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29 results on '"Xia Yonggao"'

2. Ether‐Based Electrolyte for High‐Temperature and High‐Voltage Lithium Metal Batteries

Author

Xu, Tonghui, primary, Zheng, Tianle, additional, Ru, Zhengzheng, additional, Song, Jinhua, additional, Gu, Meirong, additional, Yue, Ye, additional, Xiao, Yiyao, additional, Amzil, Said, additional, Gao, Jie, additional, Müller‐Buschbaum, Peter, additional, Wang, Ke, additional, Zhao, Hongbin, additional, Cheng, Ya‐Jun, additional, and Xia, Yonggao, additional

Published
2024
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11. SnO 2 /Sn/Carbon nanohybrid lithium‐ion battery anode with high reversible capacity and excellent cyclic stability

Author

Wang, Xiaoyan, primary, Zheng, Tianle, additional, Cheng, Ya‐Jun, additional, Yin, Shanshan, additional, Xia, Yonggao, additional, Ji, Qing, additional, Xu, Zhuijun, additional, Liang, Suzhe, additional, Ma, Liujia, additional, Zuo, Xiuxia, additional, Meng, Jian‐Qiang, additional, Zhu, Jin, additional, and Müller‐Buschbaum, Peter, additional

Published
2021
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14. Vacuum‐Free, All‐Solution, and All‐Air Processed Organic Photovoltaics with over 11% Efficiency and Promoted Stability Using Layer‐by‐Layer Codoped Polymeric Electrodes

Author

Fan, Xi, primary, Wen, Rongjiang, additional, Xia, Yonggao, additional, Wang, Jinzhao, additional, Liu, Xiaohui, additional, Huang, Huihui, additional, Li, Yuan, additional, Zhu, Weiya, additional, Cheng, Yajun, additional, Ma, Liujia, additional, Fang, Junfeng, additional, Tsai, Hsinhan, additional, and Nie, Wanyi, additional

Published
2020
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15. In Situ Incorporation of Super‐Small Metallic High Capacity Nanoparticles and Mesoporous Structures for High‐Performance TiO2/SnO2/Sn/Carbon Nanohybrid Lithium‐Ion Battery Anodes

Author

Wang, Xiaoyan, primary, Cheng, Ya-Jun, additional, Ji, Qing, additional, Liang, Suzhe, additional, Ma, Liujia, additional, Xu, Zhuijun, additional, Zuo, Xiuxia, additional, Meng, Jian-Qiang, additional, Zhu, Jin, additional, Müller-Buschbaum, Peter, additional, and Xia, Yonggao, additional

Published
2020
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16. Dental resin monomer enables unique NbO2 /carbon lithium?ion battery negative electrode with exceptional performance

Author

Ji, Qing, Gao, Xiangwen, Zhang, Qiuju, Jin, Liyu, Wang, Da, Xia, Yonggao, Yin, Shanshan, Xia, Senlin, Hohn, Nuri, Zuo, Xiuxia, Wang, Xiaoyan, Xie, Shuang, Xu, Zhuijun, Ma, Liujia, Chen, Liang, Chen, George Z., Zhu, Jin, Hu, Binjie, Bruce, Peter G., and Cheng, Ya?Jun

Subjects
Biomaterials, General Chemical Engineering, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Abstract

Niobium dioxide (NbO2) features a high theoretical capacity and an outstanding electron conductivity, which makes it a promising alternative to the commercial graphite negative electrode. However, studies on NbO2 based lithium?ion battery negative electrodes have been rarely reported. In the present work, NbO2 nanoparticles homogeneously embedded in a carbon matrix are synthesized through calcination using a dental resin monomer (bisphenol A glycidyl dimethacrylate, Bis?GMA) as the solvent and a carbon source and niobium ethoxide (NbETO) as the precursor. It is revealed that a low Bis?GMA/NbETO mass ratio (from 1:1 to 1:2) enables the conversion of Nb (V) to Nb (IV) due to increased porosity induced by an alcoholysis reaction between the NbETO and Bis?GMA. The as?prepared NbO2/carbon nanohybrid delivers a reversible capacity of 225 mAh g?1 after 500 cycles at a 1 C rate with a Coulombic efficiency of more than 99.4% in the cycles. Various experimental and theoretical approaches including solid state nuclear magnetic resonance, ex situ X?ray diffraction, differential electrochemical mass spectrometry, and density functional theory are utilized to understand the fundamental lithiation/delithiation mechanisms of the NbO2/carbon nanohybrid. The results suggest that the NbO2/carbon nanohybrid bearing high capacity, long cycle life, and low gas evolution is promising for lithium storage applications.

