A Green and Effective Organocatalyst for Faster Oxidation of Li2S in Electrochemical Processes,Advanced Functional Materials

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A Green and Effective Organocatalyst for Faster Oxidation of Li2S in Electrochemical Processes
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2023-05-14 , DOI: 10.1002/adfm.202212796
Qining Fan ₁ , Shilin Zhang ₂ , Jicheng Jiang ₁ , Wilford Lie ₃ , Wei Kong Pang ₁ , Qinfen Gu ₄ , Weishen Yang ₅ , Huakun Liu ₁ , Jiazhao Wang ₁ , Zaiping Guo _{1,

2}

Affiliation

The search for viable carbon-neutral sources of renewable energy is one of the most critical challenges in science today. The chemical community is committed to seeking efficient, inexpensive, and sustainable electrocatalysts that can exploit the energy produced by sustainable energy resources. Here, an ethanol organocatalyst, which is green and cheap, that can efficiently catalyze the oxidation of Li₂S in the electrochemical reactions of Li₂S cathodes is identified . This study demonstrates that a multitude of small molecular organocatalysts will offer electrochemists an elegant tool for accelerating electrochemical reactions with otherwise unattainable efficiency and precision. This concept refashions electrochemical domains and has broad implications for the design of “green” and sustainable chemistry cycles.

中文翻译：

一种绿色有效的有机催化剂，可在电化学过程中加快 Li2S 的氧化

寻找可行的碳中性可再生能源是当今科学界最严峻的挑战之一。化学界致力于寻找高效、廉价且可持续的电催化剂，以利用可持续能源产生的能量。_{这里，一种绿色且廉价的乙醇有机催化剂，可以在Li 2}电化学反应中有效催化Li ₂ S的氧化S 阴极被识别。这项研究表明，多种小分子有机催化剂将为电化学家提供一种优雅的工具，以其他方式无法达到的效率和精度来加速电化学反应。这一概念重塑了电化学领域，对“绿色”和可持续化学循环的设计具有广泛的影响。

更新日期：2023-05-14

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