UV/Vis+ Photochemistry Database
Literature-Service: Pesticides/Herbicides/Fungicides
Substances: Acetamiprid,
Acifluorfen,
Alachlor, Ametryne, Amicarbazone,
Atraton,
Atrazine, Bromoxynil, Carbaryl,
Carbendazim,
Carbomethoxyfenitrothion,
Chlorantraniliprole,
Chlornitrofen,
Chloropicrin,
Chlorothalonil,
Chlorotoluron, Chloroxynil,
Chlorpyrifos, Clothianidin,
Cyanazine,
Cyflumetofen,
Cymoxanil, 2,4-D,
DDT,
DEET (see org. nitrogen compounds,
Deguelin,
Dehydrotoxicarol, Desaminometamitron,
Desethylatrazine, Desisopropylatrazine,
Desnitroimidacloprid, Diazinon,
Dicamba,
Dichlorvos, 3,3'-Diindolylmethane,
Dinotefuran,
Diuron,
EPN, Fenarimol, Fenitrothion, Fenpropidin,
Fenpyroximate, Fludioxonil, Flumetralin, Flutolanil,
Glyphosate, Hydroxyatrazine,
Hydroxydesethylatrazine, Hydroxypropazine,
Imidacloprid, Imidacloprid-urea,
Ioxynil, Isoproturon,
Mecoprop-P, Metamitron, Methoxychlor,
Metolachlor, MPA, 2-(2-naphthoxy)propionic acid, Naproanilide,
Nitenpyram, Oxyfluorfen, Parathion-methyl, Pendimethalin, Propanil, Propazine,
Pyrimethanil, Rotenone, S-ethyl dipropylcarbamothioate, Simazine,
Terbuthylazine, Thiacloprid,
Thiamethoxam,
Toxicarol, Triadimefon,
Triadimenol, Trifluralin, Triphenylzinnhydroxyd 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.
Substances unsorted, use your browser capabilities to search this site or use our Search Tool to search the database.
Authors
Journal/Source
Title/Paper
Data Sheet
Acetamiprid;
mospilan; C10H11ClN4; CAS-No.:
135410-20-7; PubChem: CID 213021
Z. Lu, J.K. Challis, C.S. Wong
Environ. Sci. Technol. Lett., 2 (7), 188-192, (2015)
Quantum yields for direct photolysis of neonicotinoid insecticides in water: Implications for exposure to non-target aquatic organisms
A. Rohrbacher, M.J. Ezell, V. Perraud, B.J. Finlayson-Pitts
ACS Earth and Space Chemistry, 5 (5), 1196-1209, (2021)
Probing Matrix Effects on the Heterogeneous Photochemistry of Neonicotinoid Pesticides, Dinotefuran and Nitenpyram
Acifluorfen;
5-[2-chloro-4-(trifluoromethyl)phenoxy]-2-nitrobenzoic acid; C14H7ClF3NO5;
CAS-No.: 50594-66-6; PubChem: CID 44073
E. Vulliet, C. Emmelin, L. Scrano, S.A. Bufo, J.M. Chovelon, P. Meallier, M.F. Grenier-Loustalot
J. Agric. Food Chem., 49, 10, 4795–4800, (2001)
Photochemical Degradation of Acifluorfen in Aqueous Solution
L. Scrano, S.A. Bufo, M. D’Auria, P. Meallier, A. Behechti, K.W. Shramm
J. Environ. Qual., 31, 268-274, (2002)
Photochemistry and Photoinduced Toxicity of Acifluorfen, a Diphenyl-Ether Herbicide
Alachlor;
C14H20ClNO2; CAS-No.:
V. Feigenbrugel, C. Loew, S. Le Calve, P. Mirabel
J. Photochemistry Photobiology A: Chemistry, 174, 76-81, (2005)
Near-UV molar absorptivities of acetone, alachlor, metolachlor, diazinon and dichlorvos in aqueous
solution
E. Reyes Perez, S. Le Calvé, P. Mirabel
J. Photochemistry Photobiology A: Chemistry, 193, 237-244, (2008)
Near-UV molar absorptivities of alachlor, mecroprop-p, pendimethalin, propanil and trifluralin in methanol
related data (quantum yield studies; photolysis studies, etc.)
