56-89-3; PubChem: CID 67678 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H10ClN3O2; L-histidine hydrochloride; histidine monohydrochloride; CAS-No.: 645-35-2; PubChem: CID 66091 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H15ClN2O2; L-lysine hydrochloride; L-lysine monohydrochloride; CAS-No.: 657-27-2; PubChem: CID 69568 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C6H15ClN4O2; L-arginine hydrochloride; CAS-No.: 1119-34-2; PubChem: CID 66250 | |||
L.J. Saidel, A.R. Goldfarb, S. Waldman | J. Biol. Chem., 197, 285-291, (1952) | The absorption spectra of amino acids in the region 200 - 230 millimicrons | |
C7H5NO3; 2-nitrosobenzoic acid; NBA; o-nitrosobenzoic acid; CAS-No.: 612-27-1; PubChem: 345165 | |||
A.S. McFall, C. Anastasio | Environmental Chemistry, 13(4), 682-687, (2016) | Photon flux dependence on solute environment in water ices | |
C7H7NO2; 4-aminobenzoic acid; p-aminobenzoic acid; PABA; CAS-No.: 150-13-0; PubChem: CID 978 | |||
W.D. Kumler, L.A. Strait | J. Am. Chem. Soc., 65 (12), 2349-2354, (1943) | The ultraviolet absorption spectra and resonance in benzene derivatives - sulfanilamide, metanilamide, p-aminobenzoic acid, benzenesulfonamide, benzoic acid and aniline | |
F. Leresche, U. von Gunten, S. Canonica | Environ. Sci. Technol., 50 (20), 10997-11007, (2016) | Probing the Photosensitizing and Inhibitory Effects of Dissolved Organic Matter by Using N,N-dimethyl-4-cyanoaniline (DMABN) | |
C7H7NO2; 2-aminobenzoic acid; o-aminobenzoic acid; anthranilic acid; CAS-No.: 118-92-3; PubChem: CID 227 | |||
L. Zapala, J. Kalembkiewicz, E. Sitarz-Palczak | Biophys. Chem., 140 (1-3), 91-98, (2009) | Studies on Equilibrium of Anthranilic Acid in Aqueous Solutions and in Two-Phase Systems: Aromatic Solvent – Water | |
A.S. Culf, H. Yin, S. Monro, A. Ghosh, D.A. Barnett, R.J. Ouellette, M. Cuperlovic-Culf, S.A. McFarland | Bioorganic & Medical Chem., 24 (5), 929-937, (2016) | A spectroscopic study of substituted anthranilic acids as sensitive environmental probes for detecting cancer cells | |
C8H9NO2; 2-methylaminobenzoic acid; N-methylanthranilic acid; CAS-No.: 119-68-6; PubChem: | |||
A.S. Culf, H. Yin, S. Monro, A. Ghosh, D.A. Barnett, R.J. Ouellette, M. Cuperlovic-Culf, S.A. McFarland | Bioorganic & Medical Chem., 24 (5), 929-937, (2016) | A spectroscopic study of substituted anthranilic acids as sensitive environmental probes for detecting cancer cells | |
C9H11NO2; 2-dimethylaminobenzoic acid; N,N-Dimethylanthranilic acid; CAS-No.: 610-16-2; PubChem: CID 69118 | |||
A.S. Culf, H. Yin, S. Monro, A. Ghosh, D.A. Barnett, R.J. Ouellette, M. Cuperlovic-Culf, S.A. McFarland | Bioorganic & Medical Chem., 24 (5), 929-937, (2016) | A spectroscopic study of substituted anthranilic acids as sensitive environmental probes for detecting cancer cells | |
C8H7NO4; 4-nitrophenyl acetate; acetic acid 4-nitrophenyl ester; p-nitrophenyl acetate; CAS-No.: 830-03-5; PubChem: CID 13243 | |||
H.J. Goren, M. Fridkin | Eur. J. Biochem., 41, 263-272, (1974) | The Hydrolysis of p-Nitrophenylacetate in Water | |
C7H8N2O2; 2-hydrazinobenzoic acid; o-hydrazinobenzoic acid; CAS-No.: 5326-27-2; PubChem: CID 79223 | |||
