作为铁-铁氢化酶活性位点仿生模型的硒桥连二铁六羰基配合物。

Selenium-bridged diiron hexacarbonyl complexes as biomimetic models for the active site of Fe-Fe hydrogenases.

作者信息

Gao Shang, Fan Jiangli, Sun Shiguo, Peng Xiaojun, Zhao Xing, Hou Jun

机构信息

State Key Laboratory of Fine Chemicals, Dalian University of Technology, Zhongshan Road 158-40, Dalian, 116012, PR China.

出版信息

Dalton Trans. 2008 Apr 28(16):2128-35. doi: 10.1039/b717497g. Epub 2008 Feb 27.

DOI:10.1039/b717497g

PMID:18398538

Abstract

Three N-substituted selenium-bridged diiron complexes [{(mu-SeCH2)2NC6H4R}Fe2(CO)6] (R = 4-NO2, 7; R = H, 8; R = 4-CH3, 9) were firstly prepared as biomimetic models for the Fe-Fe hydrogenases active site. Models could be generated by the convergent reaction of [(mu-HSe)2Fe2(CO)6] (6) with N,N-bis(hydroxymethyl)-4-nitroaniline (1), N,N-bis(hydroxymethyl)aniline (2), and N,N-bis(hydroxymethyl)-4-methylaniline (3) in 46-52% yields. All the new complexes were characterized by IR, 1H and 13C NMR and HRMS spectra and their molecular structures were determined by single-crystal X-ray analysis. The redox properties of and their dithiolate analogues [{(mu-SCH2)2NC6H4R}Fe2(CO)6] (R = 4-NO2, 7s; R = H, 8s; R = 4-CH3, 9s ) were evaluated by cyclic voltammograms. The electrochemical proton reduction by and were investigated in the presence of p-toluenesulfonic acid (HOTs) to evaluate the influence of changing the coordinating S atoms of the bridging ligands to Se atoms on the electrocatalytic activity for proton reduction.

摘要

首次制备了三种N-取代的硒桥联二铁配合物[{(μ-SeCH2)2NC6H4R}Fe2(CO)6]（R = 4-NO2，7；R = H，8；R = 4-CH3，9）作为铁-铁氢化酶活性位点的仿生模型。通过[(μ-HSe)2Fe2(CO)6]（6）与N,N-双（羟甲基）-4-硝基苯胺（1）、N,N-双（羟甲基）苯胺（2）和N,N-双（羟甲基）-4-甲基苯胺（3）的收敛反应，以46-52%的产率生成模型。所有新配合物均通过红外光谱、1H和13C核磁共振光谱以及高分辨质谱进行表征，并通过单晶X射线分析确定其分子结构。通过循环伏安图评估了[{(μ-SCH2)2NC6H4R}Fe2(CO)6]（R = 4-NO2，7s；R = H，8s；R = 4-CH3，9s）及其二硫醇盐类似物的氧化还原性质。在对甲苯磺酸（HOTs）存在下，研究了[{(μ-SeCH2)2NC6H4R}Fe2(CO)6]和[{(μ-SCH2)2NC6H4R}Fe2(CO)6]的电化学质子还原，以评估将桥连配体的配位S原子换成Se原子对质子还原电催化活性的影响。

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作为铁-铁氢化酶活性位点仿生模型的硒桥连二铁六羰基配合物。

Selenium-bridged diiron hexacarbonyl complexes as biomimetic models for the active site of Fe-Fe hydrogenases.

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