UV/Vis+ Photochemistry Database
Pharmaceuticals/Drugs/Alkaloids/Vitamins
Substances: Acetylsulfisoxazole; Actinomycin-D; Allocolchicine; Allocryptopine; Alprazolam; Ambroxol; 4-Aminosalicylic acid; Amitriptyline; Amobarbital; Anatoxin A; Androstenedione; Androsterone; Anthralin; Antipyrine; Arborine; Ascorbic acid; Aspirin; Atenolol; Barbital; Barbituric acid; Benperidol; Benzocaine; Berberine; Berberine hydrochloride; Bethanidine sulfate; Boldine; Bromazepam; Caffeine; Camptothecin; Canadine; Captopril; Carbamazepine; Carpipramine; Carvacrol; Cevadine; Chloroquine; Chlortetracycline; Cholesterone; Cimetidine; Cinchonine; Ciprofloxacin; Clindamycin; Clofibric acid; Clomipramine; Cocaine; Colchiceine; Colchicine; Colchicoside; Cryptopine; Curcumin; Cylindrospermopsin; Dapoxetine; 7-Dehydrocholesterol; Diaboline; Diazepam; Diclofenac; Difloxacin; Dihydroerysodine; Diltiazem; Diphenhydramine; Disulfiram; Dopa; Dopamine; Doxycycline; Dutasteride; Ebselen; Ebselen oxide; Ecgonine; Enrofloxacin; Ephedrine hydrochloride; Epinephrine; Ergosterol; Erysodine; Erythromycin; Estrone; Evoxanthine; Febrifugine; Fenofibric acid; Flufenamic acid; Flumequine; Flunitrazepam; Fluoxetine; Flurazepam; Gelsemine; Gemfibrozil; Glibenclamide; Gougerotin; Graveolinine; Homoanatoxin A; Homolycorine; Hydrochlorothiazide; Hydrocortisone; Ibuprofen; Imipramine; Insulin; Iohexol; Iopamidol; Iopromide; Isocolchicine; Isoformononetin; Isomethadon hydrochloride; Isonicoteine; Isosorbide mononitrate; Jervine; Ketoprofen; Lamotrigine; Lornoxicam; Lunamarine; Lunine; Lycorenine; Lycorine; Meconic acid; Mephenesin; Meprobamate; Mesalazine; Methadon hydrochloride, Metharbital; Methimazole; Metoprolol; Metronidazole; Mexiletine; Morphine; Naproxen; Nebivolol; Neostigmine bromide; Niclosamide; Nicotine, Nitrazepam; Norepinephrine; Norfloxacin; Noscapine; Nystatin; beta-Obscurine; Olivacine; Opianic acid; Ormetoprim; Oxytetracycline; Papaverine; Paracetamol; Pefloxacin; D-Penicillamine; Penicillin-G; Perlolidine; Phenacetin; Phenobarbital; Phenytoin; Phthalylsulfathiazole; Prazepam; Prednisone; Primidone; Propranolol; Protostephanine; Pyridoxine; Quinine; Ranitidine; Ribavirin; Rutecarpine; Sarafloxacin; Serpentine; Serpentinine; Sertraline; Sevoflurane; Sinomenine hydrochloride; Sitagliptin; SN-38; Sotalol; Sulfacetamide; Sulfachloropyridazine; Sulfadiazine; Sulfadimethoxine; Sulfaguanidine; Sulfamerazine; Sulfamethazine; Sulfamethizole; Sulfamethoxazole; Sulfamethoxypyridazine; Sulfanilamide; Sulfathiazole; Sulfisoxazole; Teriflunomide; Tetracycline; Theobromine; Theophyllin; Thiamine; Thiocolchicine; Thiocolchicoside; Topotecan; Travoprost; Triclocarban; Triclosan, Trimethoprim; Tylosin; Veratramine; Viramidine; Warfarin; Xylopine
The relevant Spectral Data, graphical representations, links to abstracts and other photochemical data & information are available for registered users, see Subscription
Please note: The substance groups are only a rough classification. To search for a specific substance please use the Search Tool or see the Substance-list.
Use your browser capabilities to search this site or use our Search Tool to search the database.
Authors | Journal/Source | Title | Data Sheet |
---|---|---|---|
Acetylsulfisoxazole; acetylsulfafurazole; C13H15N3O4S; CAS-No.: 80-74-0; PubChem: CID 6662 | |||
K. Enoki, N. Takahasi | J. Pharm. Soc. Japan, 80 (7), 999-1001, (1960) | Studies on Sulfisoxazole. XI. Synthesis of N1-Acetyl-N1-(3, 4-dimethyl-5-pyrazolyl) sulfanilamide | |
Actinomycin-D; ACTD; C62H86N12O16; CAS-No.: 50-76-0; PubChem: 2019 | |||
J.C. Tai, W.S. Craig, B.P. Gaber | J. Am. Chem. Soc., 98 (25), 7925-7927, (1976) | On the electronic spectrum of actinomycin D | |
Allocolchicine; C22H25NO6; CAS-No.: 641-28-1; PubChem: CID 196989 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Allocryptopine; thalictrimine; C21H23NO5; CAS-No.: 24240-04-8; PubChem: CID 98570 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Alprazolam; C17H13ClN4; CAS-No.: 28981-97-7 | |||
A. Mohd, A.A. Parwaz Khan, S. Bano, K.S. Siddiqi | Arabian J. Chem., 6, 369-378, (2013) | UV-absorption and fluorimetric methods for the determination of alprazolam in pharmaceutical formulation | |
Ambroxol; C13H18Br2N2O; CAS-No.: 18683-91-5; PubChem: CID 2132 | |||
L. Wang, H. Xu, J. Lu, J.-M. Chovelon, Y. Ji | Water Research, 226, 119275, (2022) | Aquatic photolysis of the pharmaceutical ambroxol: The role of 2,4-dibromoaniline chromophore and heavy atom effect of bromine | |
4-Aminosalicylic acid; 4-ASA; para-aminosalicylic acid; PAS; C7H7NO3; CAS-No.: 65-49-6; PubChem: CID 4649 | |||
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 | |
Amitriptyline; tryptanol; damitriptyline; C20H23N; CAS-No.: 50-48-6; PubChem: CID 2160 | |||
R. Nassara, A. Trivellac, S. Mokhb, M. Al-Iskandarania, H. Budzinskic, P. Mazellier | J. Photochem. Photobiol. A: Chem., 336, 176-182, (2017) | Photodegradation of sulfamethazine, sulfamethoxypiridazine, amitriptyline, and clomipramine drugs in aqueous media | |
Amobarbital; amytal; 5,5'-isoamylethyl barbituric acid; C11H18N2O3; CAS-No.: 57-43-2; PubChem: CID 2164 | |||
R.E. Stuckey | J. Pharmacy Pharmacology, 4 (1), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
Anatoxin-A; ATX; C10H15NO; CAS-No.: 64285-06-9; PubChem: CID 3034748 | |||
K.J. James, A. Furey, I.R. Sherlock, M.A. Stack, M. Twohig, F.B. Caudwell, O.M. Skulberg | J. Chromatography A, 798 (1-2), 147-157, (1998) | Sensitive determination of anatoxin-a, homoanatoxin-a and their degradation products by liquid chromatography with fluorimetric detection | |
Androstenedione; androst-4-en-3,17-dion; ASD; C19H26O2; CAS-No.: 63-05-8; PubChem: CID 6128 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
Androsterone; androtine; C19H30O2; CAS-No.: 53-41-8; PubChem: CID 5879 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
Anthralin; dithranol; cignolin; 1,8-dihydroxyanthrone; C14H10O3; CAS-No.: 1143-38-0; PubChem: CID 2202 | |||
T.S. Melo, L. Dubertret, P. Prognon, A. Gond, G. Mahuzier, R. Santus | J. Invest. Dermatology, 80 (1), 1-6, (1983) | Physicochemical Properties and Stability of Anthralin in Model Systems and Human Skin | |
A. Retzow, W. Wiegrebe | Scientia Pharmaceutica, 53, 209-221, (1985) | Dithranol-Anion: UV/Vis-Spektrum und chemische Reaktivität | |
related data (quantum yield studies; photolysis studies, linear dichroism spectroscopy etc.) | |||
D.D. Nguyen, N.C. Jones, S.V. Hoffmann, J. Spanget-Larsen | PeerJ Physical Chemistry 1:e5, (2019) | UV synchrotron radiation linear dichroism spectroscopy of the anti-psoriatic drug anthralin | |
Antipyrine; phenazone; 2,3-dimethyl-1-phenyl-3-pyrazolin-5-one; C11H12N2O; CAS-No.: 60-80-0; PubChem: CID 2206 | |||
Y. Chen, C. Hu, X. Hu, J. Qu | Environ. Sci. Technol., 43 (8), 2760-2765, (2009) | Indirect Photodegradation of Amine Drugs in Aqueous Solution under Simulated Sunlight | |
Arborine; 2-benzyl-1-methyl-4(1H)-quinazolinone; glycosine; C16H14N2O; CAS-No.: 6873-15-0; PubChem: CID 63123 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Ascorbic acid; vitamin c; C6H8O6; CAS-No.: 50-81-7; PubChem: CID 54670067 | |||
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 | |
Atenolol; (RS)-2-{4-[2-Hydroxy-3-(propan-2-ylamino)propoxy]phenyl}acetamide; C14H22N2O3; CAS-No.: 29122-68-7; PubChem: CID 2249 | |||
Q.-T. Liu, H.E. Williams | Environ. Sci. Technol., 41 (3), 803-810, (2007) | Kinetics and Degradation Products for Direct Photolysis of beta-Blockers in Water | |
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 | |