S. Mannen, H.A. Itano | Tetrahedron, 29 (22), 3497-3502, (1973) | Stoichiometry of the oxidation of arylhydrazines with ferricyanide : Quantitative measurements of absorption spectra of aryldiazenes | |
C7H8N2O2; 4-hydrazinobenzoic acid; p-hydrazinobenzoic acid; CAS-No.: 619-67-0; PubChem: CID 12089 | |||
S. Mannen, H.A. Itano | Tetrahedron, 29 (22), 3497-3502, (1973) | Stoichiometry of the oxidation of arylhydrazines with ferricyanide : Quantitative measurements of absorption spectra of aryldiazenes | |
C8H6N2O2; indazole-3-carboxylic acid; indazole-3-acid; 1H-indazole-3-carboxylic acid; CAS-No.: 4498-67-3; PubChem: CID 78250 | |||
V. Rousseau, H.G. Lindwall | J. Am. Chem. Soc., 72 (7), 3047-3051, (1950) | Structure and ultraviolet absorption spectra of indazole, 3-substituted indazole and some of their derivatives | |
C9H8N2O2; 1-methylindazole-3-carboxylic acid; 1-methylindazole-3-acid; CAS-No.: 50890-83-0; PubChem: CID 689105 | |||
V. Rousseau, H.G. Lindwall | J. Am. Chem. Soc., 72 (7), 3047-3051, (1950) | Structure and ultraviolet absorption spectra of indazole, 3-substituted indazole and some of their derivatives | |
C9H8N2O2; 2-methylindazole-3-carboxylic acid; 2-methylindazole-3-acid; CAS-No.: 34252-44-3; PubChem: CID 7060537 | |||
V. Rousseau, H.G. Lindwall | J. Am. Chem. Soc., 72 (7), 3047-3051, (1950) | Structure and ultraviolet absorption spectra of indazole, 3-substituted indazole and some of their derivatives | |
C8H7NO4; o-nitrophenylacetic acid; 2-nitrophenylacetic acid; CAS-No.: 3740-52-1; PubChem: CID 77337 | |||
R.E. Buckles, K.G. Bremer | J. Am. Chem. Soc., 77 (3), 805-806, (1955) | The effect of base on the ultraviolet absorption spectra of phenylacetic acids | |
C8H7NO4; p-nitrophenylacetic acid; 4-nitrophenylacetic acid; CAS-No.: 104-03-0; PubChem: CID 4661 | |||
R.E. Buckles, K.G. Bremer | J. Am. Chem. Soc., 77 (3), 805-806, (1955) | The effect of base on the ultraviolet absorption spectra of phenylacetic acids | |
C9H9NO4; N-acetyl-5-aminosalicylic acid; 5-acetamidosalicylic acid; 5-acetamido-2-hydroxybenzoic acid; N-acetyl-5-ASA; CAS-No.: 51-59-2; PubChem: CID 65512 | |||
M. Nobilis, Z. Vybiralova, K. Sladkova, M. Lisa, M. Holcapek, J. Kvetina | J. Chromatography A, 1119 (1-2), 299-308, (2006) | High-performance liquid-chromatographic determination of 5-aminosalicylic acid and its metabolites in blood plasma | |
C9H9NO4; N-acetyl-4-aminosalicylic acid; N-acetyl-4-ASA; p-acetamidosalicylic acid; CAS-No.: 50-86-2 | |||
M. Nobilis, Z. Vybiralova, K. Sladkova, M. Lisa, M. Holcapek, J. Kvetina | J. Chromatography A, 1119 (1-2), 299-308, (2006) | High-performance liquid-chromatographic determination of 5-aminosalicylic acid and its metabolites in blood plasma | |
C9H9NO6; humic acid; PGS 10; CAS-No.: 1415-93-6 | |||
J.J. Alberts | Water Research, 16 (7), 1273-1276, (1982) | The effect of metal ions on the ultraviolet spectra of humic acid, tannic acid and lignosulfonic acid | |
C8H16O2; caprylic acid; octanoic acid; CAS-No.: 124-07-2; PubChem: 379 | |||
I.I. Rusoff, J.R. Platt, H.B. Klevens, G.O. Burr | J. Am. Chem. Soc., 67 (4), 673-678, (1945) | Extreme ultraviolet absorption spectra of the fatty acids | |
C11H8O2; 1-naphtoic acid; 1-naphthalenecarboxylic acid; 1-carboxynaphthalene; CAS-No.: 86-55-5; PubChem: CID 6847 | |||