C.C. Wong, W. Chu
Chemosphere, 50, 981-987, (2003)
The direct photolysis and photocatalytic degradation of alachlor at different
TiO2 and UV sources
Ametryne;
1,3,5-Triazine-2,4-diamine, N-ethyl-N'-(1-methylethyl)-6-(methylthio)-; C9H17N5S;
CAS-No.: 834-12-8
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65,
313 - 329, (1996)
Investigation of the photochemistry and quantum yields of triazines using polychromatic
irradiation and uv-spectroscopy as analytical tool
Amicarbazone; 4-amino-N-(tert-butyl)-3-isopropyl-5-oxo-4,5-dihydro-1H-1,2,4-triazole-1-carboxamide;
C10H19N5O2; CAS-No.:
129909-90-6; PubChem: CID 153920
A.L. de Castro Peixotoa, A.C. Silva Costa Teixeira
J. Photochem. Photobiol. A: Chem., 275, 54-64, (2014)
Degradation of amicarbazone herbicide by photochemical processes
Atraton;
2-methoxy-4-ethylamino-6-isopropylamino-1,3,5-triazine; C9H17N5O;
CAS-No.: 1610-17-9
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65, 313 - 329, (1996)
Investigation of the photochemistry and quantum yields of triazines using polychromatic irradiation and uv-spectroscopy as analytical tool
Atrazine; 1,3,5-triazine-2,4-diamine, 6-chloro-N-ethyl-N'-(1-methylethyl)-;
C8H14ClN5; CAS-No.: 1912-24-9; PubChem: CID 2256
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65, 313 - 329,
(1996)
Investigation of the photochemistry and quantum yields of triazines using polychromatic irradiation and uv-spectroscopy as analytical tool
A.J. Moreira, A.C. Borges, L.F.C. Gouvea, T.C.O. MacLeod, G.P.G. Freschi
J. Photochem. Photobiol. A: Chem., 347, 160-167, (2017)
The process of atrazine degradation, its mechanism, and the formation of metabolites using UV and UV/MW photolysis
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
B. Wu, W.A. Arnold, L. Ma
Water Research, 190, 116659, (2021)
Photolysis of atrazine: Role of triplet dissolved organic matter and limitations of sensitizers and quenchers
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
Bromoxynil;
benzonitrile, 3,5-dibromo-4-hydroxy-; C7H3Br2NO; CAS-No.: 1689-84-5
M. Millet, W.-U. Palm, C. Zetzsch
Ecotox. Environ. Safety, 41, 44-50, (1998)
Abiotic degradation of halobenzonitriles: investigation of the photolysis in solution
related data (quantum yield studies; photolysis studies, etc.)
P. Chelme-Ayala, M. Gamal El-Dina, D.W. Smith
Water Research, 44 (7), 2221-2228, (2010)
Degradation of bromoxynil and trifluralin in natural water by direct photolysis and UV plus H2O2 advanced oxidation process
Carbaryl; carbaril; sevin; naphthalen-1-yl methylcarbamate; C12H11NO2;
CAS-No.: 63-25-2; PubChem: CID 6129
V. Zare-Shahabadi, F. Abbasitabar, M. Akhond, M. Shamsipour
J. Braz. Chem. Soc., 24 (10), (2013)
Simultaneous determination of chlorpyrifos and carbaryl by spectrophotometry and boosting partial least squares
Carbendazim; methyl-2-benzimidazole
carbamate; MBC; C9H9N3O2;
CAS-No.: 10605-21-7; PubChem: 25429
A. Boudina, C. Emmelin, A. Baaliouamer, M.F. Grenier-Loustalot, J.M. Chovelon
Chemosphere, 50, 649-655, (2003)
Photochemical behaviour of carbendazim in aqueous solution
Carbomethoxyfenitrothion; 5-dimethoxyphosphinothioyloxy-2-nitrobenzoic acid; 3-carboxyfenitrothion;
C9H10NO7PS; CAS-No.: 54812-31-6;
PubChem: CID 41194
H.B. Wan, M.K. Wong, C.Y. Mok
J. Agric. Food Chem., 42 (11), 2625-2630, (1994)
Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
Chlorantraniliprole; DPX-E2Y45; rynaxpyr;
C18H14BrCl2N5O2; CAS-No.: 500008-45-7;
PubChem: CID 11271640
Z.C. Redman, C. Anastasio, R.S. Tjeerdema
Environ. Toxicol. Chem., 39 (10), 1929-1935, (2020)
Quantum Yield for the Aqueous Photochemical Degradation of Chlorantraniliprole and Simulation of Its Environmental Fate in a Model California Rice Field
Chlornitrofen; C12H6Cl3NO3;
CAS-No.: 1836-77-7
Y. Funakoshi, S. Kouda, T. Nampo, M. Sakakibara, S. Hibi
J. Pesticide Sci., 15, 55-62, (1990)
Photolysis rate of aqueous solution of naproanilide, 2-(2-naphthoxy)propionic acid and chlornitrofen exposed to
outdoor sunlight
Chloropicrin;
trichloronitromethane; CCl3NO2; CAS-No.: 76-06-2; PubChem: CID 6423
J.B. Polya
PhD Thesis, ETH Zurich, Switzerland, (1937)
Absorptionsspektrographische und chemische Untersuchungen über chemische Kampfstoffe
T.D. Allston, M.L. Fedyk, G.A. Takacs
Chem. Phys. Lett., 60, 97-101, (1978)
Photoabsorption spectra of gaseous
CF3NO, CCl3NO, and CCl3NO2
W.P.L. Carter, D. Luo, I.L. Malkina
Atmospheric Environment, Volume 31, No. 10, 1425-1439, (1997)
Investigation of the atmospheric reactions of chloropicrin
E.A. Wade, K.E. Reak, S.L. Li, S.M. Clegg, P. Zou, D.L. Osborn
J. Phys. Chem. A, 110 (13), 4405-4412, (2006)
Time-Dependent Infrared Emission Following Photodissociation of Nitromethane and Chloropicrin
T. Vera, A. Munoz, M. Ródenas, M. Vázquez, A. Mellouki, J. Treacy, I. Al Mulla, H. Sidebottom
Zeitschrift für Physikalische Chemie, 224 (7-8), 1039-1057, (2010)
Photolysis of Trichloronitromethane (Chloropicrin) under Atmospheric Conditions
related data (quantum yield studies; photolysis studies, etc.)
