Addressing Practical Use of Viologen-Derivatives in Redox Flow Batteries Through Molecular Engineering

Overview

Journal ACS Mater Lett

Publisher American Chemical Society

Date 2023 Mar 13

PMID 36911231

Authors

Ruben Rubio-Presa

Lara Lubian

Mario Borlaf

Edgar Ventosa

Roberto Sanz

Affiliations

Soon will be listed here.

Abstract

In practical scenarios, viologen-derivatives face an accelerated degradation in the unavoidable presence of traces of oxygen in large-scale redox flow batteries. Herein, we confirm the primary degradation mechanism and propose a straightforward, cheap, and fast method to evaluate the stability of viologen-derivatives toward this degradation. Considering that the cleavage of the N-substituent is the main proposed pathway for viologen degradation, a new viologen-derivative, bearing an alkylsulfonate chain with a secondary carbon center joined to the N atom, is synthesized to illustrate how molecular engineering can be used to improve stability.

Citing Articles

Improving the Volumetric Capacity of Gallocyanine Flow Battery by Adding a Molecular Spectator.

Martinez-Gonzalez E, Peljo P ACS Appl Energy Mater. 2024; 7(17):7169-7175.

PMID: 39268395 PMC: 11388142. DOI: 10.1021/acsaem.4c00971.

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