- Double-bond stereo
3-[(4-Isopropylphenyl)amino]-2-[4-(3-oxo-3H-benzo[f]chromen-2-yl)-1,3-thiazol-2-yl]acrylonitrile
O=C4Oc5ccc1c(cccc1)c5\C=C4\c2nc(sc2)C(C#N)=CNc3ccc(cc3)C(C)C CopyCopied
InChI=1S/C28H21N3O2S/c1-17(2)18-7-10-21(11-8-18)30-15-20(14-29)27-31-25(16-34-27)24-13-23-22-6-4-3-5-19(22)9-12-26(23)33-28(24)32/h3-13,15-17,30H,1-2H3 CopyCopied
COUIVWWPRPGPJA-UHFFFAOYSA-N CopyCopied
Predicted data is generated using the ACD/Labs’ ACD/PhysChem Suite, for more information see their website.
Predicted data is generated using the US Environmental Protection Agency’s EPISuite™, for more information see their website.
Log Octanol-Water Partition Coef (SRC): Log Kow (KOWWIN v1.67 estimate) = 5.60 Boiling Pt, Melting Pt, Vapor Pressure Estimations (MPBPWIN v1.42): Boiling Pt (deg C): 678.78 (Adapted Stein & Brown method) Melting Pt (deg C): 296.11 (Mean or Weighted MP) VP(mm Hg,25 deg C): 5.88E-016 (Modified Grain method) Subcooled liquid VP: 6.16E-013 mm Hg (25 deg C, Mod-Grain method) Water Solubility Estimate from Log Kow (WSKOW v1.41): Water Solubility at 25 deg C (mg/L): 0.01094 log Kow used: 5.60 (estimated) no-melting pt equation used Water Sol Estimate from Fragments: Wat Sol (v1.01 est) = 0.015167 mg/L ECOSAR Class Program (ECOSAR v0.99h): Class(es) found: Acrylates Allylic/Vinyl Nitriles Henrys Law Constant (25 deg C) [HENRYWIN v3.10]: Bond Method : 5.70E-018 atm-m3/mole Group Method: Incomplete Henrys LC [VP/WSol estimate using EPI values]: 3.278E-014 atm-m3/mole Log Octanol-Air Partition Coefficient (25 deg C) [KOAWIN v1.10]: Log Kow used: 5.60 (KowWin est) Log Kaw used: -15.633 (HenryWin est) Log Koa (KOAWIN v1.10 estimate): 21.233 Log Koa (experimental database): None Probability of Rapid Biodegradation (BIOWIN v4.10): Biowin1 (Linear Model) : 0.8290 Biowin2 (Non-Linear Model) : 0.9785 Expert Survey Biodegradation Results: Biowin3 (Ultimate Survey Model): 2.0228 (months ) Biowin4 (Primary Survey Model) : 3.1658 (weeks ) MITI Biodegradation Probability: Biowin5 (MITI Linear Model) : -0.3154 Biowin6 (MITI Non-Linear Model): 0.0004 Anaerobic Biodegradation Probability: Biowin7 (Anaerobic Linear Model): -0.7072 Ready Biodegradability Prediction: NO Hydrocarbon Biodegradation (BioHCwin v1.01): Structure incompatible with current estimation method! Sorption to aerosols (25 Dec C)[AEROWIN v1.00]: Vapor pressure (liquid/subcooled): 8.21E-011 Pa (6.16E-013 mm Hg) Log Koa (Koawin est ): 21.233 Kp (particle/gas partition coef. (m3/ug)): Mackay model : 3.65E+004 Octanol/air (Koa) model: 4.2E+008 Fraction sorbed to airborne particulates (phi): Junge-Pankow model : 1 Mackay model : 1 Octanol/air (Koa) model: 1 Atmospheric Oxidation (25 deg C) [AopWin v1.92]: Hydroxyl Radicals Reaction: OVERALL OH Rate Constant = 111.2776 E-12 cm3/molecule-sec Half-Life = 0.096 Days (12-hr day; 1.5E6 OH/cm3) Half-Life = 1.153 Hrs Ozone Reaction: OVERALL Ozone Rate Constant = 25.304998 E-17 cm3/molecule-sec Half-Life = 0.045 Days (at 7E11 mol/cm3) Half-Life = 1.087 Hrs Fraction sorbed to airborne particulates (phi): 1 (Junge,Mackay) Note: the sorbed fraction may be resistant to atmospheric oxidation Soil Adsorption Coefficient (PCKOCWIN v1.66): Koc : 3.018E+006 Log Koc: 6.480 Aqueous Base/Acid-Catalyzed Hydrolysis (25 deg C) [HYDROWIN v1.67]: Rate constants can NOT be estimated for this structure! Bioaccumulation Estimates from Log Kow (BCFWIN v2.17): Log BCF from regression-based method = 3.613 (BCF = 4101) log Kow used: 5.60 (estimated) Volatilization from Water: Henry LC: 5.7E-018 atm-m3/mole (estimated by Bond SAR Method) Half-Life from Model River: 2.212E+014 hours (9.215E+012 days) Half-Life from Model Lake : 2.413E+015 hours (1.005E+014 days) Removal In Wastewater Treatment: Total removal: 89.42 percent Total biodegradation: 0.75 percent Total sludge adsorption: 88.67 percent Total to Air: 0.00 percent (using 10000 hr Bio P,A,S) Level III Fugacity Model: Mass Amount Half-Life Emissions (percent) (hr) (kg/hr) Air 5.5e-005 0.739 1000 Water 3.66 1.44e+003 1000 Soil 58.6 2.88e+003 1000 Sediment 37.8 1.3e+004 0 Persistence Time: 4.48e+003 hr
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