Electrochemical characteristics of Tin-based anode material for Li-ion secondary batteries
Electrochemical characteristics of Tin-based anode material for Li-ion secondary batteries
- 세라믹연구소
- Journal of Ceramic Processing Research
- 9(1)
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2008.0252 - 56 (5 pages)
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DOI : http://dx.doi.org/10.36410/jcpr.2008.9.1.52
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Recently tin-based composite oxide materials have received considerable attention as a negative electrode for lithium ion secondary batteries. In this study, nano-sized SnO₂-B₂O₃-P₂O5 particles were synthesized by an Aerosol Flame Deposition(AFD) technique. Single or multi-component amorphous oxide nano particles (soot) were synthesized by supplying metal halide sources such as chloride in the form of gas into an oxy-hydrogen flame. The fine powder obtained was a mixture of crystalline tin oxide and an amorphous phase of B₂O₃ and P₂O5, resulting in a highly dispersed structure with nano-scale interfaces. According to the XRD results, the as-prepared materials seemed to have a semi-amorphous structure and SEM images showed that the average particle size <60 nm. In this study, we investigated the relationship between the structural modification of the tin-based composite oxide and the conductivity as a function of the composition.
Recently tin-based composite oxide materials have received considerable attention as a negative electrode for lithium ion secondary batteries. In this study, nano-sized SnO₂-B₂O₃-P₂O5 particles were synthesized by an Aerosol Flame Deposition(AFD) technique. Single or multi-component amorphous oxide nano particles (soot) were synthesized by supplying metal halide sources such as chloride in the form of gas into an oxy-hydrogen flame. The fine powder obtained was a mixture of crystalline tin oxide and an amorphous phase of B₂O₃ and P₂O5, resulting in a highly dispersed structure with nano-scale interfaces. According to the XRD results, the as-prepared materials seemed to have a semi-amorphous structure and SEM images showed that the average particle size <60 nm. In this study, we investigated the relationship between the structural modification of the tin-based composite oxide and the conductivity as a function of the composition.
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