Electrochemical Phase Evolution of Metal-Based Pre-Catalysts for High-Rate Polysulfide Conversion

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Electrochemical Phase Evolution of Metal-Based Pre-Catalysts for High-Rate Polysulfide Conversion

机译：用于高速率多硫化物转化的金属基前催化剂的电化学相位演化

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In situ evolution of electrocatalysts is of paramount importance in defining catalytic reactions. Catalysts for aprotic electrochemistry such as lithium-sulfur (Li-S) batteries are the cornerstone to enhance intrinsically sluggish reaction kinetics but the true active phases are often controversial. Herein, we reveal the electrochemical phase evolution of metal-based pre-catalysts (Co4N) in working Li-S batteries that renders highly active electrocatalysts (CoSx). Electrochemical cycling induces the transformation from single-crystalline Co4N to polycrystalline CoSx that are rich in active sites. This transformation propels all-phase polysulfide-involving reactions. Consequently, Co4N enables stable operation of high-rate (10 C, 16.7 mA cm(-2)) and electrolyte-starved (4.7 mu L mg(S)(-1)) Li-S batteries. The general concept of electrochemically induced sulfurization is verified by thermodynamic energetics for most of low-valence metal compounds.

机译：原位的电催化剂的演变对于定义催化反应至关重要。非质子电化学催化剂如锂 - 硫（LI-S）电池是增强本质上缓慢的反应动力学的基石，但真正的活性阶段往往是有争议的。在此，我们揭示了金属基前催化剂（CO4N）的电化学相位演化在加工LI-S电池中，其呈现出高活性电催化剂（COSX）。电化学循环诱导单晶CO4N转化为富含活性位点的多晶硅COSX。该转化促进了全相多硫化物的涉及反应。因此，CO 4N能够稳定地运行高速率（10c，16.7 mA cm（-2））和电解质饥饿（4.7μlmg（s）（ - 1））Li-S电池。电化学诱导的硫的一般概念通过热力学能量为大多数低价金属化合物验证。

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《Angewandte Chemie》 |2020年第23期|共7页
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正文语种 eng
中图分类应用化学;
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electrocatalysts; electrochemical phase evolution; lithium-sulfur batteries; polysulfide conversion;

机译：电催化剂;电化学相位演化;锂 - 硫磺电池;多硫化物转换;

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1. Electrochemical Phase Evolution of Metal-Based Pre-Catalysts for High-Rate Polysulfide Conversion [J] . Angewandte Chemie . 2020,第23期

机译：用于高速率多硫化物转化的金属基前催化剂的电化学相位演化
2. Regulating the polysulfide redox conversion by iron phosphide nanocrystals for high-rate and ultrastable lithium-sulfur battery [J] . Huang Shaozhuan, Lim Yew Von, Zhang Xiaoming, Nano Energy . 2018,第期

机译：用铁磷化铁纳米晶体进行调节多硫化钠氧化还原转化，用于高速率和无耐锂 - 硫磺电池
3. Nickel selenides as pre-catalysts for electrochemical oxygen evolution reaction: A review [J] . Anantharaj Sengeni, Noda Suguru International journal of hydrogen energy . 2020,第32期

机译：镍硒化物作为电化学氧进化反应的催化剂：综述
4. In Situ FTIR Study on Organo-Polysulfide Evolution in CNF/Sulfur-Copolymer Cathodes for Li-S Batteries: Effect of Sulfur Chain Length on the Electrochemical Performance [C] . Ayda Rafie, Vibha Kalra Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：原位FTIR对LI-S电池CNF /硫共聚物阴极有机多硫化物进化的研究：硫链长对电化学性能的影响
5. I. SPECTROPHOTOMETRIC STUDIES OF POLYSULFIDES IN DIMETHYL SULFOXIDE. II. ELECTROCHEMICAL AND SPECTROPHOTOMETRIC STUDIES OF MOLYBDENUM(VI), (V), (IV), AND (III) COMPLEXES. III. ELECTROCHEMICAL OXIDATION OF TETRAETHYL AMMONIUM HYDROXIDE IN DIMETHYL SULFOXIDE. [D] . DOUB, WILLIAM HOWARD, JR. 1975

机译：I.分光光度法研究二甲基亚砜中的聚合物。二。钼（VI），（V），（IV）和（III）配合物的电化学和分光光度法研究。三，四乙基氢氧化铵在二甲基亚砜中的电化学氧化。
6. Trends in activity for the oxygen evolution reaction on transition metal (M = Fe Co Ni) phosphide pre-catalysts [O] . Junyuan Xu, Junjie Li, Dehua Xiong, 2018

机译：过渡金属（M = FeCoNi）磷化物预催化剂上氧释放反应的活性趋势
7. Electrochemical Phase Evolution of Metal-Based Pre-Catalysts in Lithium Sulfur Batteries [O] . Zhongfan Liu 2020

机译：锂硫电池中金属基催化剂的电化学相位演化

Electrochemical Phase Evolution of Metal-Based Pre-Catalysts for High-Rate Polysulfide Conversion

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