Research Progress on Coating Structure of Silicon Anode Materials for Lithium‐Ion Batteries

Citations Over TimeTop 10% of 2021 papers

Abstract

Silicon, which has been widely studied by virtue of its extremely high theoretical capacity and abundance, is recognized as one of the most promising anode materials for the next generation of lithium-ion batteries. However, silicon undergoes tremendous volume change during cycling, which leads to the destruction of the electrode structure and irreversible capacity loss, so the promotion of silicon materials in commercial applications is greatly hampered. In recent years, many strategies have been proposed to address these shortcomings of silicon. This Review focused on different coatings materials (e. g., carbon-based materials, metals, oxides, conducting polymers, etc.) for silicon materials. The role of different types of materials in the modification of silicon-based material encapsulation structure was reviewed to confirm the feasibility of the protective layer strategy. Finally, the future research direction of the silicon-based material coating structure design for the next-generation lithium-ion battery was summarized.

Related Papers

• → Change of Anode Operation Pattern from Single to Double Staircase at Albras(2020)1 cited
• → Anode Effect Initiation during Aluminium Electrolysis in a Two-Compartment Laboratory Cell(2016)3 cited
• → Anode Effect Initiation During Aluminium Electrolysis in A Two Compartment Laboratory Cell(2016)3 cited
• The behavior of anode bubbles in aluminum electrolytic cell(2013)
• → Effect of Anode Dielectric Coating on Hall Thruster Operation(2003)