R. Salgado, V.J. Pereira, G. Carvalho, R. Soeiro, V. Gaffney, C. Almeida, V. Vale Cardoso, E. Ferreira, M.J. Benoliel, T.A. Ternes, A. Oehmen, M.A.M. Reis, J.P. Noronha | J. Hazard. Mat., 244-245, 516-527, (2013) | Photodegradation kinetics and transformation products of ketoprofen, diclofenac and atenolol in pure water and treated wastewater | |
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 | |
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 | |
Barbital; barbitone; ethylbarbital; 5,5-diethylbarbituric acid; C8H12N2O3; CAS-No.: 57-44-3; PubChem: CID 2294 | |||
J.J. Fox, D. Shugar | Bull. Soc. Chim. Belges, 61 (1-2), 44-63, (1952) | Absorption spectra and structure of barbituric acid derivatives as a function of pH | |
R.E. Stuckey | J. Pharmacy Pharmacology, 4 (1), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
Barbituric acid; pyrimidine-2,4,6(1H,3H,5H)-trione; 6-hydroxyuracil; C4H4N2O3; CAS-No.: 67-52-7; PubChem: CID 6211 | |||
J.R. Loofbourow, M.M. Stimson | J. Chem. Soc.,0, 1275-1277, (1940) | Ultra-violet absorption spectra of nitrogenous heterocyclic compounds. Part II. Effect of pH and irradiation on the spectrum of barbituric acid | |
M.M. Stimson | J. Am. Chem. Soc., 71 (4), 1470-1474, (1949) | The Ultraviolet Absorption Spectra of Some Pyrimidines. Chemical Structure and the Effect of pH on the Position of lambda(max) | |
J.J. Fox, D. Shugar | Bull. Soc. Chim. Belges, 61 (1-2), 44-63, (1952) | Absorption spectra and structure of barbituric acid derivatives as a function of pH | |
Benperidol; C22H24FN3O2; CAS-No.: 983-42-6; PubChem: CID 16363 | |||
A.E.H. Gassim, P.G. Takla, K.C. James | Analyst,111, 923-926, (1986) | Ultraviolet Spectrophotometry for the Determination of Benperidol by a Difference Procedure and for the Elucidation of its Polymorphic Structures | |
Benzocaine; ethyl 4-aminobenzoate; C9H11NO2; CAS-No.: 94-09-7; PubChem: CID 2337 | |||
P. Hasemann, M. ter Balk, H. Waetzig | Electrophoresis, 28 (11), 1798-1804, (2007) | Analysis of substances to be used as internal standards in MEKC | |
Berberine; umbellatine; C20H18NO4+; CAS-No.: 2086-83-1; PubChem: CID 2353 | |||
M. Diaz, M.L. Freile, M. Gutierrez | Photochem. Photobiol. Sci.,8, 970-974, (2009) | Solvent effect on the UV/Vis absorption and fluorescence spectroscopic properties of berberine | |
Berberine hydrochloride; berberine chloride; C20H18ClNO4; CAS-No.: 633-65-8; PubChem: CID 12456 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Z. Gasparec, K. Weber | Croatica Chemica Acta, 38 (3), 143-154, (1966) | Studies on the Spectra of Protoberberine Alkaloids. I. Absorption Spectrum of Berberine | |
Bethanidine sulfate; 1-benzyl-2,3-dimethyl-guanidine, sulfuric acid; C20H32N6O4S; CAS-No.: 114-85-2 | |||
A.G. Davidson | Analyst, 108, 728-732, (1983) | Effects of temperature variation on the zero, second and fourth derivative ultraviolet absorption spectra of benzenoid drugs | |
Boldine; C19H21NO4; CAS-No.: 476-70-0; PubChem: CID 10154 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Bromazepam; C14H10BrN3O; CAS-No.: 1812-30-2; PubChem: 2441 | |||
M.E. Moro, M.M. Velazquez, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 6 (6-8), 1013-1018, (1988) | Deconvolution of UV absorption spectra of 1,4 benzodiazepines in aqueous solution | |
Caffeine; 1,3,7-trimethylpurine-2,6-dione; C8H10N4O2; CAS-No.: 58-08-2; PubChem: CID 2519 | |||
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 | |
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 | |
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 | |
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 | |
Camptothecin; (S-)4-Ethyl-4-hydroxy-1H-pyrano[3',4':6,7]indolizino[1,2-b]chinolin- 3,14-(4H,12H)-dion; C20H16N2O4; CAS-No.: 7689-03-4; PubChem: 24360 | |||
N. Sanna, G. Chillemi, L. Gontrani, A. Grandi, G. Mancini, S. Castelli, G. Zagotto, C. Zazza, V. Barone, A. Desideri | J. Phys. Chem. B, 113 (16), 5369-5375, (2009) | UV-Vis Spectra of the Anticancer Camptothecin Family Drugs in Aqueous Solution: Specific Spectroscopic Signatures Unraveled by a Combined Computational and Experimental Study | |
D. Dvoranova, M. Bobenicova, S. Soralova, M. Breza | Chem. Phys. Lett., 580, 141-144, (2013) | On UV-Vis spectra and structure of the anticancer drug camptothecin in solutions | |
Canadine; tetrahydroberberine; C20H21NO4; CAS-No.: 522-97-4; PubChem: CID 34458 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Captopril; capoten; C9H15NO3S; CAS-No.: 62571-86-2; PubChem: CID 44093 | |||
H.G. Brittain, H. Kadin | Pharma. Res., 7 (10), 1082-1085, (1990) | Ultraviolet (UV) absorption and circular dichroism (CD) spectra of captopril | |
M. Skowron, W. Ciesielski | J. Anal. Chem., 66 (8), 714-719, (2011) | Spectrophotometric Determination of Methimazole, D-Penicillamine, Captopril, and Disulfiram in Pure Form and Drug Formulations | |
Carbamazepine; CBZ; 5H-dibenzo[b,f]azepine-5-carboxamide; C15H12N2O; CAS-No.: 298-46-4; PubChem: CID 2554 | |||
S. Chiron, C. Minero, D. Vione | Environ. Sci. Technol., 40 (19), 5977-5983, (2006) | Photodegradation processes of the anti-epileptic drug carbamazepine, relevant to estuarine waters | |
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
E. De Laurentiis, S. Chiron, S. Kouras-Hadef, C. Richard, M. Minella, V. Maurino, C. Minero, D. Vione | Environ. Sci. Technol., 46 (15), 8164-8173, (2012) | Photochemical Fate of Carbamazepine in Surface Waters: Laboratory Measures and Modeling | |
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 | |
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 | |
Carpipramine; carbadipimidine; C28H38N4O; CAS-No.: 5942-95-0; PubChem: CID 2580 | |||
M. Nakanishi, Y. Kato, H. Yasuda | J. Pharm. Soc. Japan, 90 (2), 193-196, (1970) | Studies on psychotropic drugs. II: Chemical methods for determination of carpipramine in biological materials | |
Carvacrol; 5-isopropyl-2-methylphenol; C10H14O; CAS-No.: 499-75-2; PubChem: CID 10364 | |||
A.J. Lopes Jesus, R. Fausto, I. Reva | J. Phys. Chem. A, 125, 37, 8215-8229, (2021) | Conformational Space, IR-Induced, and UV-Induced Chemistry of Carvacrol Isolated in a Low-Temperature Argon Matrix | |
Cevadine; veratrine; C32H49NO9; CAS-No.: 62-59-9; PubChem: 5380394 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Chloroquine; aralen; chlorochin; C18H26ClN3; CAS-No.: 54-05-7; PubChem: CID 2719 | |||
F.S. Parker, A.H. Brandon | Archives Biochem. Biophys., 123 (2), 222-226, (1968) | Studies of the interaction of chloroquine with hyaluronate-protein | |
V.A. Otelo, A.C. Sant'Ana, D.L.A. de Faria, C.M.S. Menezes | Bioorganic & Medical Chemistry Letters, 21 (1), 250-254, (2011) | Molecular modeling and UV–vis spectroscopic studies on the mechanism of action of reversed chloroquine (RCQ) | |
Chlortetracycline; aureomycin; 7-chlorotetracycline; C22H23ClN2O8; CAS-No.: 57-62-5; PubChem: CID 54675777 | |||
R.W. Broschard, A.C. Dornbush, S. Gordon, B.L. Hutchings, A.R. Kohler, G. Krupka, S. Kushner, D.V. Lefemine, C. Pidacks | Science, 109 (2826), 199-200, (1949) | Aureomycin, a New Antibiotic | |
D.J. Hiscox | J. Pharma. Sciences, 40 (5), 237-240, (1951) | The ultraviolet determination of aureomycin and terramycin | |
Y. Tian, J. Zou, L. Feng, L. Zhang, Y. Liu | Water Research, 149, 35-41, (2019) | Chlorella vulgaris enhance the photodegradation of chlortetracycline in aqueous solution via extracellular organic matters (EOMs): Role of triplet state EOMs | |
Cholesterone; cholestenone; 4-cholesten-3-one; C27H44O; CAS-No.: 601-57-0 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
