Capacity retention of lithium sulfur batteries enhanced with nano-sized TiO2-embedded polyethylene oxide

Lee, Felix; Tsai, Meng-Che; Lin, Ming-Hsien; Ni'mah, Yatim Lailun; Hy, Sunny; Kuo, Chao-Yen; Cheng, Ju-Hsiang; Rick, John; Su, Wei-Nien; Hwang, Bing-Joe

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Royal Society of Chemistry, Journal of Materials Chemistry A: materials for energy and sustainability, 14(5), p. 6708-6715, 2017

DOI: 10.1039/c6ta10755a

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Capacity retention of lithium sulfur batteries enhanced with nano-sized TiO2-embedded polyethylene oxide

Journal article published in 2017 by Felix Lee, Meng-Che Tsai, Ming-Hsien Lin, Yatim Lailun Ni'mah, Sunny Hy, Chao-Yen Kuo, Ju-Hsiang Cheng, John Rick, Wei-Nien Su

, Bing-Joe Hwang

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Abstract

DFT and in situ SERS revealed that the shuttle mechanism and Li anode passivation are suppressed by preferential nano-sized TiO₂/polysulfide adsorption.

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Capacity retention of lithium sulfur batteries enhanced with nano-sized TiO2-embedded polyethylene oxide

Abstract