本文主要研究内容
作者(2019)在《One-step synthesis of robust carbon nanotube foams with ultrahigh surface area for high-performance lithium ion battery》一文中研究指出:A novel three-dimensional(3D) carbon nanotube foams(CNTF) with ultrahigh specific surface area have been fabricated through a unique but facile one-step synthesis by using CO2 as both carbon source and activating agent. The activation temperature and time have been adjusted, and the best sample demonstrates a specific surface area of 1959.8 m2g–1 and a total pore volume of 3.23 cm3g–1. A reversible capacity of about 870 mAhg–1 is maintained at 50 mAg–1 when the CNTF used as cathode materials. Meanwhile, the capacity is as large as 320 mAhg–1 at the current density of 2 A g–1 and the capacity retention is nearly 100% after 500 cycles. These excellent and highly stable battery performances should be attributed to the structural advantages of as-synthesized CNTFs generated by using a facile CO2-assisted strategy, which may potentially be applied in large scale production of porous 3D carbon materials in the fields of energy storage and conversion.
Abstract
A novel three-dimensional(3D) carbon nanotube foams(CNTF) with ultrahigh specific surface area have been fabricated through a unique but facile one-step synthesis by using CO2 as both carbon source and activating agent. The activation temperature and time have been adjusted, and the best sample demonstrates a specific surface area of 1959.8 m2g–1 and a total pore volume of 3.23 cm3g–1. A reversible capacity of about 870 mAhg–1 is maintained at 50 mAg–1 when the CNTF used as cathode materials. Meanwhile, the capacity is as large as 320 mAhg–1 at the current density of 2 A g–1 and the capacity retention is nearly 100% after 500 cycles. These excellent and highly stable battery performances should be attributed to the structural advantages of as-synthesized CNTFs generated by using a facile CO2-assisted strategy, which may potentially be applied in large scale production of porous 3D carbon materials in the fields of energy storage and conversion.
论文参考文献
[1].Mn3O4/carbon nanotube nanocomposites recycled from waste alkaline Zn–MnO2 batteries as high-performance energy materials[J]. Li-Hua Zhang,Si-Si Wu,Yi Wan,Yi-Feng Huo,Yao-Cong Luo,Ming-Yang Yang,Min-Chan Li,Zhou-Guang Lu. Rare Metals.2017(05)[2].Phosphomolybdic acid-modified highly organized TiO2 nanotube arrays with rapid photochromic performance[J]. Yuanyuan Wei,Bing Han,Zhaojun Dong,Wei Feng. Journal of Materials Science & Technology.2019(09)[3].Nitrogen-doped carbon nanotube encapsulating cobalt nanoparticles towards efficient oxygen reduction for zinc–air battery[J]. Haihua Wu,Xiaole Jiang,Yifan Ye,Chengcheng Yan,Songhai Xie,Shu Miao,Guoxiong Wang,Xinhe Bao. Journal of Energy Chemistry.2017(06)[4].Performance improvement of continuous carbon nanotube fibers by acid treatment[J]. 张强,李克伟,范庆霞,夏晓刚,张楠,肖卓建,周文斌,杨丰,王艳春,刘华平,周维亚. Chinese Physics B.2017(02)[5].Antioxidant Properties of Substituted Thymols and Their Adsorption on Aluminum Phosphide(AlP) Nanotube(8,0) as Controlled Drug Delivery Device: Theoretical Study in Gas Phase and Ethanol[J]. MEYSAM Najafi. 结构化学.2017(02)[6].Electronic structures and optical properties of a SiC nanotube with vacancy defects[J]. 宋久旭,杨银堂,王平,郭立新,张志勇. Journal of Semiconductors.2013(02)[7].A statistical mechanics model of carbon nanotube macro-films[J]. Y.An,1 X.Li,2 B.Q.Wei,2 and H.Jiang 1,a) 1) School for Engineering of Matter,Transport,and Energy,ArizonaStateUniversity,Tempe,AZ 85287,USA 2) Department of Mechanical Engineering,University of Delaware,Newark,DE 19716,USA. Theoretical & Applied Mechanics Letters.2011(04)[8].Preparation and photoelectric effect of Zn2+-TiO2 nanotube arrays[J]. 周艺,石德晖,李宏,党铭铭,吕彩霞,黄可龙. Transactions of Nonferrous Metals Society of China.2010(12)[9].Effects of TiN film coating on electrochemical behaviors of nanotube formed Ti-xHf alloys[J]. Kang LEE,Won-Gi KIM,Joo-Young CHO,Sang-Won EUN,Han-Cheol CHOE. Transactions of Nonferrous Metals Society of China.2009(04)[10].Effect of acid oxidization of carbon nanotube electrode on the capacitances of double layer capacitors[J]. Li Chensha1,WANG Dazhi1,LIANG Tongxiang2,WANG Xiaofeng1 & LIANG Ji1 1. Department of Mechanical Engineering, Tsinghua University,Beijing 100084, China; 2. Institute of Nuclear Energy Technology, Tsinghua University,Beijng 102201,China. Science in China(Series E:Technological Sciences).2004(03)
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:One-step synthesis of robust carbon nanotube foams with ultrahigh surface area for high-performance lithium ion battery论文
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