Journal
ADVANCED MATERIALS INTERFACES
Volume 5, Issue 19, Pages -Publisher
WILEY
DOI: 10.1002/admi.201800639
Keywords
amorphous; electrode materials; energy storage; sodium-ion batteries
Funding
- 973 project [2015CB251103]
- Science and Technology Development Project, Jilin Province [20180101211JC, 20170101168JC, 20180414004GH]
- Jilin Province [SXGJQY2017-10]
- Jilin University [SXGJQY2017-10]
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Room-temperature rechargeable sodium-ion batteries appear to be promising alternatives for grid and other storage applications to lithium-ion batteries because of the natural abundance, low cost, and environmental benignity of sodium. In response to the ever-increasing development for these technologies, an intensive exploration for appropriate electrode materials with high energy density is still underway. This Progress Report highlights the recent research in the investigation of amorphous materials, whose isotropic physical and chemical properties can provide multiple pathways for ions and facilitate ion diffusion. This Progress Report focuses on sodium-ion batteries, but it is hoped that the engineering strategies may provide guidance on further research and design of functional materials for both sodium and potassium-ion batteries.
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