K.W. Moilanen, D.G. Crosby, J.R. Humphrey, J.W. Giles
Tetrahedron, 34 (23), 3345-3349, (1978)
Vapor-phase photodecomposition of chloropicrin
(trichloronitromethane)
E.A. Wade, K.E. Reak, B.F. Parsons, T.P. Clemes, K.A. Singmaster
Chem. Phys. Lett., 365, 473-479, (2002)
Photochemistry of chloropicrin in cryogenic matrices
Chlorothalonil;
tetrachloroisophthalonitrile; C8Cl4N2;
CAS-No.: 1897-45-6; PubChem: CID 15910
M. Millet, W.-U. Palm, C. Zetzsch
Ecotox. Environ. Safety, 41,
44-50, (1998)
Abiotic degradation of halobenzonitriles: investigation of the photolysis in solution
M.V. Cooke, M.B. Oviedo, W.J. Pelaez, G.A. Arguello
Chemosphere, 187, 156-162, (2017)
UV characterization and photodegradation mechanism of the fungicide chlorothalonil in the presence and absence of oxygen
Chlorotoluron;
C10H13ClN2O; CAS-No.: 15545-48-9
M. Millet, W.-U. Palm, C. Zetzsch
Ecotox. Environ. Safety 41 (1998) 44-50
Abiotic degradation of halobenzonitriles: investigation of the photolysis in solution
Chloroxynil;
M. Millet, W.-U. Palm, C. Zetzsch
Ecotox. Environ. Safety 41 (1998) 44-50
Abiotic degradation of halobenzonitriles: investigation of the photolysis in solution
Chlorpyrifos; O,O-diethyl
O-3,5,6-trichloropyridin-2-yl phosphorothioate; C9H11Cl3NO3PS;
CAS-No.: 2921-88-2; PubChem: 2730
H.B. Wan, M.K. Wong, C.Y. Mok
J. Agric. Food Chem., 42 (11), 2625-2630, (1994)
Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
V. Zare-Shahabadi, F. Abbasitabar, M. Akhond, M. Shamsipour
J. Braz. Chem. Soc., 24 (10), (2013)
Simultaneous determination of chlorpyrifos and carbaryl by spectrophotometry and boosting partial least squares
Clothianidin; celero; C6H8ClN5O2S; CAS-No.: 210880-92-5; PubChem: CID 213027
Z. Lu, J.K. Challis, C.S. Wong
Environ. Sci. Technol. Lett., 2 (7), 188-192, (2015)
Quantum yields for direct photolysis of neonicotinoid insecticides in water: Implications for exposure to non-target aquatic organisms
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
Cyanazine; bladex; fortrol; C9H13ClN6; CAS-No.: 21725-46-2; PubChem: CID 30773
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
Cyflumetofen; 2-methoxyethyl 2-(4-tert-butylphenyl)-2-cyano-3-oxo-; C24H24F3NO4; CAS-No.:
400882-07-7; PubChem: CID 11496052
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
Cymoxanil; 2-cyano-N-[(ethylamino) carbonyl]-2-(methoxyimino)acetamide
V. Feigenbrugel, S. Le Calvé, Ph. Mirabel
Spectrochimica Acta Part A: Mol. & Biomol. Spectroscopy, 63, 103-110, 2006
Molar absorptivities of 2,4-D, cymoxanil, fenpropidin, isoproturon and pyrimethanil in aqueous solution in the near-UV
2,4-D; 2-(2,4-dichlorophenoxy)acetic acid;
hedonal; trinoxol; C8H6Cl2O3;
CAS-No.: 94-75-7; PubChem: CID 1486
V. Feigenbrugel, S. Le Calvé, Ph. Mirabel
Spectrochimica Acta Part A: Mol. & Biomol. Spectroscopy, 63, 103-110,
(2006)
Molar absorptivities of 2,4-D, cymoxanil, fenpropidin, isoproturon and pyrimethanil in aqueous solution in the near-UV
related data (quantum yield studies; photolysis studies, etc.)