R.H. Cox, E.Y. Spencer | Can. J. Chem., 29(5), 398-408, (1951) | The ultraviolet absorption spectra of several dehydration and oxidation derivatives of cholesterol | |
Cimetidine; tagamet; C10H16N6S; CAS-No.: 51481-61-9; PubChem: CID 2756 | |||
J.M. Buth, R. Ossola, S.B. Partanen, K. McNeill, W.A. Arnold, M. O'Connor, D.E. Latch | ChemRxiv, Cambridge: Cambridge Open Engage; (2020) | Kinetics and Pathways of the Aqueous Photolysis of Pharmaceutical Pollutants: A Versatile Laboratory or Remote Learning Investigation | |
Cinchonine; C19H22N2O; CAS-No.: 118-10-5; PubChem: CID 90454 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Ciprofloxacine; C17H18FN3O3; CAS-No.: 85721-33-1; PubChem: CID 2764 | |||
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
O. S. Keen, K. G. Linden | Environ. Sci. Technol., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
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 | |
Clindamycin; C18H33ClN2O5S; CAS-No.: 18323-44-9 | |||
O.S. Keen, K.G. Linden | Environ. Sci. Technol., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
Clofibric acid; 2-(4-chlorophenoxy)-2-methylpropanoic acid; C10H11ClO3; CAS-No.: 882-09-7; PubChem: CID 2797 | |||
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
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 | |
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 | |
Clomipramine; chlorimipramine; 3-chloroimipramine; C19H23ClN2; CAS-No.: 303-49-1; PubChem: CID 2801 | |||
R. Nassara, A. Trivellac, S. Mokhb, M. Al-Iskandarania, H. Budzinskic, P. Mazellier | J. Photochem. Photobiol. A: Chem., 336, 176-182, (2017) | Photodegradation of sulfamethazine, sulfamethoxypiridazine, amitriptyline, and clomipramine drugs in aqueous media | |
Cocaine; benzoylmethylecgonine; C17H21NO4; CAS-No.: 50-36-2; PubChem: 5760 | |||
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 | |
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Colchiceine; N-acetyl trimethylcolchicinic acid; C21H23NO6; CAS-No.: 477-27-0; PubChem: CID 234105 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Colchicine; N-[(7S)-1,2,3,10-tetramethoxy-9-oxo-5,6,7,9-tetrahydrobenzo[a]heptalen-7-yl]acetamide; C22H25NO6; CAS-No.: 64-86-8; PubChem: CID 6167 | |||
D.S. Tarbell, H.R. Frank, P.E. Fanta | J. Am. Chem. Soc., 68 (3), 502-506, (1946) | Studies on the Structure of Colchicine | |
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Sankar N. Maity, B. Bhattacharyya | FEBS Letters, 218 (1), 102-106, (1987) | Properties of B-ring analogues of colchicine | |
S.B. Hastie, R.P. Rava | J. Am. Chem. Soc., 111 (18), 6993-7001, (1989) | Analysis of the near-ultraviolet absorption band of colchicine and the effect of tubulin binding | |
Q. Lu, C.L. Copper, G.E. Collins | Anal. Chem. Acta, 572 (2), 205-211, (2006) | Ultraviolet absorbance detection of colchicine and related alkaloids on a capillary electrophoresis microchip | |
Colchicoside; C27H33NO11; CAS-No.: 477-29-2; PubChem: CID 233866 | |||
Q. Lu, C.L. Copper, G.E. Collins | Anal. Chem. Acta, 572 (2), 205-211, (2006) | Ultraviolet absorbance detection of colchicine and related alkaloids on a capillary electrophoresis microchip | |
Cryptopine; cryptocavine; C21H23NO5; CAS-No.: 482-74-6; PubChem: CID 72616 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Curcumin; diferuloylmethane; natural yellow 3; C21H20O6; CAS-No.: 458-37-7; PubChem: CID 969516 | |||
F. Jasim, F. Ali | Microchemical J., 39 (2), 156-159, (1989) | Measurements of some spectrophotometric parameters of curcumin in 12 polar and nonpolar organic solvents | |
P.-H. Bong | Bull. Korean Chem. Soc., 21 (1), 81-86, (2000) | Spectral and Photophysical Behaviors of Curcumin and Curcuminoids | |
Y. Manolova, V. Deneva, L. Antonov, E. Drakalska, D. Momekova, N. Lambov | Spectrochim. Acta A, 132, 815-820, (2014) | The effect of the water on the curcumin tautomerism: A quantitative approach | |
A. Puglisi, T. Giovannini, L. Antonov, C. Cappelli | Phys. Chem. Chem. Phys., 21, 15504-15514, (2019) | Interplay between conformational and solvent effects in UV-visible absorption spectra: curcumin tautomers as a case study | |
Cylindrospermopsin; C15H21N5O7S; CAS-No.: 143545-90-8; PubChem: CID | |||
S. Merel, M. Clement, A. Mourot, V. Fessard, O. Thomas | Science Total Env., 408 (16), 3433-3442, (2010) | Characterization of cylindrospermopsin chlorination | |
Dapoxetine; (S)-N,N-dimethyl-3-(naphthalen-1-yloxy)-1-phenylpropan-1-amine; C21H23NO; CAS-No.: 119356-77-3; PubChem: CID 71353 | |||
A. Darcsi, Z. Szakacs, F. Zsila, G. Toth, A. Racz, S. Beni | RSC Advances, 6, 102315-102328, (2016) | NMR, CD and UV spectroscopic studies reveal uncommon binding modes of dapoxetine to native cyclodextrins | |
7-Dehydrocholesterol; 7-DHC; cholesta-5,7-dien-3beta-ol; provitamin D3; C27H44O; CAS-No.: 434-16-2; PubChem: CID 172 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
Diaboline; C21H24N2O3; CAS-No.: 509-40-0; PubChem: CID 321983 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Diazepam; 7-chlor- 1-methyl- 5-phenyl- 1,3-dihydro- 1,4-benzodiazepin-2-on; C16H13ClN2O; CAS-No.: 439-14-5; PubChem: 3016 | |||
P. Gonzales-Hierro, M.M. Velazquez, J.M. Cachaza, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 5 (4), 395-402, (1987) | Deconvolution of ultraviolet absorption spectra of aqueous Diazepam, Flurazepam and Prazepam in acid and alkaline solutions | |
Diclofenac; 2-(2,6-dichloranilino) phenylacetic acid; C14H11Cl2NO2; CAS-No.: 15307-86-5; PubChem: CID 3033 | |||
M.M. Sena, Z.F. Chaudhry, C.H. Collins, R.J. Poppi | J. Pharmaceutical and Biomedical Analysis, 36, 743-749, (2004) | Direct determination of diclofenac in pharmaceutical formulations containing B vitamins by using UV spectrophotometry and partial least squares regression | |
R. Salgado, V.J. Pereira, G. Carvalho, R. Soeiro, V. Gaffney, C. Almeida, V. Vale Cardoso, E. Ferreira, M.J. Benoliel, T.A. Ternes, A. Oehmen, M.A.M. Reis, J.P. Noronha | J. Hazard. Mat., 244-245, 516-527, (2013) | Photodegradation kinetics and transformation products of ketoprofen, diclofenac and atenolol in pure water and treated wastewater | |
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 | |
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 | |
L. de Brito Anton, A.I. Silverman, J.N. Apell | Environ. Sci.: Processes Impacts,26, 1052-1063, (2024) | Determining wavelength-dependent quantum yields of photodegradation: importance of experimental setup and reference values for actinometers | |
Difloxacin; C21H19F2N3O3; CAS-No.: 98106-17-3; PubChem: CID 56206 | |||
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
Dihydroerysodine; C18H23NO3; CAS-No.: 7236-36-4; PubChem: CID 22295116 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Diltiazem; cardizem; anoheal; C22H26N2O4S; CAS-No.: 42399-41-7; PubChem: CID 39186 | |||
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 | |
Diphenhydramine; benadryl; benzhydramine; C17H21NO; CAS-No.: 58-73-1; PubChem: CID 3100 | |||
Y. Chen, C. Hu, X. Hu, J. Qu | Environ. Sci. Technol., 43 (8), 2760-2765, (2009) | Indirect Photodegradation of Amine Drugs in Aqueous Solution under Simulated Sunlight | |
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 | |
Disulfiram; tetraethylthiuram disulfide; C10H20N2S4; CAS-No.: 97-77-8; PubChem: CID 3117 | |||
M. Skowron, W. Ciesielski | J. Anal. Chem., 66 (8), 714-719, (2011) | Spectrophotometric Determination of Methimazole, D-Penicillamine, Captopril, and Disulfiram in Pure Form and Drug Formulations | |
Dopa; L-dopa; (S)-2-Amino-3-(3,4-dihydroxyphenyl)propanoic acid; levodopa; CAS-No.: 59-92-7; PubChem: CID 6047 | |||
