双金属协同作用对 O-O 键形成的影响：铜多吡啶配合物作为水氧化催化剂。

Bimetallic cooperative effect on O-O bond formation: copper polypyridyl complexes as water oxidation catalyst.

机构信息

Center of Basic Molecular Science (CBMS), Department of Chemistry, Tsinghua University, Beijing, 100084, China.

出版信息

Dalton Trans. 2018 Jul 3;47(26):8670-8675. doi: 10.1039/c8dt01675e.

Abstract

The performance of water oxidation catalysis by a Cu-based polypyridyl complex, [CuII(TPA)(OH2)]2+ (1H; TPA = tris-(pyridylmethyl)amine), has been investigated in neutral aqueous solution by electrochemical methods. Compared with our previously reported binuclear catalyst, [(BPMAN)(CuII)2(μ-OH)]3+ (2; BPMAN = 2,7-[bis(2-pyridylmethyl)aminomethyl]-1,8-naphthyridine), mononuclear catalyst 1 has a higher overpotential and lower catalytic activity toward water oxidation under the same conditions. Experimental results revealed that the O-O bond formation occurred via a water nucleophilic attack mechanism in which formal CuIV(O) is proposed as a key intermediate for the mononuclear catalyst 1H. In contrast, for the binuclear catalyst, O-O bond formation was facilitated by bimetallic cooperation between the two CuIII centers.

摘要

电化学方法研究了铜基多吡啶配合物[CuII(TPA)(OH2)]2+（1H；TPA = 三（吡啶甲基）胺）在中性水溶液中对水氧化催化的性能。与我们之前报道的双核催化剂[(BPMAN)(CuII)2(μ-OH)]3+（2；BPMAN = 2,7-[双（2-吡啶甲基）氨甲基]-1,8-萘啶）相比，单核催化剂 1 在相同条件下对水氧化具有更高的过电位和更低的催化活性。实验结果表明，O-O 键的形成通过水亲核进攻机制发生，其中形式 CuIV(O)被提出作为单核催化剂 1H 的关键中间体。相比之下，对于双核催化剂，两个 CuIII 中心之间的双金属协同作用促进了 O-O 键的形成。

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双金属协同作用对 O-O 键形成的影响：铜多吡啶配合物作为水氧化催化剂。

Bimetallic cooperative effect on O-O bond formation: copper polypyridyl complexes as water oxidation catalyst.

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