W. Chu
Chemosphere, 44 (5), 935-941, (2001)
Modeling the quantum yields of herbicide 2,4-D decay in
UV/H2O2 process
A.M. White, M.E. Nault, K.D. McMahon, C.K. Remucal
Environ. Sci. Technol., 56, 15, 10838–10848, (2022)
Synthesizing Laboratory and Field Experiments to Quantify Dominant Transformation Mechanisms of 2,4-Dichlorophenoxyacetic Acid (2,4-D) in Aquatic Environments
DDT; dichlorodiphenyltrichloroethane; C14H9Cl5;
CAS-No.: 50-29-3; PubChem: CID 3036
H.J. Liu, P.J. Silk, I. Unger
Can. J. Chem., 50(1), 55-60, (1972)
The Photodecomposition of an Analogue of DDT
Deguelin; (-)-deguelin; C23H22O6;
CAS-No.: 522-17-8; PubChem: CID 107935
Z.C. Redman, J. Wesolowski, P.L. Tomco
Environ. Sci. Technol., 55 (8), 4974-4983, (2021)
Photochemical Pathways of Rotenone and Deguelin Degradation: Implications for Rotenoid Attenuation and Persistence in High-Latitude Lakes
Dehydrotoxicarol; 6a,12a-dehydrotoxicarol;
C23H20O7; CAS-No.: 59086-93-0; PubChem: CID 5491616
C. Shang-yi, C. Feng-chuan
J. Chem. Phys., 16, 658-660, (1948)
Ultraviolet absorption spectrum of toxicarol and dehydrotoxicarol
Desaminometamitron; C10H9N3O; CAS-No.: 36993-94-9
W.-U. Palm, M. Millet, C. Zetzsch
Chemosphere, 35, 1117-1130,
(1997)
Photochemical reactions of metamitron
Desethylatrazine;
1,3,5-Triazine-2,4-diamine, 6-chloro-n-(1-methylethyl)-; C6H10ClN5;
CAS-No.: 6190-65-4; PubChem: CID 22563
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
A.J. Moreira, A.C. Borges, L.F.C. Gouvea, T.C.O. MacLeod, G.P.G. Freschi
J. Photochem. Photobiol. A: Chem., 347, 160-167, (2017)
The process of atrazine degradation, its mechanism, and the formation of metabolites using UV and UV/MW photolysis
Desisopropylatrazine; 1,3,5-Triazine-2,4-diamine, 6-chloro-n-ethyl-;
C5H8ClN5; CAS-No.: 1007-28-9;
PubChem: CID 13878
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
A.J. Moreira, A.C. Borges, L.F.C. Gouvea, T.C.O. MacLeod, G.P.G. Freschi
J. Photochem. Photobiol. A: Chem., 347, 160-167, (2017)
The process of atrazine degradation, its mechanism, and the formation of metabolites using UV and UV/MW photolysis
Desnitroimidacloprid; C9H11ClN4;
CAS-No.: 115970-17-7; PubChem: CID 10130527
K.Z. Aregahegn, D. Shemesh, R.B. Gerber, B.J. Finlayson-Pitts
Environ. Sci. Technol., 51 (5), 2660-2668, (2017)
Photochemistry of Thin Solid Films of the Neonicotinoid Imidacloprid on Surfaces
Diazinone; O,O-diethyl O-[4-methyl-6-(propan-2-yl)pyrimidin-2-yl] phosphorothioate;
C12H21N2O3PS;
CAS-No.: 333-41-5; PubChem: 3017
H.B. Wan, M.K. Wong, C.Y. Mok
J. Agric. Food Chem., 42 (11), 2625-2630, (1994)
Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
V. Feigenbrugel, C. Loew, S. Le Calve, P. Mirabel
J. Photochemistry and Photobiology A: Chemistry, 174, 76-81, (2005)
Near-UV molar absorptivities of acetone, alachlor, metolachlor, diazinon and dichlorvos in aqueous solution
Dicamba; 3,6-dichloro-2-methoxybenzoic acid; C8H6Cl2O3;
CAS-No.: 1918-00-9; PubChem: CID 3030
J.-P. Auger, F. Blachere, P. Boule, S. Garaudee, C. Guillard
Int. J. Photoenergy, (2000)
Photolysis of dicamba (3,6-dichloro-2-methoxybenzoic acid) in aqueous solution and dispersed, on solid supports
K. Gruber, B. Courteau, M. Bokhoree, E. McMahon, J. Kotz, A. Nienow
Environ. Sci.: Processes Impacts, 23, 786, (2021)
Photolysis of the herbicide dicamba in aqueous solutions and on corn (Zea mays) epicuticular waxes
Dichlorvos;