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 | |
Dopamine; 4-(2-aminoethyl)benzene-1,2-diol; C8H11NO2; CAS-No.: 51-61-6; PubChem: CID 681 | |||
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 | |
Doxycycline; C22H24N2O8; CAS-No.: 564-25-0; PubChem: CID 11256 | |||
O.S. Keen, K.G. Linden | Env. Sci. Tech., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
Dutasteride; avodart; C27H30F6N2O2; CAS-No.: 164656-23-9; PubChem: CID 6918296 | |||
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 | |
Ebselen; 2-phenyl-1,2-benzoselenazol-3-one; C13H9NOSe; CAS-No.: 60940-34-3; PubChem: CID 3194 | |||
M. Hopanna, L. Kelly, L. Blaney | Env. Sci. Tech., 54, 18, 11271-11281, (2020) | Photochemistry of the Organoselenium Compound Ebselen: Direct Photolysis and Reaction with Active Intermediates of Conventional Reactive Species Sensitizers and Quenchers | |
Ebselen oxide; 2-phenyl-1,2-benzoselenazol-3(2H)-one 1-oxide; C13H9NO2Se; CAS-No.: 104473-83-8; PubChem: | |||
M. Hopanna, L. Kelly, L. Blaney | Env. Sci. Tech., 54, 18, 11271-11281, (2020) | Photochemistry of the Organoselenium Compound Ebselen: Direct Photolysis and Reaction with Active Intermediates of Conventional Reactive Species Sensitizers and Quenchers | |
Ecgonine; C9H15NO3; CAS-No.: 481-37-8; PubChem: 91460 | |||
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 | |
Enrofloxacin; C19H22FN3O3; CAS-No.: 93106-60-6; PubChem: CID 71188 | |||
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
I. Sciscenko, A. Arques, Z. Varga, S. Bouchonnet, O. Monfort, M. Brigante, G. Mailhot | Chemosphere, 270, 129791, (2021) | Significant role of iron on the fate and photodegradation of Enrofloxacin | |
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 | |
Ephedrine hydrochloride; (-)-ephedrine hydrochloride; C10H16ClNO; CAS-No.: 50-98-6; PubChem: CID 65326 | |||
P. Hasemann, M. ter Balk, H. Waetzig | Electrophoresis, 28 (11), 1798-1804, (2007) | Analysis of substances to be used as internal standards in MEKC | |
Epinephrine; adrenaline; C9H13NO3; CAS-No.: 51-43-4; PubChem: CID 5816 | |||
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 | |
Ergosterol; ergosta-5,7,22-trien-3beta-ol; provitamin D2; C28H44O; CAS-No.: 57-87-4; PubChem: CID 444679 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
Erysodine; 1,2,6,7-tetradehydro-3,15-dimethoxyerythrinan-16-ol; C18H21NO3; CAS-No.: 7290-03-1; PubChem: CID 169017 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Erythromycin; E-mycin; Erythrocin; C37H67NO13; CAS-No.: 114-07-8 | |||
O. S. Keen, K. G. Linden | Environ. Sci. Technol., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
Estrone; estragyn; theelin; C18H22O2; CAS-No.: 53-16-7; PubChem: CID 5870 | |||
T.R. Hogness, A.E. Sidwell Jr., F.P. Zscheile Jr. | J. Biol. Chem., 120, 239-256, (1937) | The absorption spectra of compounds related to the sterols | |
Evoxanthine; C16H13NO4; CAS-No.: 477-82-7; PubChem: CID 348484 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Febrifugine; beta-dichroine; dichroin; C16H19N3O3; CAS-No.: 24159-07-7; PubChem: CID 63224 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Fenofibric acid; procetofenic acid; C17H15ClO4; CAS-No.: 42017-89-0; PubChem: CID 64929 | |||
V. Lhiaubet, F. Gutierrez, F. Penaud–Berruyer, E. Amouyal, J.-P. Daudey, R. Poteau, N. Chouini–Lalanne, N. Paillous | New J. Chem.,24, 403-410, (2000) | Spectroscopic and theoretical studies of the excited states of fenofibric acid and ketoprofen in relation with their photosensitizing properties | |
Flufenamic acid; arlef; nichisedan; C14H10F3NO2; CAS-No.: 530-78-9; PubChem: CID 3371 | |||
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 | |
Flumequine; apurone; flumigal; C14H12FNO3; CAS-No.: 42835-25-6; PubChem: CID 3374 | |||
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 | |
Flunitrazepam; C16H12FN3O3; CAS-No.: 1622-62-4; PubChem: 3380 | |||
M.E. Moro, M.M. Velazquez, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 6 (6-8), 1013-1018, (1988) | Deconvolution of UV absorption spectra of 1,4 benzodiazepines in aqueous solution | |
Fluoxetine; C17H18F3NO; CAS-No.: 54910-89-3; PubChem: 3386 | |||
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 | |
Flurazepam; C21H23ClFN3O; CAS-No.: 17617-23-1; PubChem: 3393 | |||
P. Gonzales-Hierro, M.M. Velazquez, J.M. Cachaza, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 5 (4), 395-402, (1987) | Deconvolution of ultraviolet absorption spectra of aqueous Diazepam, Flurazepam and Prazepam in acid and alkaline solutions | |
Gelsemine; C20H22N2O2; CAS-No.: 509-15-9; PubChem: CID 279057 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Gemfibrozil; lopid; C15H22O3; CAS-No.: 25812-30-0; PubChem: CID 3463 | |||
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 | |
Glibenclamide; glyburide; C23H28ClN3O5S; CAS-No.: 10238-21-8; PubChem: CID 3488 | |||
P. Hasemann, M. ter Balk, H. Waetzig | Electrophoresis, 28 (11), 1798-1804, (2007) | Analysis of substances to be used as internal standards in MEKC | |
Gougerotin; aspiculamycin; C16H25N7O8; CAS-No.: 2096-42-6; PubChem: CID 11226719 | |||
H. Iwasaki | J. Pharm. Soc. Japan, 82 (10), 1358-1361, (1962) | Studies on the Structure of Gougerotin. (1) Properties of Gougerotin | |
Graveolinine; 2-(1,3-benzodioxol-5-yl)-4-methoxyquinoline; C17H13NO3; CAS-No.: 4179-37-7; PubChem: CID 11044132 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Homoanatoxin A; C11H17NO; CAS-No.: 142926-86-1; PubChem: CID 126727 | |||
K.J. James, A. Furey, I.R. Sherlock, M.A. Stack, M. Twohig, F.B. Caudwell, O.M. Skulberg | J. Chromatography A, 798 (1-2), 147-157, (1998) | Sensitive determination of anatoxin-a, homoanatoxin-a and their degradation products by liquid chromatography with fluorimetric detection | |
Homolycorine; 9,10-dimethoxy-1-methyllycorenan-7-one; C18H21NO4; CAS-No.: 477-20-3; PubChem: CID 160473 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Hydrochlorothiazide; hypothiazide; esidrix; HCTZ; C7H8ClN3O4S2; CAS-No.: 58-93-5; PubChem: CID 3639 | |||
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 | |
Hydrocortisone; cortisol; C21H30O5; CAS-No.: 50-23-7; PubChem: CID 5754 | |||
J.M. Lemus Gallego, J. Perez Arroyo | Analytica Chim. Acta, 460, 85-97, (2002) | Spectrophotometric determination of hydrocortisone, nystatin and oxytetracycline in synthetic and pharmaceutical preparations based on various univariate and multivariate methods | |
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 | |
Ibuprofen; (S)-(+)-2-(4-isobutylphenyl)propionic acid; C13H18O2; CAS-No.: 15687-27-1; PubChem: CID 3672 | |||
R.K. Szabó | PhD Thesis, University of Szeged; (2010) | Decomposition of some pharmaceuticals by Advanced Oxidation Processes | |
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 | |
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 | |
Imipramine; melipramine; imidobenzyle; C19H24N2; CAS-No.: 50-49-7; PubChem: CID 3696 | |||
V.A. Otelo, A.C. Sant'Ana, D.L.A. de Faria, C.M.S. Menezes | Bioorganic & Medical Chemistry Letters, 21 (1), 250-254, (2011) | Molecular modeling and UV–vis spectroscopic studies on the mechanism of action of reversed chloroquine (RCQ) | |
Insulin; C254H377N65O75S6; CAS-No.: 11070-73-8 | |||
K. Rosenheck, P. Doty | PNAS, 47 (11), 1775-1785, (1961) | The far ultraviolet absorption spectra of polypeptide and protein solutions and their dependence on conformation | |
Iohexol; nycodenz; omnipaque; C19H26I3N3O9; CAS-No.: 66108-95-0; PubChem: CID 3730 | |||
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
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 | |
