Battery technologies: lithium & beyond

IF 2.9 Q2 ELECTROCHEMISTRY
Prayag Biswal
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引用次数: 0

Abstract

Global efforts to mitigate climate change are causing a transition from non-renewable energy resources (fossil fuels) to renewable energy resources (wind, solar, hydroelectricity, geothermal). This energy transition to sustainably meet the world’s growing needs for electricity, heating, cooling, and power for transport is widely considered to be one of the biggest challenges facing humanity in this century. The transition is enabled by improvements in generation and storage technologies critical to harvesting inherently intermittent renewable energy. Moreover, growing needs for smaller, lighter, more powerful portable electronic devices and more powerful electric vehicles suitable for long-range transportation have further fostered the demand for dispatchable and efficient electrical energy storage. These have catalyzed rapid development and commercialization of high-energy and lightweight rechargeable batteries, primarily based on lithium. However, lithium-enabled rechargeable batteries are plagued with challenges such as uncontrolled surface/interface (low safety), sluggish transport & reaction kinetics (slow charging), & relatively rare abundance of the metal (high cost). Moving beyond lithium necessitates the development of safe & fast-charging rechargeable batteries based on relatively abundant metals (i.e. Na, Zn, Al, Fe, etc.).
电池技术:锂及其他
全球减缓气候变化的努力正在导致从不可再生能源(化石燃料)向可再生能源(风能、太阳能、水力发电、地热)的过渡。为了可持续地满足世界对电力、供暖、制冷和交通动力日益增长的需求,这种能源转型被广泛认为是本世纪人类面临的最大挑战之一。这种转变是通过发电和存储技术的改进实现的,这些技术对收集固有的间歇性可再生能源至关重要。此外,对更小、更轻、更强大的便携式电子设备和适合远程运输的更强大的电动汽车的需求不断增长,进一步促进了对可调度和高效电能存储的需求。这些都促进了主要基于锂的高能轻质可充电电池的快速发展和商业化。然而,锂可充电电池面临着诸如不受控制的表面/界面(低安全性),缓慢的运输和反应动力学(充电缓慢)以及相对稀有的金属丰度(高成本)等挑战。超越锂电池需要开发基于相对丰富的金属(即Na, Zn, Al, Fe等)的安全快速充电可充电电池。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
27.30%
发文量
90
审稿时长
6 weeks
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