dimethyl-2,2-dichlorovinyl phosphate; C4H7Cl2O4P;
CAS-No.: 62-73-7
V. Feigenbrugel, C. Loew, S. Le Calve, P. Mirabel
J. Photochemistry and Photobiology A: Chemistry, 174, 76-81, (2005)
Near-UV molar absorptivities of acetone, alachlor, metolachlor, diazinon and dichlorvos in aqueous
solution
3,3'-Diindolylmethane; DIM;
3,3'-methanediylbis(1H-indole); C17H14N2;
CAS-No.: 1968-05-4; PubChem: CID 3071
M. Koshioka, M. Katagiri, J. Kanazawa, Y. Uesugi
J. Pesticide Science, 11 (4), 619-621, (1986)
Photodegradation of Antifungal 3,3-Diindolylmethane by Xenon Lamp
Dinotefuran; scorpion; C7H14N4O3;
CAS-No.: 165252-70-0; PubChem: CID 197701
A. Rohrbacher, M.J. Ezell, V. Perraud, B.J. Finlayson-Pitts
ACS Earth and Space Chemistry, 5 (5), 1196-1209, (2021)
Probing Matrix Effects on the Heterogeneous Photochemistry of Neonicotinoid Pesticides, Dinotefuran and Nitenpyram
Diuron; DCMU; urea,
3-(3,4-dichlorophenyl)-1,1-dimethyl-; C9H10Cl2N2O;
CAS-No.: 330-54-1
K. Djebbar, T. Sehili, P. Mazellier, J. De Laat
Environmental Technology, 24 (4), 479 - 489, (2003)
Phototransformation of diuron in aqueous solution by UV irradiation in the absence and in the presence of
H2O2
EPN; O-ethyl O-(4-nitrophenyl)
phenylphosphonothioate; CAS-No.: 2104-64-5;
PubChem: 16421
H.B. Wan, M.K. Wong, C.Y. Mok
J. Agric. Food Chem., 42 (11), 2625-2630, (1994)
Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
Fenarimol; (RS)-2,4′-dichloro-α-(pyrimidin-5-yl)benzhydryl alcohol;
C17H12Cl2N2O; CAS-No.: 60168-88-9
M. Conceicao, D.A. Mateus, Abilio M. da Silva, Hugh D. Burrows
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 53, 2679-2684, (1997)
UV-visible absorption spectra and luminescence of the pesticide fenarimol
Fenitrothion; O,O-Dimethyl
O-(3-methyl-4-nitrophenyl) phosphorothioate; C9H12NO5PS;
CAS-No.: 122-14-5; PubChem: 31200
H.B. Wan, M.K. Wong, C.Y. Mok
J. Agric. Food Chem., 42 (11), 2625-2630, (1994)
Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
J. Weber, R. Kurkova, J. Klanova, P. Klan, C.J. Halsall
Environmental Pollution, 157, 3308-3313, (2009)
Photolytic degradation of methyl-parathion and fenitrothion in ice and water: Implications for cold environments
Fenpropidin; 1-[(RS)-3-(4-tert-butylphenyl)-2-methylpropyl]piperidine;
; C19H31N; CAS-No.: 67306-00-7
V. Feigenbrugel, S. Le Calvé, Ph. Mirabel
Spectrochimica Acta Part A: Mol. & Biomol. Spectroscopy, 63, 103-110, 2006
Molar absorptivities of 2,4-D, cymoxanil, fenpropidin, isoproturon and pyrimethanil in aqueous solution in the near-UV
Fenpyroximate; 2-methyl-2-propanyl
4-[({(E)-[(1,3-dimethyl-5-phenoxy-1H-pyrazol-4-yl)methylene]amino}oxy)methyl]benzoate;
C24H27N3O4; CAS-No.: 134098-61-6
M.B. Swanson, W.A. Ivancic, A.M. Saxena, J.D. Allton, G.K. O'Brien, T. Suzuki, H. Nishizawa, M. Nokata
J. Agric. Food Chem., 43 (2), 513-518, (1995)
Direct Photolysis of Fenpyroximate in a Buffered Aqueous Solution under a Xenon Lamp
Fludioxonil;
C12H6F2N2O2; CAS-No.:
131341-86-1; PubChem: CID 86398
J.N. Apell, N.C. Pflug, K. McNeill
Environ. Sci. Technol., 53, 19, 11240–11250, (2019)
Photodegradation of fludioxonil and other pyrroles: The importance of indirect photodegradation for understanding environmental fate and photoproduct formation
Flumetralin; 2-chloro-N-[2,6-dinitro-4-(trifluoromethyl)phenyl]-N-ethyl-6-fluorobenzenemethanamine;
C16H12ClF4N3O4; CAS-No.: 62924-70-3; PubChem: CID 62210