Iopamidol; iopamiron; isovue; C17H22I3N3O8; CAS-No.: 60166-93-0; PubChem: CID 65492 | |||
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 | |
Iopromide; ultravist; C18H24I3N3O8; CAS-No.: 73334-07-3; PubChem: CID 3736 | |||
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 | |
Isocolchicine; C22H25NO6; CAS-No.: 30771-10-9; PubChem: CID 352796 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Isoformononetin; 3-(4-hydroxyphenyl)-7-methoxy-4H-chromen-4-one; C16H12O4; CAS-No.: 486-63-5; PubChem: CID 3764 | |||
A. Srivastava, H. Singh, R. Mishra, K. Dev, P. Tandon, R. Maurya | J. Mol. Structure, 1133, 479-491, (2017) | Structural insights, protein-ligand interactions and spectroscopic characterization of isoformononetin | |
Isomethadon hydrochloride; 6-(dimethylamino)-5-methyl-4,4-diphenylhexan-3-one;hydrochloride; C21H27NO·HCl; CAS-No.: 5341-49-1; PubChem: 111003 | |||
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 | |
Isonicoteine; 2,3'-bipyridine; 2,3'-dipyridine; C10H8N2; CAS-No.: 581-50-0; PubChem: CID 11389 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Isosorbide mononitrate; 8-nitrooxy-2,6-dioxabicyclo[3.3.0]octan-4-ol; C6H9NO6; CAS-No.: 16051-77-7; PubChem: CID 27661 | |||
D.E. Romonosky, L.Q. Nguyen, D. Shemesh, T.B. Nguyen, S.A. Epstein, D.B.C. Martin, C.D. Vanderwal, R.B. Gerber, S.A. Nizkorodov | Mol. Phys., 113 (15-16), 2179-2190, (2015) | Absorption spectra and aqueous photochemistry of beta-hydroxyalkyl nitrates of atmospheric interest | |
Jervine; C27H39NO3; CAS-No.: 469-59-0; PubChem: CID 10098 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Ketoprofen; 2-(3-benzoylphenyl)propanoic acid; C16H14O3; CAS-No.: 22071-15-4; PubChem: CID 3825 | |||
V. Lhiaubet, F. Gutierrez, F. Penaud–Berruyer, E. Amouyal, J.-P. Daudey, R. Poteau, N. Chouini–Lalanne, N. Paillous | New J. Chem.,24, 403-410, (2000) | Spectroscopic and theoretical studies of the excited states of fenofibric acid and ketoprofen in relation with their photosensitizing properties | |
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
R.K. Szabó | PhD Thesis, University of Szeged; (2010) | Decomposition of some pharmaceuticals by Advanced Oxidation Processes | |
R. Salgado, V.J. Pereira, G. Carvalho, R. Soeiro, V. Gaffney, C. Almeida, V. Vale Cardoso, E. Ferreira, M.J. Benoliel, T.A. Ternes, A. Oehmen, M.A.M. Reis, J.P. Noronha | J. Hazard. Mat., 244-245, 516-527, (2013) | Photodegradation kinetics and transformation products of ketoprofen, diclofenac and atenolol in pure water and treated wastewater | |
Lamotrigine; C9H7Cl2N5; CAS-No.: 84057-84-1; PubChem: CID 3878 | |||
O.S. Keen, I. Ferrer, E.M. Thurman, K.G. Linden | Chemosphere, 117, 316-323, (2014) | Degradation pathways of lamotrigine under advanced treatment by direct UV photolysis, hydroxyl radicals, and ozone | |
Lornoxicam; chlortenoxicam; C13H10ClN3O4S2; CAS-No.: 70374-39-9; PubChem: CID 5282204 | |||
M.S.Kondawar, R.R.Shah, J.J.Waghmare, N.D.Shah, M.K.Malusare | Int. J. Pharm. Tech. Research, 3 (3), 1603-1608), (2011) | UV spectrophotometric estimation of paracetamol and lornoxicam in Bulk drug and Tablet dosage form using Multi-wavelength method | |
Lunamarine; C18H15NO4; CAS-No.: 483-52-3; PubChem: CID 442922 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Lunine; C16H17NO4; CAS-No.: 518-60-5; PubChem: CID 253836 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Lycorenine; C18H23NO4; CAS-No.: 477-19-0; PubChem: CID 160472 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Lycorine; amarylline; narcissine; C16H17NO4; CAS-No.: 476-28-8; PubChem: CID 72378 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Meconic acid; C7H4O7; CAS-No.: 497-59-6; PubChem: 5351448 | |||
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 | |
Mephenesin; decontractyl; cresoxydiol; C10H14O3; CAS-No.: 59-47-2; PubChem: CID 4059 | |||
R.E. Stuckey | J. Pharmacy Pharmacology, 4 (1), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
Meprobamate; 2-methyl-2-propyltrimethylendicarbamat; C9H18N2O4; CAS-No.: 57-53-4; PubChem: CID 4064 | |||
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 | |
Mesalazine; 5-aminosalicylic acid; 5-ASA; C7H7NO3; CAS-No.: 89-57-6 | |||
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 | |
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 | |
R.K. Singh, P.S. Patel, P. Gupta | Int. J. Pharmaceutical Sciences and Research, 6, 44-49, (2010) | UV Spectrophotometric method for the estimation of mesalazine in bulk and its pharmaceutical dosage forms | |
Methadon hydrochloride; C21H27NO·HCl; CAS-No.: 1095-90-5 | |||
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 | |
Metharbital; 1-methylbarbital; metharbitone; N-methylbarbital; C9H14N2O3; CAS-No.: 50-11-3; PubChem: CID 4099 | |||
J.J. Fox, D. Shugar | Bull. Soc. Chim. Belges, 61 (1-2), 44-63, (1952) | Absorption spectra and structure of barbituric acid derivatives as a function of pH | |
Methimazole; thiamazole; tapazole; C4H6N2S; CAS-No.: 60-56-0; PubChem: CID 1349907 | |||
M. Skowron, W. Ciesielski | J. Anal. Chem., 66 (8), 714-719, (2011) | Spectrophotometric Determination of Methimazole, D-Penicillamine, Captopril, and Disulfiram in Pure Form and Drug Formulations | |
G.A. Cooper, C.S. Hansen, T.N.V. Karsili, M.N.R. Ashfold | J. Phys. Chem. A, 122, 51, 9869–9878, (2018) | Photofragment Translational Spectroscopy Studies of H Atom Loss Following Ultraviolet Photoexcitation of Methimazole in the Gas Phase | |
Metoprolol; (RS)-1-(Isopropylamino)-3-[4-(2-methoxyethyl)phenoxy]propan-2-ol; C15H25NO3; CAS-No.: 51384-51-1; PubChem: CID 4171 | |||
Q.-T. Liu, H.E. Williams | Environ. Sci. Technol., 41 (3), 803-810, (2007) | Kinetics and Degradation Products for Direct Photolysis of beta-Blockers in Water | |
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 | |
Metronidazole; 2-methyl-5-nitroimidazole-1-ethanol; flagyl; C6H9N3O3; CAS-No.: 443-48-1; PubChem: CID 4173 | |||
R.F. Dantas, O. Rossiter, A.K. Ribeiro Teixeira, A.S.M. Simoes, V. Lins da Silva | Chem. Eng. J., 158 (2), 143-147, (2010) | Direct UV photolysis of propranolol and metronidazole in aqueous solution | |
Mexiletine; 1-(2,6-dimethylphenoxy)propan-2-amine; C11H17NO; CAS-No.: 31828-71-4; PubChem: CID 4178 | |||
Y. Chen, C. Hu, X. Hu, J. Qu | Environ. Sci. Technol., 43 (8), 2760-2765, (2009) | Indirect Photodegradation of Amine Drugs in Aqueous Solution under Simulated Sunlight | |
Morphine; morphium; C17H19NO3; CAS-No.: 57-27-2; PubChem: CID 5288826 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Naproxen; (S)-2-(6-methoxynaphthalen-2yl)propanoic acid; NAP; C14H14O3; CAS-No.: 22204-53-1; PubChem: CID 156391 | |||
V.J. Pereira, H.S. Weinberg, K.G. Linden, P.C. Singer | Environ. Sci. Technol., 41 (5), 1682-1688, (2007) | UV Degradation Kinetics and Modeling of Pharmaceutical Compounds in Laboratory Grade and Surface Water via Direct and Indirect Photolysis at 254 nm | |
P. Hasemann, M. ter Balk, H. Waetzig | Electrophoresis, 28 (11), 1798-1804, (2007) | Analysis of substances to be used as internal standards in MEKC | |
R.K. Szabó | PhD Thesis, University of Szeged; (2010) | Decomposition of some pharmaceuticals by Advanced Oxidation Processes | |
E. Aranya, R.K. Szabóa, L. Apátia, T. Alapia, I. Iliszc, P. Mazellierd, A. Dombia, K. Gajda-Schrantz | J. Hazardous Materials, 262, 151-157, (2013) | Degradation of naproxen by UV, VUV photolysis and their combination | |
R. Marotta, D. Spasiano, I. Di Somma, R. Andreozzi | Water Research, 47 (1), 373-383, (2013) | Photodegradation of naproxen and its photoproducts in aqueous solution at 254 nm: A kinetic investigation | |
