Shengyang Huang, Hao Fu, Hyun Min Kwon, Min Sung Kim, Jun-Dong Zhang, Jun Lu, Jun Su Kim, Gun Jang, Dong Hyun Min, Won Il Kim, Guanyao Wang, Wenwu Li, Rui Zhang, Sae Byeok Jo, Xiang Chen, Qiang Zhang, Kang Xu, Michel Armand, Ho Seok Park
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引用次数: 0
摘要
虽然分子式相同,但由于原子的空间排列不同而产生的立体异构,往往表现出不同的化学反应活性。在此,我们证明了多功能电解质添加剂的几何异构如何影响水性锌金属电池。受天然细菌的启发,我们比较了反式丁烯二酸(富马酸)和它的顺式异构体(马来酸),揭示了不同的氢键动力学和溶剂化环境,并通过飞秒瞬态吸收光谱和计算模拟证实了这一点。反式异构体促进了有利的界面结构和离子通路的形成,提高了锌沉积的可逆性和循环稳定性。结果表明,锌对称电池在1ma cm - 2和1mah cm - 2下可稳定镀/剥离6150小时,在5ma cm - 2和5mah cm - 2下可稳定镀/剥离1500小时。在2 a g−1电流下,经过1000次循环后,锌预沉积的Cu b| |MnVO全电池的容量保持率超过70%,最终在30 mA cm−2的高电流密度下,初始无阳极Cu b| |镀锌MnVO电池的容量保持率超过270次。将同分异构概念应用于新电解质材料的设计以及相关的溶剂化和相间化学物质,为下一代电池提供了一条新的途径。
Stereoisomerism of multi-functional electrolyte additives for initially anodeless aqueous zinc metal batteries
Stereoisomerism, arising from the distinctive spatial arrangements of atoms despite identical molecular formulae, often displays different chemical reactivities. Herein, we demonstrate how geometric isomerism of multifunctional electrolyte additives affects aqueous zinc metal batteries. Inspired by natural bacteria, we compared trans-butenedioic acid (fumaric acid) and its cis-isomer (maleic acid), revealing different hydrogen bonding dynamics and solvation environments, as confirmed by femtosecond transient absorption spectroscopy and computational simulations. The trans-isomer promotes the formation of favorable interfacial structures and ion pathways, improving Zn deposition reversibility and cycling stability. As a result, Zn symmetric cells showed stable plating/stripping for over 6150 h at 1 mA cm−2 and 1 mAh cm−2 and 1500 h at 5 mA cm−2 and 5 mAh cm−2. The Zn-predeposited Cu||MnVO full cells exhibited a capacity retention exceeding 70% after 1000 cycles at 2 A g−1, ultimately achieving over 270 cycles for initially anodeless Cu||zincated MnVO cells at a high current density of 30 mA cm−2. The application of the isomerism concept on the design of new electrolyte materials and associated solvated and interphasial chemistries offers a new pathway to the next generation of batteries.
期刊介绍:
Nature Communications, an open-access journal, publishes high-quality research spanning all areas of the natural sciences. Papers featured in the journal showcase significant advances relevant to specialists in each respective field. With a 2-year impact factor of 16.6 (2022) and a median time of 8 days from submission to the first editorial decision, Nature Communications is committed to rapid dissemination of research findings. As a multidisciplinary journal, it welcomes contributions from biological, health, physical, chemical, Earth, social, mathematical, applied, and engineering sciences, aiming to highlight important breakthroughs within each domain.
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