S. Leslie, R.H. Moseley
EFSA Journal, 12 (12), 3912, (2014)
Flumetralin - Annex B: B.2 Physical and chemical properties
Flutolanil; moncut; folistar; C17H16F3NO2; CAS-No.:
66332-96-5; PubChem: CID 47898
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
Glyphosate; N-(phosphonomethyl)glycin; C3H8NO5P; CAS-No.: 1071-83-6
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Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
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The process of atrazine degradation, its mechanism, and the formation of metabolites using UV and UV/MW photolysis
Hydroxydesethylatrazine;
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K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
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J. Photochem. Photobiol. A: Chem., 347, 160-167, (2017)
The process of atrazine degradation, its mechanism, and the formation of metabolites using UV and UV/MW photolysis
Hydroxypropazine; 1,3,5-Triazin-2(1H)-one,
4,6-bis((1-methylethyl)amino)-; C9H17N5O;
CAS-No.: 7374-53-0
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
Imidacloprid; C9H10ClN5O2; CAS-No.:
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J. Env. Science Health B, 39 (5-6), 737-746, (2004)
Simultaneous Determination of Imidacloprid, Thiacloprid, and Thiamethoxam in Soil and Water by High-performance Liquid Chromatography with Diode-array Detection
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Reactivity of hydroxyl radicals with neonicotinoid insecticides: mechanism and changes in toxicity
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Environ. Sci. Technol. Lett., 2 (7), 188-192, (2015)
Quantum Yields for Direct Photolysis of Neonicotinoid Insecticides in Water: Implications for Exposure to Nontarget Aquatic Organisms
K.Z. Aregahegn, D. Shemesh, R.B. Gerber, B.J. Finlayson-Pitts
Environ. Sci. Technol., 51 (5), 2660-2668, (2017)
Photochemistry of Thin Solid Films of the Neonicotinoid Imidacloprid on Surfaces
Imidacloprid-urea; C9H10ClN3O;
CAS-No.: 120868-66-8
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Environ. Sci. Technol., 51 (5), 2660-2668, (2017)
Photochemistry of Thin Solid Films of the Neonicotinoid Imidacloprid on Surfaces
Ioxynil; benzonitrile, 4-hydroxy-3,5-diiodo-;
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M. Millet, W.-U. Palm, C. Zetzsch
Ecotox. Environ. Safety 41 (1998) 44-50
Abiotic degradation of halobenzonitriles: investigation of the photolysis in solution
Isoproturon; urea,
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Investigation of the photochemistry of urea herbicides
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Molar absorptivities of 2,4-D, cymoxanil, fenpropidin, isoproturon and pyrimethanil in aqueous solution in the near-UV
Mecoprop-P; C10H11ClO3;
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Metamitron;
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Photochemical reactions of metamitron
Methoxychlor; dimethoxy-DDT;
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The Photodecomposition of an Analogue of DDT
Metolachlor;
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Near-UV molar absorptivities of acetone, alachlor, metolachlor, diazinon and dichlorvos in aqueous
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related data (quantum yield studies;
photolysis studies, etc.)