W.C. Cory, A.M. Welch, J.N. Ramirez, L.C. Rein | Environ. Toxicol. Chem., 38 (9), 2008-2019, (2019) | Naproxen and Its Phototransformation Products: Persistence and Ecotoxicity to Toad Tadpoles (Anaxyrus terrestris), Individually and in Mixtures | |
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 | |
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 | |
Nebivolol; bystolic; nebilet; C22H25F2NO4; CAS-No.: 99200-09-6; PubChem: CID 71301 | |||
A. Salma, H.V. Lutze, T.C. Schmidt, J. Tuerk | Water Research, 116, 211-219, (2017) | Photolytic degradation of the beta-blocker nebivolol in aqueous solution | |
Neostigmine bromide; eustigmin bromide; C12H19BrN2O2; CAS-No.: 114-80-7; PubChem: CID 8246 | |||
P. Hasemann, M. ter Balk, H. Waetzig | Electrophoresis, 28 (11), 1798-1804, (2007) | Analysis of substances to be used as internal standards in MEKC | |
Niclosamide; 5-chloro-N-(2-chloro-4-nitrophenyl)-2-hydroxybenzamide; C13H8Cl2N2O4; CAS-No.: 50-65-7; PubChem: CID 4477 | |||
M.B. McConville, T.D. Hubert, C.R. Remucal | Environ. Sci. Technol., 50 (18), 9998-10006, (2016) | Direct Photolysis Rates and Transformation Pathways of the Lampricides TFM and Niclosamide in Simulated Sunlight | |
Nicotine; C10H14N2; CAS-No.: 54-11-5; PubChem: CID 89594 | |||
M.L. Swain, A. Eisner, C.F. Woodward, B.A. Brice | J. Am. Chem. Soc., 71, 4, 1341-1345, (1949) | Ultraviolet absorption spectra of nicotine, nornicotine and some of their derivatives | |
T.N. Shkurina, F.D. Alashev, V.K. Zvorykina, Ya.L. Goldfarb | Russ. Chem. Bull., 9 (6), 1041-1045, (1960) | Ultraviolet absorption spectra of some pyridine and nicotine derivatives - Communication 4. Absorption spectra of n-oxides of nicotine and N-methylanabasine | |
Nitrazepam; C15H11N3O3; CAS-No.: 146-22-5; PubChem: 4506 | |||
M.E. Moro, M.M. Velazquez, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 6 (6-8), 1013-1018, (1988) | Deconvolution of UV absorption spectra of 1,4 benzodiazepines in aqueous solution | |
Norepinephrine; INN; norepi; 4-[(1R)-2-amino-1-hydroxyethyl]benzene-1,2-diol; C8H11NO3; CAS-No.: 51-41-2; PubChem: CID 439260 | |||
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 | |
Norfloxacin; C16H18FN3O3; CAS-No.: 70458-96-7; PubChem: CID 4539 | |||
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
Noscapine; narcotine; C22H23NO7; CAS-No.: 128-62-1; PubChem: CID 275196 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet spectra of alkaloids | |
Nystatin; C47H75NO17; CAS-No.: 1400-61-9; PubChem: CID 44424838 | |||
J.M. Lemus Gallego, J. Perez Arroyo | Analytica Chim. Acta, 460, 85-97, (2002) | Spectrophotometric determination of hydrocortisone, nystatin and oxytetracycline in synthetic and pharmaceutical preparations based on various univariate and multivariate methods | |
beta-Obscurine; 17-methyllycodin-1(18H)-one; C17H24N2O; CAS-No.: 467-79-8; PubChem: CID 5460546 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet spectra of alkaloids | |
Olivacine; 1,5-dimethyl-6H-pyrido[4,3-b]carbazole; C17H14N2; CAS-No.: 484-49-1; PubChem: CID 5281407 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet spectra of alkaloids | |
Opianic acid; 6-formyl-2,3-dimethoxybenzoic acid; C10H10O5; CAS-No.: 519-05-1; PubChem: 68210 | |||
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 | |
Ormetoprim; ormethoprim; C14H18N4O2; CAS-No.: 6981-18-6; PubChem: CID 23418 | |||
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) | |
Oxytetracycline; terramycin; C22H24N2O9; CAS-No.: 79-57-2; PubChem: CID 54675779 | |||
D.J. Hiscox | J. Pharma. Sciences, 40 (5), 237-240, (1951) | The ultraviolet determination of aureomycin and terramycin | |
J.M. Lemus Gallego, J. Perez Arroyo | Analytica Chim. Acta, 460, 85-97, (2002) | Spectrophotometric determination of hydrocortisone, nystatin and oxytetracycline in synthetic and pharmaceutical preparations based on various univariate and multivariate methods | |
Papaverine; 1-(3,4-dimethoxybenzyl)-6,7-dimethoxyisoquinoline; C20H21NO4; CAS-No.: 58-74-2; PubChem: 4680 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet spectra of alkaloids | |
Paracetamol; acetaminophen; N-(4-hydroxyphenyl)acetamide; C8H9NO2; CAS-No.: 103-90-2; PubChem: CID 1983 | |||
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.S.Kondawar, R.R.Shah, J.J.Waghmare, N.D.Shah, M.K.Malusare | Int. J. Pharm. Tech. Research, 3 (3), 1603-1608), (2011) | UV spectrophotometric estimation of paracetamol and lornoxicam in Bulk drug and Tablet dosage form using Multi-wavelength method | |
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 | |
A.H. Zyoud, A. Zubi, S. Hejjawi, S.H. Zyoud, M.H. Helal, S.H. Zyoud, N. Qamhieh, A.R. Hajamohideen, H.S. Hilal | J. Env. Chem. Eng., 8 (4), 104038, (2020) | Removal of acetaminophen from water by simulated solar light photodegradation with ZnO and TiO2 nanoparticles: Catalytic efficiency assessment for future prospects | |
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 | |
Pefloxacin; C17H20FN3O3; CAS-No.: 70458-92-3; PubChem: CID 51081 | |||
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
D-Penicillamine; penicillamine; cuprimine; C5H11NO2S; CAS-No.: 52-67-5; PubChem: CID 5852 | |||
M. Skowron, W. Ciesielski | J. Anal. Chem., 66 (8), 714-719, (2011) | Spectrophotometric Determination of Methimazole, D-Penicillamine, Captopril, and Disulfiram in Pure Form and Drug Formulations | |
Penicillin-G; Benzylpenicillin; C16H18N2O4S; CAS-No.: 61-33-6 | |||
O. S. Keen, K. G. Linden | Environ. Sci. Technol., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
Perlolidine; samoquasine A; C12H8N2O; CAS-No.: 7344-61-8; PubChem: CID 5748566 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Phenacetin; N-(4-ethoxyphenyl)acetamide; C10H13NO2; CAS-No.: 62-44-2; PubChem: CID 4754 | |||
R.E. Stuckey | J. Pharm. Pharmacol., 4 (6), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
Phenobarbital; phenobarbitone; phenylethylbarbiturate; C12H12N2O3; CAS-No.: 50-06-6; PubChem: CID 4763 | |||
R.E. Stuckey | J. Pharm. Pharmacol., 4 (6), 345-365, (1952) | The applications of ultra-violet absorption spectrophotometry in pharmaceutical analysis | |
Phenytoin; 5,5-diphenylhydantoin; 5,5-diphenylimidazolidin-2,4-dion; C15H12N2O2; CAS-No.: 57-41-0; PubChem: CID 1775 | |||
Y. Chen, C. Hu, X. Hu, J. Qu | Environ. Sci. Technol., 43 (8), 2760-2765, (2009) | Indirect Photodegradation of Amine Drugs in Aqueous Solution under Simulated Sunlight | |
Phthalylsulfathiazole; sulfathalidine; C17H13N3O5S2; CAS-No.: 85-73-4; PubChem: CID 4806 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
Prazepam; C19H17ClN2O; CAS-No.: 2955-38-6; PubChem: 4890 | |||
P. Gonzales-Hierro, M.M. Velazquez, J.M. Cachaza, L.J. Rodriguez | J. Pharm. Biomed. Analysis, 5 (4), 395-402, (1987) | Deconvolution of ultraviolet absorption spectra of aqueous Diazepam, Flurazepam and Prazepam in acid and alkaline solutions | |
Prednisone; dehydrocortisone; deltasone; C21H26O5; CAS-No.: 53-03-2; PubChem: 5865 | |||
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 | |
Primidone; primaclone; lepimidin; C12H14N2O2; CAS-No.: 125-33-7; PubChem: 4909 | |||
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 | |
Propranolol; (RS)-1-(1-methylethylamino)-3-(1-naphthyloxy)propan-2-ol; C16H21NO2; CAS-No.: 525-66-6; PubChem: CID 4946 | |||
Q.-T. Liu, H.E. Williams | Environ. Sci. Technol., 41 (3), 803-810, (2007) | Kinetics and Degradation Products for Direct Photolysis of beta-Blockers in Water | |
