论文标题
利用,进步和挑战受益于锂离子电池技术
Exploits, advances and challenges benefiting beyond Li-ion battery technologies
论文作者
论文摘要
由于对移动设备,电动汽车和能源存储系统的紧急需求,电池市场正在快速扩展,从而导致了当前的能源过渡。除了锂离子电池之外,遵循这些多速变化并适应每个应用程序的特异性非常重要。这次审查研究将解决一些相关的液化后问题和电池技术,包括Na-ion电池,MG电池,Ca-ion电池,ZN-ION电池,Al-Ion电池以及阴离子(F-和Cl-)班车电池。基于MH的电池还强调了NIMH电池和新型MH可容纳的锂离子电池。最后,为了促进进一步的研究和开发,根据不同电池系统相对于锂离子电池假设的比较,讨论了一些未来的研究趋势和方向。值得注意的是,水性系统最有可能重新审议,以进行大量,成本效益,更安全的电池生产。例如,要在(准) - 平台存储应用中使用。
The battery market is undergoing quick expansion owing to the urgent demand for mobile devices, electric vehicles and energy storage systems, convoying the current energy transition. Beyond Li-ion batteries are of high importance to follow these multiple-speed changes and adapt to the specificity of each application. This review-study will address some of the relevant post-Li ion issues and battery technologies, including Na-ion batteries, Mg batteries, Ca-ion batteries, Zn-ion batteries, Al-ion batteries and anionic (F- and Cl-) shuttle batteries. MH-based batteries are also presented with emphasize on NiMH batteries, and novel MH-accommodated Li-ion batteries. Finally, to facilitate further research and development some future research trends and directions are discussed based on comparison of the different battery systems with respect to Li-ion battery assumptions. Remarkably, aqueous systems are most likely to be given reconsideration for intensive, cost-effective and safer production of batteries; for instance to be utilized in (quasi)-stationary energy storage applications.