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Energy & fuels : an American Chemical Society journal, v.34 no.3, 2020년, pp.3895 - 3900
Zhang, Junying (College of Mathematics and Physics , Beijing University of Chemical Technology , Beijing 100029 , China) , Ma, Peipei (State Key Laboratory on Integrated Optoelectronics , Institute of Semiconductors, Chinese Academy of Sciences , Beijing 100083 , China) , Hou, Zhiling (College of Mathematics and Physics , Beijing University of Chemical Technology , Beijing 100029 , China) , Zhang, Xiaoming (School of Science , Minzu University of China , Beijing 100081 , China) , Li, Chuanbo
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SiOx@graphene composite material was prepared by a one-step hydrothermal method and was used as a high-performance anode material for lithium-ion batteries. Graphene decoration on SiOx particles can help to improve the conductivity, relieve the volume effect thanks to the excellent mechanical proper...
Luo, Fei, Liu, Bonan, Zheng, Jieyun, Chu, Geng, Zhong, Kaifu, Li, Hong, Huang, Xuejie, Chen, Liquan. Review—Nano-Silicon/Carbon Composite Anode Materials Towards Practical Application for Next Generation Li-Ion Batteries. Journal of the Electrochemical Society : JES, vol.162, no.14, A2509-A2528.
Terranova, M.L., Orlanducci, S., Tamburri, E., Guglielmotti, V., Rossi, M.. Si/C hybrid nanostructures for Li-ion anodes: An overview. Journal of power sources, vol.246, 167-177.
Choi, Sunghun, Kwon, Tae-woo, Coskun, Ali, Choi, Jang Wook. Highly elastic binders integrating polyrotaxanes for silicon microparticle anodes in lithium ion batteries. Science, vol.357, no.6348, 279-283.
Chen, Tao, Wu, Ji, Zhang, Qinglin, Su, Xin. Recent advancement of SiOx based anodes for lithium-ion batteries. Journal of power sources, vol.363, 126-144.
Yang, Yaxiong, Qu, Xiaolei, Zhang, Lingchao, Gao, Mingxia, Liu, Yongfeng, Pan, Hongge. Reaction-Ball-Milling-Driven Surface Coating Strategy to Suppress Pulverization of Microparticle Si Anodes. ACS applied materials & interfaces, vol.10, no.24, 20591-20598.
Back, Chang-Keun, Kim, Tai-Jin, Choi, Nam-Soon. Activated natural porous silicate for a highly promising SiOxnanostructure finely impregnated with carbon nanofibers as a high performance anode material for lithium-ion batteries. Journal of materials chemistry. A, Materials for energy and sustainability, vol.2, no.33, 13648-.
Yom, J.H., Hwang, S.W., Cho, S.M., Yoon, W.Y.. Improvement of irreversible behavior of SiO anodes for lithium ion batteries by a solid state reaction at high temperature. Journal of power sources, vol.311, 159-166.
Meng, Xianglu, Huo, Hanyu, Cui, Zhonghui, Guo, Xiangxin, Dong, Shaoming. Influences of oxygen content on the electrochemical performance of a-SiOx thin-film anodes. Electrochimica acta, vol.283, 183-189.
Kim, Hye Jin, Choi, Sunghun, Lee, Seung Jong, Seo, Myung Won, Lee, Jae Goo, Deniz, Erhan, Lee, Yong Ju, Kim, Eun Kyung, Choi, Jang Wook. Controlled Prelithiation of Silicon Monoxide for High Performance Lithium-Ion Rechargeable Full Cells. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.16, no.1, 282-288.
Pan, Qingrui, Zuo, Pengjian, Mu, Tiansheng, Du, Chunyu, Cheng, Xinqun, Ma, Yulin, Gao, Yunzhi, Yin, Geping. Improved electrochemical performance of micro-sized SiO-based composite anode by prelithiation of stabilized lithium metal powder. Journal of power sources, vol.347, 170-177.
Woo, J., Baek, S.H., Park, J.S., Jeong, Y.M., Kim, J.H.. Improved electrochemical performance of boron-doped SiO negative electrode materials in lithium-ion batteries. Journal of power sources, vol.299, 25-31.