Y. Chen, C. Hu, X. Hu, J. Qu | Environ. Sci. Technol., 43 (8), 2760-2765, (2009) | Indirect Photodegradation of Amine Drugs in Aqueous Solution under Simulated Sunlight | |
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) | |
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 | |
Protostephanine; 2,3,10,12-tetramethoxy-7-methyl-6,7,8,9-tetrahydro-5H-dibenzo[d,f]azonine; C21H27NO4; CAS-No.: 549-28-0; PubChem: CID 632119 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Pyridoxine; 4,5-bis(hydroxymethyl)-2-methylpyridin-3-ol; C8H11NO3; CAS-No.: 65-23-6; PubChem: 1054 | |||
M.M. Sena, Z.F. Chaudhry, C.H. Collins, R.J. Poppi | J. Pharmaceutical and Biomedical Analysis, 36, 743-749, (2004) | Direct determination of diclofenac in pharmaceutical formulations containing B vitamins by using UV spectrophotometry and partial least squares regression | |
Quinine; 6-methoxycinchonine; C20H24N2O2; CAS-No.: 130-95-0; PubChem: CID 8459 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Ranitidine; raticina; C13H22N4O3S; CAS-No.: 66357-35-5; PubChem: CID 3001055 | |||
J.M. Buth, R. Ossola, S.B. Partanen, K. McNeill, W.A. Arnold, M. O'Connor, D.E. Latch | ChemRxiv, Cambridge: Cambridge Open Engage; (2020) | Kinetics and Pathways of the Aqueous Photolysis of Pharmaceutical Pollutants: A Versatile Laboratory or Remote Learning Investigation | |
Ribavirin; tribavirin; rebetol; virazole; C8H12N4O5; CAS-No.: 36791-04-5; PubChem: CID 37542 | |||
J. Zhen Wu, H. Walker, Johnson Y.N. Lau, Z. Hong | Antimicrobial Agents and Chemotherapy, 47 (1), 426-431, (2003) | Activation and Deactivation of a Broad-Spectrum Antiviral Drug by a Single Enzyme: Adenosine Deaminase Catalyzes Two Consecutive Deamination Reactions | |
Rutecarpine; rutaecarpine; rhetine; C18H13N3O; CAS-No.: 84-26-4; PubChem: CID 65752 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Sarafloxacin; C20H17F2N3O3; CAS-No.: 98105-99-8; PubChem: CID 56208 | |||
S. Snowberger, H. Adejumo, K. He, K.P. Mangalgiri, M. Hopanna, A.D. Soares, L. Blaney | Environ. Sci. Technol., 50 (17), 9533-9542, (2016) | Direct Photolysis of Fluoroquinolone Antibiotics at 253.7 nm: Specific Reaction Kinetics and Formation of Equally Potent Fluoroquinolone Antibiotics | |
Serpentine; C21H20N2O3; CAS-No.: 18786-24-8; PubChem: CID 73073 | |||
H. Kaneko | J. Pharm. Soc. Japan, 80, 1357-1361, (1960) | Studies on the Structure of Serpentinine. I. Double molecular structure of serpentinine | |
Serpentinine; C42H44N4O5; CAS-No.: 36519-42-3 | |||
H. Kaneko | J. Pharm. Soc. Japan, 80, 1357-1361, (1960) | Studies on the Structure of Serpentinine. I. Double molecular structure of serpentinine | |
Sertraline; C17H17Cl2N; CAS-No.: 79617-96-2; PubChem: CID 68617 | |||
C. Drossou, Y. Petrakis, K. Tyrovola, N.P. Xekoukoulotakis | Water Research, 217, 118442, (2022) | Photochemical degradation of the antidepressant sertraline in aqueous solutions by UVC, UVC/H2O2, and UVC/S2O82- | |
Sevoflurane; ultane; 1,1,1,3,3,3-hexafluoro-2-(fluoromethoxy)propane; C4H3F7O; CAS-No.: 28523-86-6; PubChem: CID 5206 | |||
E. Lange, F. Ferreira da Silva, N.C. Jones, S.V. Hoffmann, D. Duflot, P. Limao-Vieira | Chem. Phys. Lett., 716, 42-48, (2019) | The lowest-lying electronic states of isoflurane and sevoflurane in the 5.0-10.8 eV energy range investigated by experimental and theoretical methods | |
Sinomenine hydrochloride; cucoline hydrochloride; C19H24ClNO4; CAS-No.: 6080-33-7; PubChem: CID 5464452 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Sitagliptin; januvia; C16H15F6N5O; CAS-No.: 486460-32-6; PubChem: CID 4369359 | |||
D. Krakko, A. Illes, A. Domjan, A. Demeter, S. Dobe, G. Zalay | Chemosphere, 288 (2), 132393, (2022) | UV and (V)UV irradiation of sitagliptin in ultrapure water and WWTP effluent: Kinetics, transformation products and degradation pathway | |
SN-38; 7-ethyl-10-hydroxycamptothecin; C22H20N2O5; CAS-No.: 86639-52-3; PubChem: 104842 | |||
N. Sanna, G. Chillemi, L. Gontrani, A. Grandi, G. Mancini, S. Castelli, G. Zagotto, C. Zazza, V. Barone, A. Desideri | J. Phys. Chem. B, 113 (16), 5369-5375, (2009) | UV-Vis Spectra of the Anticancer Camptothecin Family Drugs in Aqueous Solution: Specific Spectroscopic Signatures Unraveled by a Combined Computational and Experimental Study | |
Sotalol; beta-cardone; C12H20N2O3S; CAS-No.: 3930-20-9; PubChem: CID 5253 | |||
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) | |
Sulfacetamide; N1-acetylsulfanilamide; C8H10N2O3S; CAS-No.: 144-80-9 | |||
J.M. Vandenbelt, L. Doub | J. Am. Chem. Soc., 66 (10), 1633-1636, (1944) | Characterization of the ultraviolet absorption spectra of some substituted benzene-sulfonamides | |
Sulfachloropyridazine; 4-amino-N-(6-chloropyridazin-3-yl)benzenesulfonamide; C10H9ClN4O2S; CAS-No.: 80-32-0; PubChem: CID 6634 | |||
A.L. Boreen, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 39 (10), 3630-3638, (2005) | Triplet-Sensitized Photodegradation of Sulfa Drugs Containing Six-Membered 3 Heterocyclic Groups: Identification of an SO2 Extrusion Photoproduct | |
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 | |
Sulfadiazine; 4-amino-N-pyrimidin-2-yl-benzenesulfonamide; C10H10N4O2S; CAS-No.: 68-35-9; PubChem: CID 5215 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
A.L. Boreen, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 39 (10), 3630-3638, (2005) | Triplet-Sensitized Photodegradation of Sulfa Drugs Containing Six-Membered 3 Heterocyclic Groups: Identification of an SO2 Extrusion Photoproduct | |
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) | |
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 | |
Sulfadimethoxine; sulfadimethoxydiazine; C12H14N4O4S; CAS-No.: 122-11-2; PubChem: CID 5323 | |||
A.L. Boreen, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 39 (10), 3630-3638, (2005) | Triplet-Sensitized Photodegradation of Sulfa Drugs Containing Six-Membered 3 Heterocyclic Groups: Identification of an SO2 Extrusion Photoproduct | |
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) | |
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 | |
Sulfaguanidine; 4-amino-N-amidinobenzenesulfonamide; C7H10N4O2S; CAS-No.: 57-67-0; PubChem: CID 5324 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
Sulfamerazine; sulfamethyldiazine; C11H12N4O2S; CAS-No.: 127-79-7; PubChem: CID 5325 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
A.L. Boreen, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 39 (10), 3630-3638, (2005) | Triplet-Sensitized Photodegradation of Sulfa Drugs Containing Six-Membered 3 Heterocyclic Groups: Identification of an SO2 Extrusion Photoproduct | |
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 | |
Sulfamethazine; sulfadimidine; SDD; C12H14N4O2S; CAS-No.: 57-68-1; PubChem: CID 5327 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
A.L. Boreen, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 39 (10), 3630-3638, (2005) | Triplet-Sensitized Photodegradation of Sulfa Drugs Containing Six-Membered 3 Heterocyclic Groups: Identification of an SO2 Extrusion Photoproduct | |
R. Nassara, A. Trivellac, S. Mokhb, M. Al-Iskandarania, H. Budzinskic, P. Mazellier | J. Photochem. Photobiol. A: Chem., 336, 176-182, (2017) | Photodegradation of sulfamethazine, sulfamethoxypiridazine, amitriptyline, and clomipramine drugs in aqueous media | |
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 | |
Sulfamethizole; thiosulfil; C9H10N4O2S2; CAS-No.: 144-82-1; PubChem: CID 5328 | |||
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 | |
Sulfamethoxazole; sulfisomezole; gantanol; SMX; C10H11N3O3S; CAS-No.: 723-46-6; PubChem: CID 5329 | |||
