氢键配位作用引发一氧化氮向笑气转化的一氧化氮极化作用。

Conversion of Nitric Oxide into Nitrous Oxide as Triggered by the Polarization of Coordinated NO by Hydrogen Bonding.

机构信息

Institute of Chemistry, Academia Sinica, Nankang, 11529, Taipei, Taiwan.

Department of Chemistry, National Tsing Hua University, Hsinchu, 30013, Taiwan.

出版信息

Angew Chem Int Ed Engl. 2016 Apr 18;55(17):5190-4. doi: 10.1002/anie.201512063. Epub 2016 Mar 22.

DOI:10.1002/anie.201512063

PMID:27003229

Abstract

Reduction of the {Co(NO)}(8) cobalt-nitrosyl N-confused porphyrin (NCP) [Co(CTPPMe)(NO)] (1) produced electron-rich {Co(NO)}(9) [Co(CTPPMe)(NO)][Co(Cp*)2 ] (2), which was necessary for NO-to-N2 O conversion. Complex 2 was NO-reduction-silent in neat THF, but was partially activated to a hydrogen-bonded species 2⋅⋅⋅MeOH in THF/MeOH (1:1, v/v). This species coupling with 2 transformed NO into N2 O, which was fragmented from an [N2 O2 ]-bridging intermediate. An intense IR peak at 1622 cm(-1) was ascribed to ν(NO) in an [N2 O2 ]-containing intermediate. Time-course ESI(-) mass spectra supported the presence of the dimeric [Co(NCP)]2 (N2 O2 ) intermediate. Five complete NO-to-N2 O conversion cycles were possible without significant decay in the amount of N2 O produced.

摘要

还原 {Co(NO)}(8) 钴-亚硝酰氮混淆卟啉 (NCP) [Co(CTPPMe)(NO)] (1) 生成富电子 {Co(NO)}(9) [Co(CTPPMe)(NO)][Co(Cp*)2 ] (2)，这是将 NO 转化为 N2 O 所必需的。在纯 THF 中，配合物 2 对 NO 还原是沉默的，但在 THF/MeOH (1:1，v/v) 中部分被激活为氢键物种 2⋅⋅⋅MeOH。这种物种与 2 耦合将 NO 转化为 N2 O，N2 O 从[N2 O2 ]-桥连中间体中断裂。在 1622 cm(-1) 处出现一个强的 IR 峰归因于[N2 O2 ]- 含中间体中 ν(NO)。时程 ESI(-) 质谱支持二聚体 [Co(NCP)]2 (N2 O2 ) 中间体的存在。在不显著降低 N2 O 产量的情况下，可以进行五次完整的 NO 到 N2 O 转化循环。

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氢键配位作用引发一氧化氮向笑气转化的一氧化氮极化作用。

Conversion of Nitric Oxide into Nitrous Oxide as Triggered by the Polarization of Coordinated NO by Hydrogen Bonding.

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