Xu, Quan, Sun, Jian‐Kun, Yin, Ya‐Xia, Guo, Yu‐Guo. Facile Synthesis of Blocky SiOx/C with Graphite‐Like Structure for High‐Performance Lithium‐Ion Battery Anodes. Advanced functional materials, vol.28, no.8, 1705235-.
Li, Zhaohuai, He, Qiu, He, Liang, Hu, Ping, Li, Wei, Yan, Haowu, Peng, Xianzhou, Huang, Congyun, Mai, Liqiang. Self-sacrificed synthesis of carbon-coated SiOx nanowires for high capacity lithium ion battery anodes. Journal of materials chemistry. A, Materials for energy and sustainability, vol.5, no.8, 4183-4189.
Cui, Jinlong, Cui, Yongfu, Li, Shaohui, Sun, Hongliang, Wen, Zhongsheng, Sun, Juncai. Microsized Porous SiOx@C Composites Synthesized through Aluminothermic Reduction from Rice Husks and Used as Anode for Lithium-Ion Batteries. ACS applied materials & interfaces, vol.8, no.44, 30239-30247.
Zhang, Junying, Zhang, Xiaoming, Zhang, Chunqian, Liu, Zhi, Zheng, Jun, Zuo, Yuhua, Xue, Chunlai, Li, Chuanbo, Cheng, Buwen. Facile and Efficient Synthesis of a Microsized SiOx/C Core–Shell Composite as Anode Material for Lithium Ion Batteries. Energy & fuels : an American Chemical Society journal, vol.31, no.8, 8758-8763.
Yu, Qiang, Ge, Peipei, Liu, Zhenhui, Xu, Ming, Yang, Wei, Zhou, Liang, Zhao, Dongyuan, Mai, Liqiang. Ultrafine SiOx/C nanospheres and their pomegranate-like assemblies for high-performance lithium storage. Journal of materials chemistry. A, Materials for energy and sustainability, vol.6, no.30, 14903-14909.
Lee, Jaewoo, Moon, Janghyuk, Han, Sang A, Kim, Junyoung, Malgras, Victor, Heo, Yoon-Uk, Kim, Hansu, Lee, Sang-Min, Liu, Hua Kun, Dou, Shi Xue, Yamauchi, Yusuke, Park, Min-Sik, Kim, Jung Ho. Everlasting Living and Breathing Gyroid 3D Network in Si@SiOx/C Nanoarchitecture for Lithium Ion Battery. ACS nano, vol.13, no.8, 9607-9619.
Feng, Li, Han, Xue, Su, Xiaoru, Pang, Baocheng, Luo, Yulin, Hu, Fang, Zhou, Mingjiong, Tao, Kai, Xia, Yongyao. Metal-organic frameworks derived porous carbon coated SiO composite as superior anode material for lithium ion batteries. Journal of alloys and compounds, vol.765, 512-519.
Liu, Dan, Chen, Congrui, Hu, Yanyan, Wu, Jorryn, Zheng, Dong, Xie, Zhi-zhong, Wang, Gongwei, Qu, Deyang, Li, Junsheng, Qu, Deyu. Reduced graphene-oxide/highly ordered mesoporous SiOx hybrid material as an anode material for lithium ion batteries. Electrochimica acta, vol.273, 26-33.
Tang, Chunjuan, Liu, Yuning, Xu, Chang, Zhu, Jiexin, Wei, Xiujuan, Zhou, Liang, He, Liang, Yang, Wei, Mai, Liqiang. Ultrafine Nickel‐Nanoparticle‐Enabled SiO2 Hierarchical Hollow Spheres for High‐Performance Lithium Storage. Advanced functional materials, vol.28, no.3, 1704561-.
Liu, Yanchen, Huang, Jiayi, Zhang, Xiaoqing, Wu, Junwei, Baker, Andrew, Zhang, Huayu, Chang, Song, Zhang, Xinhe. A bm-SiO/Ni/rGO composite as an anode material for lithium-ion batteries. Journal of alloys and compounds, vol.749, 236-243.
