表面促进的钌-联吡啶配位低聚物的演化提高了水氧化分子阳极的效率。

Surface-Promoted Evolution of Ru-bda Coordination Oligomers Boosts the Efficiency of Water Oxidation Molecular Anodes.

作者信息

Gil-Sepulcre Marcos, Lindner Joachim O, Schindler Dorothee, Velasco Lucía, Moonshiram Dooshaye, Rüdiger Olaf, DeBeer Serena, Stepanenko Vladimir, Solano Eduardo, Würthner Frank, Llobet Antoni

机构信息

Institute of Chemical Research of Catalonia (ICIQ). Barcelona Institute of Science and Technology (BIST), Avenida Països Catalans 16, 43007 Tarragona, Spain.

Center for Nanosystems Chemistry, Theodor-Boveri-Weg, 97074 Würzburg, Germany.

出版信息

J Am Chem Soc. 2021 Aug 4;143(30):11651-11661. doi: 10.1021/jacs.1c04738. Epub 2021 Jul 22.

DOI:10.1021/jacs.1c04738

PMID:34293261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8343522/

Abstract

A new Ru oligomer of formula {Ru(bda-κ-NO)(4,4'-bpy)}, (bda is [2,2'-bipyridine]-6,6'-dicarboxylate and 4,4'-bpy is 4,4'-bipyridine), was synthesized and thoroughly characterized with spectroscopic, X-ray, and electrochemical techniques. This oligomer exhibits strong affinity for graphitic materials through CH-π interactions and thus easily anchors on multiwalled carbon nanotubes (CNT), generating the molecular hybrid material . The latter acts as a water oxidation catalyst and converts to a new species, , during the electrochemical oxygen evolution process involving solvation and ligand reorganization facilitated by the interactions of molecular Ru catalyst and the surface. This heterogeneous system has been shown to be a powerful and robust molecular hybrid anode for electrocatalytic water oxidation into molecular oxygen, achieving current densities in the range of 200 mA/cm at pH 7 under an applied potential of 1.45 V vs NHE. The remarkable long-term stability of this hybrid material during turnover is rationalized based on the supramolecular interaction of the catalyst with the graphitic surface.

摘要

一种新的化学式为{Ru(bda-κ-NO)(4,4'-bpy)}的钌低聚物（bda为[2,2'-联吡啶]-6,6'-二羧酸酯，4,4'-bpy为4,4'-联吡啶）被合成出来，并通过光谱、X射线和电化学技术进行了全面表征。该低聚物通过CH-π相互作用对石墨材料表现出强烈的亲和力，因此很容易锚定在多壁碳纳米管（CNT）上，生成分子杂化材料。后者作为水氧化催化剂，在涉及分子钌催化剂与表面相互作用促进的溶剂化和配体重组的电化学析氧过程中转化为一种新物质。这种多相体系已被证明是一种强大且稳健的分子杂化阳极，用于将电催化水氧化为分子氧，在相对于标准氢电极（NHE）施加1.45 V的电位下，在pH 7时实现了200 mA/cm范围内的电流密度。基于催化剂与石墨表面的超分子相互作用，合理解释了这种杂化材料在周转过程中显著的长期稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d95c/8343522/8f534ee95bfc/ja1c04738_0001.jpg

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表面促进的钌-联吡啶配位低聚物的演化提高了水氧化分子阳极的效率。

Surface-Promoted Evolution of Ru-bda Coordination Oligomers Boosts the Efficiency of Water Oxidation Molecular Anodes.

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