321-54-0Relevant articles and documents
Diethyl phosphite production from phosphorothioate degradation with molybdenum peroxides and hydrogen peroxide in ethanol
Kuo, Louis Y.,Miao, Qianli,Bright, Emily,Inoue, Kei,Phillips, Owen,Seaman, Joe,Ng, Megan,Kang, Lauren
supporting information, p. 229 - 234 (2018/09/05)
A polystyrene-supported molybdate-peroxide polymer (Mo-Y(s)) destroys phosphorothioate pesticides of the form (ArO)P(=S)(OEt)2 in EtOH under mild oxidative (H2O2) conditions and produces a commodity organophosphate. This is the first report of a metal-based system that successfully degrades the “live” pesticides parathion, diazinon and coumaphos. In addition to the operational advantages of heterogeneous reaction chemistry, the Mo-Y(s) support degrades multiple equivalents of the pesticide in H2O2(aq). Of particular importance is the predominant production of diethyl phosphite, a commodity chemical, from diazinon degradation over Mo-Y(s) in EtOH; no toxic oxon is found. Coumaphos and parathion produce the corresponding oxon which have ΔH? (kcal/mol) of 15.4 (0.5) and 21.7 (0.8), respectively; these activation parameters are consistent with key observations found in the relative amount of coumoxon and paraoxon produced. Finally, a discrete molybdate-peroxide complex is presented as a possible solution model for this heterogeneous reaction.