Wu, Jingxia, Hong, Yang, Wang, Bingjie. The applications of carbon nanomaterials in fiber-shaped energy storage devices. Journal of semiconductors, vol.39, no.1, 011004-.
Li, Shuo, Feng, Xiao, Liu, Hao, Wang, Kai, Long, Yun-Ze, Ramakrishna, S.. Preparation and application of carbon nanotubes flexible sensors. Journal of semiconductors, vol.40, no.11, 111606-.
Geim, A. K., Novoselov, K. S.. The rise of graphene. Nature materials, vol.6, no.3, 183-191.
Xu, Quan, Sun, Jian‐Kun, Yu, Zhi‐Long, Yin, Ya‐Xia, Xin, Sen, Yu, Shu‐Hong, Guo, Yu‐Guo. SiOx Encapsulated in Graphene Bubble Film: An Ultrastable Li‐Ion Battery Anode. Advanced materials, vol.30, no.25, 1707430-.
Shi, Liurong, Pang, Chunlei, Chen, Shulin, Wang, Mingzhan, Wang, Kexin, Tan, Zhenjun, Gao, Peng, Ren, Jianguo, Huang, Youyuan, Peng, Hailin, Liu, Zhongfan. Vertical Graphene Growth on SiO Microparticles for Stable Lithium Ion Battery Anodes. Nano letters : a journal dedicated to nanoscience and nanotechnology, vol.17, no.6, 3681-3687.
Zhang, J., Zhang, C., Liu, Z., Zheng, J., Zuo, Y., Xue, C., Li, C., Cheng, B.. High-performance ball-milled SiOx anodes for lithium ion batteries. Journal of power sources, vol.339, 86-92.
Hummers Jr., William S., Offeman, Richard E.. Preparation of Graphitic Oxide. Journal of the American Chemical Society, vol.80, no.6, 1339-1339.
Xu, Yuxi, Sheng, Kaixuan, Li, Chun, Shi, Gaoquan. Self-Assembled Graphene Hydrogel via a One-Step Hydrothermal Process. ACS nano, vol.4, no.7, 4324-4330.
Li, Huan-Huan, Wu, Xing-Long, Sun, Hai-Zhu, Wang, Kang, Fan, Chao-Ying, Zhang, Lin-Lin, Yang, Feng-Mei, Zhang, Jing-Ping. Dual-Porosity SiO2/C Nanocomposite with Enhanced Lithium Storage Performance. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.119, no.7, 3495-3501.
Ren, Y., Li, M.. Facile synthesis of SiOxΓ composite nanorods as anodes for lithium ion batteries with excellent electrochemical performance. Journal of power sources, vol.306, 459-466.
Lv, P., Zhao, H., Gao, C., Zhang, T., Liu, X.. Highly efficient and scalable synthesis of SiOx/C composite with core-shell nanostructure as high-performance anode material for lithium ion batteries. Electrochimica acta, vol.152, 345-351.
Agyeman, Daniel Adjei, Song, Kyeongse, Lee, Gi‐Hyeok, Park, Mihui, Kang, Yong‐Mook. Carbon‐Coated Si Nanoparticles Anchored between Reduced Graphene Oxides as an Extremely Reversible Anode Material for High Energy‐Density Li‐Ion Battery. Advanced energy materials, vol.6, no.20, 1600904-.
Zhang, Junying, Zhang, Xiaoming, Hou, Zhiling, Zhang, Lichun, Li, Chuanbo. Uniform SiOx/graphene composite materials for lithium ion battery anodes. Journal of alloys and compounds, vol.809, 151798-.
Huang, Xingkang, Mao, Shun, Chang, Jingbo, Hallac, Peter B., Fell, Christopher R., Luo, Yanting, Metz, Bernhard, Jiang, Junwei, Chen, Junhong. Improving cyclic performance of Si anode for lithium-ion batteries by forming an intermetallic skin. RSC advances, vol.5, no.48, 38660-38664.
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