Published
2019

17. Dental Resin Monomer Enables Unique NbO 2 /Carbon Lithium‐Ion Battery Negative Electrode with Exceptional Performance

Author

Ji, Qing, primary, Gao, Xiangwen, additional, Zhang, Qiuju, additional, Jin, Liyu, additional, Wang, Da, additional, Xia, Yonggao, additional, Yin, Shanshan, additional, Xia, Senlin, additional, Hohn, Nuri, additional, Zuo, Xiuxia, additional, Wang, Xiaoyan, additional, Xie, Shuang, additional, Xu, Zhuijun, additional, Ma, Liujia, additional, Chen, Liang, additional, Chen, George Z., additional, Zhu, Jin, additional, Hu, Binjie, additional, Müller‐Buschbaum, Peter, additional, Bruce, Peter G., additional, and Cheng, Ya‐Jun, additional

Published
2019
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19. Corrigendum: Role of Nickel Nanoparticles in High‐Performance TiO 2 /Ni/Carbon Nanohybrid Lithium/Sodium‐Ion Battery Anodes

Author

Wang, Xiaoyan, primary, Zhao, Dong, additional, Wang, Chao, additional, Xia, Yonggao, additional, Jiang, Wenshuai, additional, Xia, Senlin, additional, Yin, Shanshan, additional, Zuo, Xiuxia, additional, Metwalli, Ezzeldin, additional, Xiao, Ying, additional, Sun, Zaicheng, additional, Zhu, Jin, additional, Müller‐Buschbaum, Peter, additional, and Cheng, Ya‐Jun, additional

Published
2019
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20. MnO/Metal/Carbon Nanohybrid Lithium‐Ion Battery Anode With Enhanced Electrochemical Performance: Universal Facile Scalable Synthesis and Fundamental Understanding

Author

Wang, Xiaoyan, primary, Ma, Liujia, additional, Ji, Qing, additional, Meng, Jian‐Qiang, additional, Liang, Suzhe, additional, Xu, Zhuijun, additional, Wang, Meimei, additional, Zuo, Xiuxia, additional, Xiao, Ying, additional, Zhu, Jin, additional, Xia, Yonggao, additional, Müller‐Buschbaum, Peter, additional, and Cheng, Ya‐Jun, additional

Published
2019
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21. Role of Nickel Nanoparticles in High‐Performance TiO 2 /Ni/Carbon Nanohybrid Lithium/Sodium‐Ion Battery Anodes

Author

Wang, Xiaoyan, primary, Zhao, Dong, additional, Wang, Chao, additional, Xia, Yonggao, additional, Jiang, Wenshuai, additional, Xia, Senlin, additional, Yin, Shanshan, additional, Zuo, Xiuxia, additional, Metwalli, Ezzeldin, additional, Xiao, Ying, additional, Sun, Zaicheng, additional, Zhu, Jin, additional, Müller‐Buschbaum, Peter, additional, and Cheng, Ya‐Jun, additional

Published
2019
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29. Oxidation decomposition mechanism of fluoroethylene carbonate-based electrolytes for high-voltage lithium ion batteries: a DFT calculation and experimental study

Author

Xia, Lan, Tang, Bencan, Yao, Linbin, Wang, Kai, Cheris, Anastasia, Pan, Yueyang, Lee, Saixi, Xia, Yonggao, Chen, George Z., Liu, Zhaoping, Xia, Lan, Tang, Bencan, Yao, Linbin, Wang, Kai, Cheris, Anastasia, Pan, Yueyang, Lee, Saixi, Xia, Yonggao, Chen, George Z., and Liu, Zhaoping

Abstract

The oxidative decomposition mechanism of fluoroethylene carbonate (FEC) used in high-voltage batteries is investigated by using density functional theory (DFT). Radical cation FEC•+ is formed from FEC by transferring one electron to electrode and the most likely decomposition products are CO2 and 2-fluoroacetaldehyde radical cation. Other possible products are CO, formaldehyde and formyl fluoride radical cations. These radical cations are surrounded by much FEC solvent and their radical center may attack the carbonyl carbon of FEC to form aldehyde and oligomers of alkyl carbonates, which is similar with the oxidative decomposition of EC. Then, our experimental result reveals that FEC-based electrolyte has rather high anodic stability. It can form a robust SEI film on the positive electrode surface, which can inhibit unwanted electrolyte solvent and LiPF6 salts decomposition, alleviate Mn/Ni dissolution and therefore, improve the coulombic efficiency and the cycling stability of high voltage LiNi0.5Mn1.5O4 positive electrodes. This work displays that FEC-based electrolyte systems have considerable potential replacement of the EC-based electrolyte for the applications in 5 V Li-ion batteries.

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