MIPdatabase
Authors: Zheng SJ, Pan JP, Wang JH, Liu S, Zhou TT, Wang L, Jia HT, Chen ZM, Peng Q, Guo TY
Article Title: Ag(I) Pyridine-Amidoxime Complex as the Catalysis Activity Domain for the Rapid Hydrolysis of Organothiophosphate-Based Nerve Agents: Mechanistic Evaluation and Application.
Publication date: 2021
Journal: ACS Applied Materials & Interfaces
Volume: 13
Issue: (29)
Page numbers: 34428-34437.
DOI: 10.1021/acsami.1c09003
Abstract: Two novel Ag(I) complexes containing synergistic pyridine and amidoxime ligands (Ag-DPAAO and Ag-PAAO) were first designed as complex monomers. Taking advantage of the molecular imprinting technique and solvothermal method, molecular imprinted porous cross-linked polymers (MIPCPs) were developed as a robust platform for the first time to incorporate Ag-PAAO into a polymer material as a recyclable catalyst. Advantageously, the observed pseudo first-order rate constant (kobs) of MIPCP-Ag-PAAO-20% for ethyl-parathion (EP) hydrolysis is about 1.2 × 10^4-fold higher than that of self-hydrolysis (30 ℃ , pH = 9). Furthermore, the reaction mechanism of the MIPCP-containing Ag-PAAO-catalyzed organothiophosphate was analyzed in detail using density functional theory and experimental spectra, indicating that the amidoxime can display dual roles for both the key coordination with the silver ion and nucleophilic attack to weaken the P-OAr bond in the catalytic active site
Template and target information: organothiophosphate, ethyl-parathion, EP
Author keywords: organothiophosphate catalytic hydrolysis, Ag(I) pyridylamine oxime complex, molecular imprinting polymer catalyst, Nerve agent, DFT
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