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Chemical Preintercalation Synthesis of Versatile Electrode Materials for Electrochemical Energy Storage
Accounts of Chemical Research ( IF 16.4 ) Pub Date : 2022-12-13 , DOI: 10.1021/acs.accounts.2c00193
Ekaterina Pomerantseva 1
Affiliation  

The widespread use of electrical plants and grids to generate, transmit, and deliver power to consumers makes electricity the most convenient form of energy to transport, control, and use. Balancing electricity demand with electricity supply requires a mechanism for energy storage, which is enabled by electrical energy storage devices such as batteries and supercapacitors. In addition to the grid-level energy storage, we have all witnessed the quick growth of a number of applications that require autonomous power, illustrated by the Internet of Things, and electrification of transport. Batteries, when developed for targeted applications with specific requirements, require new materials with improved performance enabled by rational design on the atomic level. The material tunability knobs include chemical composition, structure, morphology, and heterointerfaces, among others. Synthesis methods that could enable control of these parameters while offering versatility and being facile are highly desired.

中文翻译:

用于电化学储能的多功能电极材料的化学预嵌入合成

发电厂和电网广泛用于发电、输电和向消费者输送电力,这使得电力成为运输、控制和使用最方便的能源形式。平衡电力需求与电力供应需要一种能量存储机制,这可以通过电池和超级电容器等电能存储设备实现。除了电网级储能之外,我们都见证了许多需要自主供电的应用的快速增长,例如物联网和交通电气化。为具有特定要求的目标应用开发电池时,需要通过原子级合理设计提高性能的新材料。材料可调旋钮包括化学成分、结构、形态、和异构接口等。非常需要能够控制这些参数同时提供多功能性和简便性的合成方法。
更新日期:2022-12-13
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