H.G. de Laszlo | Proc. Royal Soc. A, 111, 758, 355-379, (1926) | The absorption spectra of some naphthalene derivatives in vapour and solution | |
T. Fujita, K. Koshimizu, T. Mitsui | Tetrahedron, 22, 1587-1596, (1966) | Ultraviolet absorption spectra of substituted 1-naphthoic acids | |
C11H8O2; 2-naphtoic acid; 2-naphthalenecarboxylic acid; 2-carboxynaphthalene; CAS-No.: 93-09-4; PubChem: CID 7123 | |||
H.G. de Laszlo | Proc. Royal Soc. A, 111, 758, 355-379, (1926) | The absorption spectra of some naphthalene derivatives in vapour and solution | |
C12H12O2; cis-tetralidene acetic acid; CAS-No.: | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
C12H12O2; trans-tetralidene acetic acid; CAS-No.: | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
C13H10O2; 3-(1-naphthyl)acrylic acid; naphthalene-1-acrylic acid; trans-naphthylacrylic acid; CAS-No.: 13026-12-5; PubChem: CID 12158295 | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
C13H10O2; cis-naphthylacrylic acid; CAS-No.: | |||
E. Havinga, R.J.F. Nivard | Recueil des Travaux Chimiques des Pays-Bas, 67 (11), 846-854, (1948) | Ultraviolet absorption spectra and stereochemical structure of plant growth substances of the cis cinnamic acid type and stilboestrol | |
C13H10O3; 4-phenoxybenzoic acid; p-phenoxybenzoic acid; CAS-No.: 2215-77-2; PubChem: CID 75182 | |||
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
C13H10O3; 3-phenoxybenzoic acid; m-phenoxybenzoic acid; CAS-No.: 3739-38-6; PubChem: CID 19539 | |||
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
C13H10O3; 2-phenoxybenzoic acid; o-phenoxybenzoic acid; CAS-No.: 2243-42-7; PubChem: CID 75237 | |||
H.E. Ungnade, E.E. Pickett, L. Rubin, E. Youse | J. Org. Chem., 16 (8), 1318-1326, (1951) | Absorption spectra of the methoxy (and hydroxy) phenoxybenzoic acids | |
C13H14O5; citrinin; CAS-No.: 518-75-2; PubChem: CID 219203 | |||
D.J. Cram | J. Am. Chem. Soc., 72 (2), 1001-1002, (1950) | Mold metabolites. V. The stereochemistry and ultraviolet absorption spectrum of citrinin | |
C14H6O8; ellagic acid; benzoaric acid; CAS-No.: 476-66-4; PubChem: CID 5281855 | |||
R. Gonzalez-Barrio, P. Truchado, H. Ito, J.C. Espin, F.A. Tomas-Baberan | J. Agric. Food Chem., 59, 4, 1152-1162, (2011) | UV and MS Identification of Urolithins and Nasutins, the Bioavailable Metabolites of Ellagitannins and Ellagic Acid in Different Mammals | |
G. Mazzone, M. Toscano, N. Russo | J. Agric. Food Chem., 61, 40, 9650–9657, (2013) | Density Functional Predictions of Antioxidant Activity and UV Spectral Features of Nasutin A, Isonasutin, Ellagic Acid, and One of Its Possible Derivatives | |
C14H10O2; 1-fluorenecarboxylic acid; fluorene-1-carboxylic acid; CAS-No.: 6276-03-5; PubChem: CID 80468 | |||
R. Manoharan, S.K. Dogra | Spectrochim. Acta A: Mol. Spectroscopy, 43 (1), 91-100, (1987) | Electronic spectra of l- and 9-fluorenecarboxylic acids | |
C14H10O2; 9-fluorenecarboxylic acid; fluorene-9-carboxylic acid; CAS-No.: 1989-33-9; PubChem: CID 74809 | |||
R. Manoharan, S.K. Dogra | Spectrochim. Acta A: Mol. Spectroscopy, 43 (1), 91-100, (1987) | Electronic spectra of l- and 9-fluorenecarboxylic acids | |