C. Wu, H. Shemer, K.G. Linden
J. Agric. Food Chem., 55, 10, 4059-4065, (2007)
Photodegradation of Metolachlor Applying UV and UV/H2O2
MPA;
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CAS-No.:
H.J. Liu, P.J. Silk, I. Unger
Can. J. Chem., 50(1), 55-60, (1972)
The Photodecomposition of an Analogue of DDT
2-(2-naphthoxy)propionic acid; 2-naphthalen-2-yloxypropanoic acid;
NOP; C13H12O3; CAS-No.: 10470-82-3
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Photolysis rate of aqueous solution of naproanilide, 2-(2-naphthoxy)propionic acid and chlornitrofen exposed to
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Naproanilide;
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Y. Funakoshi, T. Nampo, M. Enemoto
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Photolysis Rate of the Herbicide Naproanilide Exposed to Sunlight in Water
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J. Pesticide Science, 15, 55-62, (1990)
Photolysis rate of aqueous solution of naproanilide, 2-(2-naphthoxy)propionic acid and chlornitrofen exposed to
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Nitenpyram; C11H15ClN4O2; CAS-No.:
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Environ. Sci. Technol., 52 (5), 2760-2767, (2018)
Photochemistry of Solid Films of the Neonicotinoid Nitenpyram
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ACS Earth Space Chem., 3, 9, 2063–2075, (2019)
Experimental and Theoretical Studies of the Environmental Sensitivity of the Absorption Spectra and Photochemistry of Nitenpyram and Analogs
Oxyfluorfen;
2-chloro-1-(3-ethoxy-4-nitrophenoxy)-4-(trifluoromethyl)benzene; C15H11ClF3NO4;
CAS-No.: 42874-03-3
L. Scrano, S.A. Bufo, M. D'Auria, C. Emmelin
J. Photochem. Photobiol. A: Chem., 129, 65-70, (1999)
Photochemical behaviour of oxyfluorfen: a diphenyl-ether herbicide
Parathion-methyl; methylparathion;
o,o-dimethyl o-(p-nitrophenyl) thionophosphate; C8H10NO5PS;
CAS-No.: 298-00-0
H.B. Wan, M.K. Wong, C.Y. Mok
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Comparative Study on the Quantum Yields of Direct Photolysis of Organophosphorus Pesticides in Aqueous Solution
J. Weber, R. Kurkova, J. Klanova, P. Klan, C.J. Halsall
Environmental Pollution, 157, 3308-3313, (2009)
Photolytic degradation of methyl-parathion and fenitrothion in ice and water: Implications for cold environments
related data (quantum yield studies;
photolysis studies, etc.)
M. Segal-Rosenheimer, Y. Dubowski
J. Photochem.
Photobiol. A: Chem., 209, (2–3), 193–202, (2010)
Photolysis of methyl-parathion thin films: products, kinetics and quantum yields under different atmospheric conditions
Pendimethalin; C13H19N3O4;
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J. Photochem.
Photobiol. A: Chem., 193, 237-244, (2008)
Near-UV molar absorptivities of alachlor, mecroprop-p, pendimethalin, propanil and trifluralin in methanol
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J. Agric. Food Chem., 62 (44), 10638-10645, (2014)
Catalytic Strategy for Efficient Degradation of Nitroaromatic Pesticides by Using Gold Nanoflower
Propanil;
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E. Reyes Perez, S. Le Calvé,
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J. Photochem.
Photobiol. A: Chem., 193, 237-244, (2008)
Near-UV molar absorptivities of alachlor, mecroprop-p, pendimethalin, propanil and trifluralin in methanol
Propazine; 1,3,5-triazine-2,4-diamine, 6-chloro-N,N'-bis(1-methylethyl)-; C9H16ClN5;
CAS-No.: 139-40-2
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation
of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65, 313 - 329,
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Investigation of the photochemistry and quantum yields of triazines using polychromatic irradiation and uv-spectroscopy as analytical tool
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
Pyrimethanil; 4,6-dimethyl-N-phenyl-2-pyrimidinamine
V. Feigenbrugel, S. Le Calvé, Ph. Mirabel
Spectrochimica Acta Part A: Mol. & Biomol. Spectroscopy, 63, 103-110, 2006
Molar absorptivities of 2,4-D, cymoxanil, fenpropidin, isoproturon and pyrimethanil in aqueous solution in the near-UV
(298 K)
Rotenone; tubatoxin, paraderil; C23H22O6; CAS-No.:
83-79-4; PubChem: CID 6758
C. Shang-yi, C. Feng-chuan
J. Chem. Phys., 16, 658-660, (1948)
Ultraviolet absorption spectrum of toxicarol and dehydrotoxicarol
Z.C. Redman, J. Wesolowski, P.L. Tomco
Environ. Sci. Technol., 55 (8), 4974-4983, (2021)
Photochemical Pathways of Rotenone and Deguelin Degradation: Implications for Rotenoid Attenuation and Persistence in High-Latitude Lakes
S-ethyl dipropylcarbamothioate; EPTC; C9H19NOS;
CAS-No.: 759-94-4
