Abstract
Abstract
In order to achieve carbon neutrality and gradually improve the current global warming environmental situation, the world’s major research teams are committed to developing lithium-ion batteries with better performance, trying to use in various new energy facilities, such as electric vehicles, which can effectively reduce polluting gas emissions. Nowadays, many electrode materials that can improve the performance of lithium-ion batteries have been continuously emerging, such as carbon nanotubes and silicon-based nanomaterials. However, carbon nanotube electrode materials have the disadvantages of high irreversible capacity, voltage lag and high manufacturing cost, while silicon-based nanomaterials also have the drawbacks of volume expansion and poor electrical conductivity. Based on the mature research of carbon materials, extensive raw material sources and large reserves, completely non-toxic and low comprehensive cost, this research analyzes three new porous carbon nanoelectrode materials with high development potential, and shows their electrochemical performance advantages, such as high charge-discharge specific capacity, excellent rate performance, and low charge transfer impedance.
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