C14H10O3; 4-benzoylbenzoic acid; p-benzoylbenzoic acid; 4-carboxybenzophenone; CAS-No.: 611-95-0; PubChem: CID 69147 | |||
T. Felber, T. Schaefer, L. He, H. Herrmann | J. Phys. Chem. A, 125, 23, 5078-5095, (2021) | Aromatic Carbonyl and Nitro Compounds as Photosensitizers and Their Photophysical Properties in the Tropospheric Aqueous Phase | |
C14H12O2; diphenylacetic acid; diphenylethanoic acid; CAS-No.: 117-34-0; PubChem: 8333 | |||
W.D. Kumler, L.A. Strait, E.L. Alpen | J. Am. Chem. Soc., 72 (4), 1463-1466, (1950) | The ultraviolet absorption spectra of alpha-phenylcarbonyl compounds | |
C14H12O8; fulvic acid; CAS-No.: 479-66-3; PubChem: CID 5359407 | |||
Y. Cheng, H. Li, Z. Wang, H. Li, T. Tao, Y. Zuo | Water Research, 46 (9), 2965-2972, (2012) | Photodegradation of selected b-blockers in aqueous fulvic acid solutions: Kinetics, mechanism, and product analysis | |
C14H28O2; myristic acid; tetradecanoic acid; CAS-No.: 544-63-8; PubChem: 11005 | |||
I.I. Rusoff, J.R. Platt, H.B. Klevens, G.O. Burr | J. Am. Chem. Soc., 67 (4), 673-678, (1945) | Extreme ultraviolet absorption spectra of the fatty acids | |
C15H10O2; 9-anthracenecarboxylic acid; 9-anthroic acid; CAS-No.: 723-62-6; PubChem: CID 2201 | |||
J. Xu, C.-H. Huang | Environ. Sci. Technol. Lett., 10, 6, 543-548, (2023) | Enhanced Direct Photolysis of Organic Micropollutants by Far-UVC Light at 222 nm from KrCl* Excilamps | |
C18H32O2; linoleic acid; (9Z,12Z)-9,12-octadecadienoic acid; linolic acid; CAS-No.: 60-33-3; PubChem: 5280450 | |||
I.I. Rusoff, J.R. Platt, H.B. Klevens, G.O. Burr | J. Am. Chem. Soc., 67 (4), 673-678, (1945) | Extreme ultraviolet absorption spectra of the fatty acids | |
C18H34O2; oleic acid; (9E)-octadec-9-enoic acid; CAS-No.: 112-80-1; PubChem: 445639 | |||
I.I. Rusoff, J.R. Platt, H.B. Klevens, G.O. Burr | J. Am. Chem. Soc., 67 (4), 673-678, (1945) | Extreme ultraviolet absorption spectra of the fatty acids | |
P.L. dos Santos, M.F.B. Cenni, B.B.A. Costa, L.A. Cury | J. Photochem. Photobiol. A: Chem., 347, 93-97, (2017) | beta-carotene and oleic acid contributions to the optical properties of amazonic oils | |
E.A. Parmentier, P.C. Arroyo, R. Gruseck, L. Ban, G. David, R. Signorell | J. Phys. Chem. A, 126, 27, 4456–4464, (2022) | Charge Effects on the Photodegradation of Single Optically Trapped Oleic Acid Aerosol Droplets | |
C29H48O2; cholesteryl acetate; cholest-5-en-3-yl acetate; CAS-No.: 604-35-3; PubChem: CID 222529 | |||
O.H. Wheeler, J.L. Mateos | J. Org. Chem., 21 (10), 1110-1112, (1956) | The Ultraviolet Absorption of Isolated Double Bonds | |
C32H52O2; lanosterol acetate; CAS-No.: 2671-68-3; PubChem: CID 313261 | |||
O.H. Wheeler, J.L. Mateos | J. Org. Chem., 21 (10), 1110-1112, (1956) | The Ultraviolet Absorption of Isolated Double Bonds | |
C37H54O2; lupeol benzoate; lupeolbenzoate; CAS-No.: 1617-69-2; PubChem: CID 219629 | |||
O.H. Wheeler, J.L. Mateos | J. Org. Chem., 21 (10), 1110-1112, (1956) | The Ultraviolet Absorption of Isolated Double Bonds | |
C76H52O46; tannic acid; CAS-No.: 1401-55-4; PubChem: CID 16129878 | |||
J.J. Alberts | Water Research, 16 (7), 1273-1276, (1982) | The effect of metal ions on the ultraviolet spectra of humic acid, tannic acid and lignosulfonic acid |