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支持在铜(II)配合物Cu(dmp)₂²⁺(dmp = 2,9 - 二甲基 - 1,10 - 菲咯啉)的NO还原中存在内球机制的进一步证据。

Further evidence supporting an inner sphere mechanism in the NO reduction of the copper(II) complex Cu(dmp)2(2+) (dmp=2,9-dimethyl-1,10-phenanthroline).

作者信息

Lim Mark D, Capps Kenneth B, Karpishin Timothy B, Ford Peter C

机构信息

Department of Chemistry and Biochemistry, University of California, Santa Barbara, CA 93106, USA.

出版信息

Nitric Oxide. 2005 Jun;12(4):244-51. doi: 10.1016/j.niox.2005.03.006.

DOI:10.1016/j.niox.2005.03.006
PMID:15917217
Abstract

Described are further studies directed towards elucidating the mechanism of the nitric oxide reduction of the copper(II) model system, Cu(dmp)2(2+) (I, dmp=2,9-dimethyl-1,10-phenanthroline). The reaction of I with NO in methanol results in the formation of Cu(dmp)2+ (II) and methyl nitrite (CH3ONO), with a second order rate constant kNO=38.1 M-1 s-1 (298K). The activation parameters for this reaction in buffered aqueous medium were measured to be DeltaH(double dagger)=41.6 kJ/mol and DeltaS(double dagger)=-82.7 kJ/mol deg. The addition of azide ion (N3-) as a competing nucleophile results in a marked acceleration in the rate of the copper(II) reduction. Analysis of the kinetics for the NO reduction of the bulkier Cu(dpp)(2)2+ (IV, dpp=2,9-diphenyl-1,10-phenanthroline) and the stronger oxidant, Cu(NO2-dmp)2(2+) (V, NO2-dmp=5-nitro-2,9-dimethyl-1,10-phenanthroline), gave the second order rate constants kNO=21.2 and 29.3 M-1 s-1, respectively. These results argue against an outer sphere electron transfer pathway and support a mechanism where the first step involves the formation of a copper-nitrosyl (Cu(II)-NO or Cu(I)-NO+) adduct. This would be followed by the nucleophilic attack on the bound NO and the labilization of RONO to form the nitrite products and the cuprous complex.

摘要

本文描述了进一步的研究,旨在阐明铜(II)模型体系Cu(dmp)2(2+)(I,dmp = 2,9 - 二甲基 - 1,10 - 菲咯啉)中一氧化氮还原的机制。I与甲醇中的NO反应生成Cu(dmp)2+(II)和亚硝酸甲酯(CH3ONO),二级速率常数kNO = 38.1 M-1 s-1(298K)。在缓冲水性介质中该反应的活化参数经测定为ΔH‡ = 41.6 kJ/mol和ΔS‡ = -82.7 kJ/mol·K。添加叠氮离子(N3-)作为竞争亲核试剂会导致铜(II)还原速率显著加快。对体积更大的Cu(dpp)(2)2+(IV,dpp = 2,9 - 二苯基 - 1,10 - 菲咯啉)和更强氧化剂Cu(NO2 - dmp)2(2+)(V,NO2 - dmp = 5 - 硝基 - 2,9 - 二甲基 - 1,10 - 菲咯啉)的NO还原动力学分析,分别得到二级速率常数kNO = 21.2和29.3 M-1 s-1。这些结果反对外层电子转移途径,并支持一种机制,其中第一步涉及形成铜 - 亚硝酰(Cu(II)-NO或Cu(I)-NO+)加合物。接下来是对结合的NO进行亲核攻击以及使RONO不稳定以形成亚硝酸盐产物和亚铜配合物。

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