区域异构导向的电催化用于高效锌空气电池

Regio-isomerism directed electrocatalysis for energy efficient zinc-air battery.

作者信息

Mukhopadhyay Sanchayita, Devendrachari Mruthyunjayachari Chattanahalli, Kanade Sandeep C, Vinod Chathakudath Prabhakaran, Nimbegondi Kotresh Harish Makri, Thotiyl Musthafa Ottakam

机构信息

Department of Chemistry and Centre for Energy Science, Indian Institute of Science Education and Research, Pune, Dr. Homi Bhabha Road, Pune 411008, India.

Catalysis and Inorganic Chemistry Division, CSIR-NCL, Pune 411008, India.

出版信息

iScience. 2022 Sep 22;25(10):105179. doi: 10.1016/j.isci.2022.105179. eCollection 2022 Oct 21.

DOI:10.1016/j.isci.2022.105179

PMID:36238901

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9550602/

Abstract

We have investigated the role of ligand isomerism in modulating the mechanisms and kinetics associated with charge/discharge chemistry of an aqueous metal-air battery. The dominant electron-withdrawing inductive effect (-I effect) and the diminished electron-withdrawing resonance effect (-R effect) in the α-NO isomer noticeably diminishes the rate of oxygen reduction (ORR) and oxygen evolution reactions (OER) on the catalytic Co-center. In their β-counterpart, the cumulative -I and -R effects noticeably enhance the OER and ORR kinetics on the same catalytic Co-center. Therefore, the regioisomerism of the -NO functionality amplifies the kinetics of ORR/OER without influencing their mechanistic pathways. When isomeric electrocatalysts are integrated to aid the charge chemistry of a Zn-air battery, the overpotential could be decreased by ∼250 mV with β-NO isomer leading to a round-trip efficiency as high as 60%. This work contributes to the design of novel molecular platforms to target the overall round-trip efficiency of energy storage and conversion devices.

摘要

我们研究了配体异构现象在调节水系金属空气电池充放电化学相关机制和动力学方面的作用。α-NO异构体中占主导的吸电子诱导效应（-I效应）和减弱的吸电子共振效应（-R效应）显著降低了催化钴中心上的氧还原（ORR）和析氧反应（OER）速率。在其β-异构体中，累积的-I和-R效应显著增强了同一催化钴中心上的OER和ORR动力学。因此，-NO官能团的区域异构现象在不影响其反应机理途径的情况下放大了ORR/OER的动力学。当将异构电催化剂集成以辅助锌空气电池的充电化学过程时，β-NO异构体可使过电位降低约250 mV，从而实现高达60%的往返效率。这项工作有助于设计新型分子平台，以提高储能和转换装置的整体往返效率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aca5/9550602/aab432278a65/fx1.jpg

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区域异构导向的电催化用于高效锌空气电池

Regio-isomerism directed electrocatalysis for energy efficient zinc-air battery.

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