Effect of Phosphorus Doping into the Silicon as an Anode Material for Lithium Secondary Batteries

Myung Ho Kong; Dong Jin Byun; Joong Kee Lee

doi:10.4028/www.scientific.net/AMR.26-28.333

Paper Titles

Numerical Simulations for Uniaxial Ratcheting of SiC_P/6061Al Composites Concerning Particulate Arrangement
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Fabrication of Oxide Ceramics Composite by Reactive Infiltration Process
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Effect of Powder Blending Ratio on Synthesis of TiB₂ Particles by Al-Ti-B Combustion Reaction
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Development of Hybrid FRP-Concrete Composite Compression Members
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Effect of Phosphorus Doping into the Silicon as an Anode Material for Lithium Secondary Batteries
p.333

A Study on the Design Curves for Pultruded Composite Columns
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Structural Behavior of Polymer Mortar GFRP Composite Pipe
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Physical Characteristic of Ready Mixed Concrete with Different Replacement Ratio of Recycled Aggregate
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Evaluation of the Influence of Additives on the Mechanical Properties and Photo-Stability of Glass Fiber Reinforced Epoxy Pipes Using Central Composite Design
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 26-28Effect of Phosphorus Doping into the Silicon as an...

Effect of Phosphorus Doping into the Silicon as an Anode Material for Lithium Secondary Batteries

Abstract:

Carbonaceous material has been used as an anode in lithium-ion secondary batteries due to their good stability during charging and discharging. But this material has the problems like irreversible capacity and low specific capacity that is about 372mAh/g. Because of the problems as stated above, silicon-based materials have been reported as possible anode materials to replace carbon. But they have high electrical resistivity and large volume changes associated with alloying and dealloying of lithium during electrochemical cycling. This study is performed to obtain higher capacity of anode material with a good cycle performance and to reduce electrical resistivity. It is expected that phosphor doping silicon and graphite mixture exhibit higher capacity than that of raw graphite and the doping of phosphorous will be able to decrease electrical resistivity of anode materials.