Abstract
Recent progress in nanostructured carbon, alloys, transition metal oxides and silicon as anode materials for LIBs has been reviewed.
Highlights
More serious environmental pollution problems have seen expanding research activity concerning new clean energy sources and efficient energy conversion and storage techniques
With iron oxide as an example, we explore the primary drawbacks of the transition metal oxides (TMO) anode, the introduction of other components to make up for the weakness of TMO as well as methods to create a new synergistic action between different constituents in composite anodes
There have been a steady stream of research studies examining superior energy conversion and storage devices due to the pressing demand for energy in modern life
Summary
More serious environmental pollution problems have seen expanding research activity concerning new clean energy sources and efficient energy conversion and storage techniques. Wen Qi was born in Sichuan, China in 1994 She received her BE degree from the Harbin Institute of Technology in 2016. His group is working in Nanotechnology using various techniques to examine materials on the micron or nanometer scale. Work with carbon nanomaterials is an active area of research in his group These materials have been used for applications in areas such as sensing and solar cells. Qian Wu received his BE degree in Industrial Design from the Harbin Institute of Technology, China in 2016 He is a graduate student in Industrial
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