Iron hydrogenase active site mimics in supramolecular systems aiming for light-driven hydrogen production

Licheng Sun; Bjoern Akermark; Sascha Ott

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Iron hydrogenase active site mimics in supramolecular systems aiming for light-driven hydrogen production

机译：旨在光驱动制氢的超分子系统中的铁氢化酶活性位点模拟

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Models of the iron hydrogenase active site [(μ-DT)Fe_2(CO)_6] (DT: dithiolate) have been synthesized where the dithiolate co-factor bears a functional group to allow for their incorporation into supramolecular systems. Covalently linked to ruthenium(II) polypyridyl photosensitizers, the resulting ruthenium-diiron complexes represent the first members of a new class of dyads designed to promote the light-driven production of hydrogen. The functionalized diiron complexes have been characterized by X-ray crystallography. The redox properties of all complexes were investigated by cyclic voltammetry and the interactions between the photo-excited ruthenium moiety and the diiron unit in these dyads were evaluated by time-resolved spectroscopy.

机译：已经合成了铁氢化酶活性位点[（μ-DT）Fe_2（CO）_6]（DT：二硫醇盐）的模型，其中二硫醇盐辅因子带有一个官能团，允许它们掺入超分子系统中。与钌（II）聚吡啶基光敏剂共价连接，所得钌-二铁配合物代表旨在促进光驱动氢产生的新型二类化合物的第一批成员。通过X射线晶体学表征了官能化的二铁配合物。通过循环伏安法研究了所有配合物的氧化还原特性，并通过时间分辨光谱法评估了这些二重化合物中光激发钌部分与二铁单元之间的相互作用。

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来源
《Coordination chemistry reviews》 |2005年第16期|p.1653-1663|共11页
作者
Licheng Sun; Bjoern Akermark; Sascha Ott;
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作者单位

KTH Chemistry, Organic Chemistry, Royal Institute of Technology, Stockholm, Sweden;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类无机化学;
关键词
bioinorganic chemistry; electron transfer; enzyme models; iron hydrogenase; ruthenium;

机译：生物无机化学;电子转移;酶模型;铁氢化酶;钌;

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1. An azadithiolate bridged Fe2S2 complex as active site model of FeFe-hydrogenase covalently linked to a Re(CO)3(bpy)(py)photosensitizer aiming for light-driven hydrogen production [J] . Weiming Gao, Jianhui Liu, Weina Jiang Comptes Rendus Chimie . 2008,第8期

机译：阿扎二硫代磺酸盐桥接的Fe2S2络合物作为FeFe加氢酶的活性位点模型共价连接到Re（CO）3（bpy）（py）光敏剂，旨在光驱动制氢
2. Approaches to efficient molecular catalyst systems for photochemical H _2 production using [FeFe]-hydrogenase active site mimics [J] . Wang M., Chen L., Li X., Dalton transactions: An international journal of inorganic chemistry . 2011,第48期

机译：[FeFe]-加氢酶活性位点模拟物用于光化学生产H _2的高效分子催化剂系统的方法
3. A Silicon-Heteroaromatic System as Photosensitizer for Light-Driven Hydrogen Production by Hydrogenase Mimics [J] . Roman Goy, Ulf-Peter Apfel, Catherine Elleouet, European journal of inorganic chemistry . 2013,第25期

机译：硅-杂芳族体系作为光敏剂，用于通过加氢酶模拟物产生光驱动制氢
4. BIOMIMETIC MODELS OF THE IRON HYDROGENASE ACTIVE SITE AS PROTON REDUCTION CATALYSTS IN LIGHT-DRIVEN SUPRAMOLECULAR SYSTEMS [C] . Sascha Ott, Reiner Lomoth, Bjorn Akermark, International Congress of Photosynthesis . 2005

机译：铁氢酶活性位点的仿生模型作为光驱动超分子系统中的质子还原催化剂
5. Hydrogen production from model complexes of the [iron-iron]- and [nickel-iron]-hydrogenase active sites [D] . Barton, Bryan E. 2010

机译：由[铁-铁]-和[镍-铁]-氢化酶活性位点的模型配合物生产氢
6. Crystal structure of NiFe(CO)5tris(pyridylmethyl)azaphosphatrane: a synthetic mimic of the NiFe hydrogenase active site incorporating a pendant pyridine base [O] . Natwara Sutthirat, Joseph W. Ziller, Jenny Y. Yang, 2019

机译：NiFe（CO）5 三（吡啶基甲基基）氮杂膦a的晶体结构：NiFe氢化酶活性位点的合成模拟物含吡啶侧基
7. Photocatalytic Hydrogen Production Using Models of the Iron-Iron Hydrogenase Active Site Dispersed in Micellar Solution [O] . Orain Christophe, Quentel François, Gloaguen Frederic 2014

机译：使用胶束溶液中分散的铁-铁氢酶活性位点的模型光催化制氢

Iron hydrogenase active site mimics in supramolecular systems aiming for light-driven hydrogen production

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