Decontamination of methyl parathion in activated nucleophilic systems based on carbamide peroxisolvate

Abstract: Вивчено нуклеофільне розщеплення метилпаратіона НОО-аніоном, що генерується з пероксисольвата карбаміду у присутності бікарбонату амонію та борної кислоти. Виявлена супернуклеофільна реакційна здатність аніону діпероксоборату  2 2 B(OH) (OOH). Показана можливість використання твердих джерел пероксиду водню в деконтамінаційних системах. Визначено величину α-ефекту (k HOO-/k НО-), яка вказує на аномально високу реакційну здатність HOO-аніона в розкладанні фосфорних ефірів Ключові слова: нуклеофільне заміщення, … Show more

“…The general disadvantages of the above methods of chemical detoxification are: toxicity of materials used, multi-component composition (some systems have two or three components) and low reactivity of decontaminators. It is possible to increase the rate of decomposition of OPC by the use of α-nucleophiles [3,4,20]. The typical representative of α-nucleophiles is peroxide НООanion and its derivativesperoxo-anions.…”

“…And it provides universality of action by nucleophilic and oxidative mechanisms and satisfies the basic standards and requirements of «green» technologies, the so-called «Decon Green» systems, as a decontaminating agent [3]. Researchers studied solid sources of hydrogen peroxide -peroxysolvates, in detail in relation to OPC [3,23]. Their use opens up new avenues for creation of effective decontamination systems of longterm storage.…”

“…We used cetylpyridinium chloride (CPCl) (Dishman Pharmaceuticals and Chemicals, India), methyl parathion and paraoxon (Sigma-Aldrich, Inc., Germany), KOH alkali (Lachema, Czech Republic), NH 4 HCO 3 ammonium hydroxycarbonate (JSC Bashkir Soda Company, RF), 1,4-dioxane (Alfa Aesar, Germany), B(OH) 3 boric acid (Shanghai Yixin Chemical Co., Ltd., PRC) without preliminary purification. We used montmorillonite modified by cations of thal-lium bis-hydroxyethyl methylammonium, Garamite 7303 and Cloisite Na + unmodified bentonite clay (BYK Additives & Instruments, UK) as nanoclays.…”

“…The main areas of application of OPC are: pesticides in agriculture (paraoxon (PO), methyl parathion (MP), diazinon, chlorophos, glyphosate); components of chemical weapons (sarin, soman, VX-gases); active pharmaceutical ingredients (armine, nibuphine) [3][4][5][6].…”

“…It planned the annihilation of existing reserves by 2007. In addition, there were directives [3,4] adopted, which regulate a range of pesticides of organophosphorus nature, and the procedure for their use, treatment, utilization, and safety measures.…”

Development of chemical methods for individual decontamination of organophosphorus compounds

“…The general disadvantages of the above methods of chemical detoxification are: toxicity of materials used, multi-component composition (some systems have two or three components) and low reactivity of decontaminators. It is possible to increase the rate of decomposition of OPC by the use of α-nucleophiles [3,4,20]. The typical representative of α-nucleophiles is peroxide НООanion and its derivativesperoxo-anions.…”

“…And it provides universality of action by nucleophilic and oxidative mechanisms and satisfies the basic standards and requirements of «green» technologies, the so-called «Decon Green» systems, as a decontaminating agent [3]. Researchers studied solid sources of hydrogen peroxide -peroxysolvates, in detail in relation to OPC [3,23]. Their use opens up new avenues for creation of effective decontamination systems of longterm storage.…”

“…We used cetylpyridinium chloride (CPCl) (Dishman Pharmaceuticals and Chemicals, India), methyl parathion and paraoxon (Sigma-Aldrich, Inc., Germany), KOH alkali (Lachema, Czech Republic), NH 4 HCO 3 ammonium hydroxycarbonate (JSC Bashkir Soda Company, RF), 1,4-dioxane (Alfa Aesar, Germany), B(OH) 3 boric acid (Shanghai Yixin Chemical Co., Ltd., PRC) without preliminary purification. We used montmorillonite modified by cations of thal-lium bis-hydroxyethyl methylammonium, Garamite 7303 and Cloisite Na + unmodified bentonite clay (BYK Additives & Instruments, UK) as nanoclays.…”

“…The main areas of application of OPC are: pesticides in agriculture (paraoxon (PO), methyl parathion (MP), diazinon, chlorophos, glyphosate); components of chemical weapons (sarin, soman, VX-gases); active pharmaceutical ingredients (armine, nibuphine) [3][4][5][6].…”

“…It planned the annihilation of existing reserves by 2007. In addition, there were directives [3,4] adopted, which regulate a range of pesticides of organophosphorus nature, and the procedure for their use, treatment, utilization, and safety measures.…”

Development of chemical methods for individual decontamination of organophosphorus compounds

Development of a decontamination system for decomposing N-(phosphonomethyl)glycine