用于液流电池应用的三吡啶铬配合物的评估：联吡啶配体结构对溶解度和电化学的影响。

Evaluation of Tris-Bipyridine Chromium Complexes for Flow Battery Applications: Impact of Bipyridine Ligand Structure on Solubility and Electrochemistry.

作者信息

Cabrera Pablo J, Yang Xingyi, Suttil James A, Brooner Rachel E M, Thompson Levi T, Sanford Melanie S

机构信息

Department of Chemistry, University of Michigan , 930 North University Avenue, Ann Arbor, Michigan 48109, United States.

Joint Center for Energy Storage Research (JCESR), Argonne, Illinois, United States.

出版信息

Inorg Chem. 2015 Nov 2;54(21):10214-23. doi: 10.1021/acs.inorgchem.5b01328. Epub 2015 Oct 15.

DOI:10.1021/acs.inorgchem.5b01328

PMID:26468668

Abstract

This report describes the design, synthesis, solubility, and electrochemistry of a series of tris-bipyridine chromium complexes that exhibit up to six reversible redox couples as well as solubilities approaching 1 M in acetonitrile. We have systematically modified both the ligand structure and the oxidation state of these complexes to gain insights into the factors that impact solubility and electrochemistry. The results provide a set of structure-solubility-electrochemistry relationships to guide the future development of electrolytes for nonaqueous flow batteries. In addition, we have identified a promising candidate from the series of chromium complexes for further electrochemical and battery assessment.

摘要

本报告描述了一系列三联吡啶铬配合物的设计、合成、溶解性和电化学性质，这些配合物展现出多达六个可逆氧化还原对，并且在乙腈中的溶解度接近1 M。我们系统地改变了这些配合物的配体结构和氧化态，以深入了解影响溶解度和电化学性质的因素。研究结果提供了一组结构-溶解度-电化学关系，以指导非水流动电池电解质的未来发展。此外，我们从该系列铬配合物中确定了一个有前景的候选物，用于进一步的电化学和电池评估。

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用于液流电池应用的三吡啶铬配合物的评估：联吡啶配体结构对溶解度和电化学的影响。

Evaluation of Tris-Bipyridine Chromium Complexes for Flow Battery Applications: Impact of Bipyridine Ligand Structure on Solubility and Electrochemistry.

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