E. Reyes-Péreza, S. Le Calvé, P. Mirabel
Atmospheric Environment, 42, 7940-7946, (2008)
UV absorption spectrum and Henry's law constant of EPTC
Simazine;
1,3,5-triazine-2,4-diamine, 6-chloro-N,N'-diethyl-; C7H12ClN5; CAS-No.: 122-34-9; PubChem: CID 5216
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65, 313-329,
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Investigation of the photochemistry and quantum yields of triazines using polychromatic irradiation and uv-spectroscopy as analytical tool
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
Terbuthylazine;
1,3,5-triazine-2,4-diamine, 6-chloro-N-(1,1-dimethylethyl)-N'-ethyl-; C9H16ClN5;
CAS-No.: 5915-41-3
K. Nick, H.F. Schoeler, G. Mark, T. Soeylemez, M.S. Akhlaq, H.-P. Schuchmann, C. von Sonntag
J. Water SRT - Aqua, 41 (2), 82-87, (1992)
Degradation of some triazine herbicides by uv radiation such as used in the uv disinfection of drinking water
W.-U. Palm, C. Zetzsch
Intern. J. Environ. Anal. Chem. 65, 313 - 329, (1996)
Investigation of the photochemistry and quantum yields of triazines using polychromatic irradiation and uv-spectroscopy as analytical tool, Solvent: acetonitrile
Thiacloprid, calypso; C10H9ClN4S; CAS-No.:
111988-49-9; PubChem: CID 115224
G.-G. Ying, R.S. Kookana
J. Env. Science Health B, 39 (5-6), 737-746, (2004)
Simultaneous Determination of Imidacloprid, Thiacloprid, and Thiamethoxam in Soil and Water by High-performance Liquid Chromatography with Diode-array Detection
Z. Lu, J.K. Challis, C.S. Wong
Environ. Sci. Technol. Lett., 2 (7), 188-192, (2015)
Quantum yields for direct photolysis of neonicotinoid insecticides in water: Implications for exposure to non-target aquatic organisms
Thiamethoxam; C8H10ClN5O3S; CAS-No.:
153719-23-4; PubChem: CID 107646
G.-G. Ying, R.S. Kookana
J. Env. Science Health B, 39 (5-6), 737-746, (2004)
Simultaneous Determination of Imidacloprid, Thiacloprid, and Thiamethoxam in Soil and Water by High-performance Liquid Chromatography with Diode-array Detection
Z. Lu, J.K. Challis, C.S. Wong
Environ. Sci. Technol. Lett., 2 (7), 188-192, (2015)
Quantum yields for direct photolysis of neonicotinoid insecticides in water: Implications for exposure to non-target aquatic organisms
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
Toxicarol; alpha-toxicarol; 5-hydroxydequelin;
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C. Shang-yi, C. Feng-chuan
J. Chem. Phys., 16, 658-660, (1948)
Ultraviolet absorption spectrum of toxicarol and dehydrotoxicarol
Triadimefon; C14H16ClN3O2; CAS-No.: 43121-43-3
J.P. Da Silva, A.M. Da Silva, I.V. Khmelinskii, J.M.G. Martinho, L.F. Vieira Ferreira
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Photophysics
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related data (quantum yield studies;
photolysis studies, etc.)
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J. Photochem. Photobiol. A: Chem., 154, 293-298, (2003)
Aqueous
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Triadimenol; C14H18ClN3O2;
CAS-No.: 55219-65-3
J.P. Da Silva, A.M. Da Silva, I.V. Khmelinskii, J.M.G. Martinho, L.F. Vieira Ferreira
J. Photochem. Photobiol. A: Chem., 142, 31-37, (2001)
Photophysics
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related data (quantum yield studies;
photolysis studies, etc.)
J.P. Da Silva, L.F. Vieira Ferreira, A.M. Da Silva
J. Photochem. Photobiol. A: Chem., 154, 293-298, (2003)
Aqueous
photochemistry of pesticides triadimefon and triadimenol
Trifluralin; treflan; agreflan; C13H16F3N3O4;
CAS-No.: 1582-09-8; PubChem: CID 5569
W.M. Draper
Chemosphere, 14 (9), 1195-1203, (1985)
Determination of wavelength-averaged, near UV quantum yields for environmental chemicals
M.G. Sarmiento Tagle, M.L. Salum, E.I. Bujan, G.A. Arguello
Photochem. Photobiol. Sci., 4, 869-875, (2005)
Time evolution and competing pathways in photodegradation of trifluralin and three of its major degradation products
E. Reyes Perez, S. Le Calvé, P. Mirabel
J. Photochemistry Photobiology A: Chemistry, 193, 237-244, (2008)
Near-UV molar absorptivities of alachlor, mecroprop-p, pendimethalin, propanil and trifluralin in methanol
related data (quantum yield studies;
photolysis studies, etc.)
P. Chelme-Ayala, M. Gamal El-Dina, D. W. Smith
Water Research, 44 (7), 2221-2228, (2010)
Degradation of
bromoxynil and trifluralin in natural water by direct photolysis and UV
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Triphenylzinnhydroxyd
W.-U. Palm, R. Kopetzky, W. Ruck
J. Photochem. Photobiol. A. 156,
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OH-radical reactivity and direct photolysis of triphenyltin hydroxide in aqueous solution