S. Willach, H.V. Lutze, K. Eckey, K. Loeppenberg, M. Lueling, J.-B. Wolbert, D.M. Kujawinski, M.A. Jochmann, U. Karst, T.C. Schmidt | Environ. Sci. Technol., 52 (3), 1225-1233, (2018) | Direct Photolysis of Sulfamethoxazole Using Various Irradiation Sources and Wavelength Ranges-Insights from Degradation Product Analysis and Compound-Specific Stable Isotope Analysis | |
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 | |
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 | |
L. de Brito Anton, A.I. Silverman, J.N. Apell | Environ. Sci.: Processes Impacts,26, 1052-1063, (2024) | Determining wavelength-dependent quantum yields of photodegradation: importance of experimental setup and reference values for actinometers | |
Sulfamethoxypyridazine; sulfapyridazine; sulfalex; C11H12N4O3S; CAS-No.: 80-35-3; PubChem: CID 5330 | |||
R. Nassara, A. Trivellac, S. Mokhb, M. Al-Iskandarania, H. Budzinskic, P. Mazellier | J. Photochem. Photobiol. A: Chem., 336, 176-182, (2017) | Photodegradation of sulfamethazine, sulfamethoxypiridazine, amitriptyline, and clomipramine drugs in aqueous media | |
Sulfanilamide; 4-aminobenzenesulfonamide; C6H8N2O2S; CAS-No.: 63-74-1; PubChem: CID 5333 | |||
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 | |
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
J.M. Vandenbelt, L. Doub | J. Am. Chem. Soc., 66 (10), 1633-1636, (1944) | Characterization of the ultraviolet absorption spectra of some substituted benzene-sulfonamides | |
S. Willach, H.V. Lutze, K. Eckey, K. Loeppenberg, M. Lueling, J.-B. Wolbert, D.M. Kujawinski, M.A. Jochmann, U. Karst, T.C. Schmidt | Environ. Sci. Technol., 52 (3), 1225-1233, (2018) | Direct Photolysis of Sulfamethoxazole Using Various Irradiation Sources and Wavelength Ranges-Insights from Degradation Product Analysis and Compound-Specific Stable Isotope Analysis | |
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 | |
Sulfathiazole; sulfanilamidothiazole; C9H9N3O2S2; CAS-No.: 72-14-0; PubChem: CID 5340 | |||
S.L. Ciminera, P.W. Wilcox | J. Pharmaceutical Sciences, 33 (3), 85-90, (1944) | Spectrophotometric studies on the sulfonamides | |
Sulfisoxazole; sulfafurazole; C11H13N3O3S; CAS-No.: 127-69-5; PubChem: CID 5344 | |||
K. Enoki, N. Takahasi | J. Pharm. Soc. Japan, 80 (7), 999-1001, (1960) | Studies on Sulfisoxazole. XI. Synthesis of N1-Acetyl-N1-(3, 4-dimethyl-5-pyrazolyl) sulfanilamide | |
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 | |
Teriflunomide; flucyamide; aubagio; C12H9F3N2O2; CAS-No.: 163451-81-8; PubChem: CID 54684141 | |||
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 | |
Tetracycline; C22H24N2O8; CAS-No.: 60-54-8; PubChem: CID 54675776 | |||
J.J. Werner, W.A. Arnold, K. McNeill | Environ. Sci. Technol., 40 (23), 7236-7241, (2006) | Water Hardness as a Photochemical Parameter: Tetracycline Photolysis as a Function of Calcium Concentration, Magnesium Concentration, and pH | |
C.C. Ryan | Master-Thesis, University of Minnesota, (2009) | Photolysis and digestion as polishing steps for the removal of antibiotics from muncipal wastewater treatment plant effluent and biosolids | |
Theobromine; 3,7-dimethylxanthine; C7H8N4O2; CAS-No.: 83-67-0 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Theophyllin; 1,3-dimethylxanthine; C7H8N4O2; CAS-No.: 58-55-9; PubChem: CID 2153 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Thiamine; 2-[3-[(4-amino-2-methyl-pyrimidin-5-yl)methyl]-4-methyl-thiazol-5-yl] ethanol; C12H17N4OS; CAS-No.: 59-43-8; PubChem: 6042 | |||
M.M. Sena, Z.F. Chaudhry, C.H. Collins, R.J. Poppi | J. Pharmaceutical and Biomedical Analysis, 36, 743-749, (2004) | Direct determination of diclofenac in pharmaceutical formulations containing B vitamins by using UV spectrophotometry and partial least squares regression | |
Thiocolchicine; 10-thio-colchicine; C22H25NO5S; CAS-No.: 2730-71-4; PubChem: CID 17648 | |||
Q. Lu, C.L. Copper, G.E. Collins | Anal. Chem. Acta, 572 (2), 205-211, (2006) | Ultraviolet absorbance detection of colchicine and related alkaloids on a capillary electrophoresis microchip | |
Thiocolchicoside; C27H33NO10S; CAS-No.: 602-41-5; PubChem: CID 72067 | |||
Q. Lu, C.L. Copper, G.E. Collins | Anal. Chem. Acta, 572 (2), 205-211, (2006) | Ultraviolet absorbance detection of colchicine and related alkaloids on a capillary electrophoresis microchip | |
Topotecan; (S)-9-dimethylaminomethyl-10-hydroxycamptothecin; C23H23N3O5; CAS-No.: 123948-87-8 | |||
N. Sanna, G. Chillemi, L. Gontrani, A. Grandi, G. Mancini, S. Castelli, G. Zagotto, C. Zazza, V. Barone, A. Desideri | J. Phys. Chem. B, 113 (16), 5369-5375, (2009) | UV-Vis Spectra of the Anticancer Camptothecin Family Drugs in Aqueous Solution: Specific Spectroscopic Signatures Unraveled by a Combined Computational and Experimental Study | |
Travoprost; travatan; C26H35F3O6; CAS-No.: 157283-68-6; PubChem: CID 5282226 | |||
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 | |
Triclocarban; 1-(4-chlorophenyl)-3-(3,4-dichlorophenyl)urea; cutisan; C13H9Cl3N2O; CAS-No.: 101-20-2; PubChem: CID 7547 | |||
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 | |
Triclosan; 5-chloro-2-(2,4-dichlorophenoxy)phenol; C12H7Cl3O2; CAS-No.: 3380-34-5; PubChem: CID 5564 | |||
C.C. Ryan | Master-Thesis, University of Minnesota, (2009) | Photolysis and digestion as polishing steps for the removal of antibiotics from muncipal wastewater treatment plant effluent and biosolids | |
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 | |
J.N. Apell, S. Kliegman, C. Sola-Gutierrez, K. McNeill | Environ. Sci. Technol., 54, 22, 14432–14441, (2020) | Linking Triclosan’s Structural Features to Its Environmental Fate and Photoproducts | |
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 | |
Trimethoprim; 5-(3,4,5-Trimethoxybenzyl)pyrimidine-2,4-diamine; C14H18N4O3; CAS-No.: 738-70-5; PubChem: CID 5578 | |||
O. S. Keen, K. G. Linden | Environ. Sci. Technol., 47 (22), 13020-13030, (2013) | Degradation of Antibiotic Activity during UV/H2O2 Advanced Oxidation and Photolysis in Wastewater Effluent | |
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) | |
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 | |
Tylosin; C46H77NO17; CAS-No.: 1401-69-0; PubChem: CID 5280440 | |||
C.C. Ryan | Master-Thesis, University of Minnesota, (2009) | Photolysis and digestion as polishing steps for the removal of antibiotics from muncipal wastewater treatment plant effluent and biosolids | |
J. J. Werner, M. Chintapalli, R. A. Lundeen, K. H. Wammer, W. A. Arnold, K. McNeill | J. Agric. Food Chem., 55 (17), 7062-7068, (2007) | Environmental photochemistry of tylosin: efficient, reversible photoisomerization to a less-active isomer, followed by photolysis | |
Veratramine; C27H39NO2; CAS-No.: 60-70-8; PubChem: 6070 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids | |
Viramidine; taribavirin; ICN 3142; C8H13N5O4; CAS-No.: 119567-79-2; PubChem: CID 451448 | |||
J. Zhen Wu, H. Walker, Johnson Y.N. Lau, Z. Hong | Antimicrobial Agents and Chemotherapy, 47 (1), 426-431, (2003) | Activation and Deactivation of a Broad-Spectrum Antiviral Drug by a Single Enzyme: Adenosine Deaminase Catalyzes Two Consecutive Deamination Reactions | |
Warfarin; coumadin; coumafene; C19H16O4; CAS-No.: 81-81-2; PubChem: CID 54678486 | |||
Y. Ichimura | J. Pharm. Soc. Japan, 79 (8), 1079-1082, (1959) | Studies on Fluorescence of Coumarin Derivatives. I. Fluorometric Analysis of Warfarin | |
Xylopine; C18H17NO3; CAS-No.: 517-71-5; PubChem: CID 160503 | |||
A.W. Sangster, K.L. Stuart | Chem. Rev., 65 (1), 69-130, (1965) | Ultraviolet Spectra of Alkaloids |