Paper Titles

Efficiency Enhancement of ZnO Nanocrystalline Dye-Sensitized Solar Cells by Post-Treatment
p.901

Optimized Synthetic Conditions of 0.6Li₂MnO₃·0.4LiNi_1/3Co_1/3Mn_1/3O₂ Cathode Materials for Lithium Batteries via Sol-Gel Method
p.908

Facile Synthesis of CoSe₂ Nanoparticles and their Electrocatalytic Performance for Hydrogen Evolution Reaction
p.916

Homogeneous Growth of Ni(OH)₂ Nanoparticle on Graphene Nanosheet for High-Performance Supercapacitor Electrode Material
p.921

Study on Preparation of Si/C Anode Material by Spray Dying and Carbonization
p.928

Semiconductor Nanocrystals for Photovoltaic Devices
p.935

The Variable Super-Capacitor with Nano-Diamond Film Electrode
p.939

Design and Experiment of Rare Earth Giant Magnetostrictive Piston Pump
p.943

SiC/SiO₂ Coating on Matrix Graphite Spheres of HTR Fuel Element Produced by a Two-Step Pack Cementation/High-Temperature Oxidation Process
p.952

HomeMaterials Science ForumMaterials Science Forum Vol. 852Study on Preparation of Si/C Anode Material by...

Study on Preparation of Si/C Anode Material by Spray Dying and Carbonization

Article Preview

Abstract:

Si/C composites were prepared by spray dying and carbonization process using silica powder, artificial graphite and glucose as raw materials. The physicochemical property and electrochemical performance of composite materials were characterized by XRD, SEM, constant current charge-discharge and cyclic voltammeter (CA) test, respectively. The results show that composite anode materials have pure phase structure with particle size of 5~20μm, and its special structure that silicon and graphite particles are constructed can exhibit good electrochemical performance. The initial discharge specific capacity of Si/C composites is 1033.2mAhg^-1 at a current density of 100mAg^-1.While the current density is as high as 600mAg^-1, the discharge specific capacity is 584.2mAhg^-1, and the first cycle coulombic efficiency is 77.3% at 100mAg^-1.The mechanism of capacity fading of Si/C composites is discussed by different morphology characterization after 100 cycles.

You might also be interested in these eBooks

Functional Materials Research

Info:

Periodical:

Materials Science Forum (Volume 852)

Pages:

928-934

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.852.928

Citation:

Cite this paper

Online since:

April 2016

Authors:

Fang Ming Xiao*, Guo Ge Peng, Ying Wang, Ren Heng Tang, Zhi Ping Xiao, Tai Sun

Keywords:

Carbonization, Electrochemical Performance, Lithium Batteries, Si/C Composite, Spray Dying

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2016 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Reona Miyazaki, Narumi Ohta, Tsuyoshi Ohnishi, Isao Sakaguchi an Kazunori Takada: Journal of Power Sources, Vol. 272(2014), P541.

[2] Hui Wu, Yi Cui: Nano Today, Vol. 7(2012)No. 5, P414.

[3] Hong Soo Choi, Jong Gook Lee, Hae Yeon Lee, Sang Won Kim and Chong Rae Park: Electrochimica Acta, Vol 56(2012)No. 2, P790.

[4] Mingru Su, Zhixing Wang, Huajun Guo, Xinhai Li, Silin Huang and Lei Gan: Advanced Powder Technology, Vol. 24(2012)No. 6, P921.

[5] Ying Zheng, Jun Yang, Jiulin Wang and Yanna : Electrochimica Acta, Vol. 52(2007)No. 19, P5863.

[6] Jung Sub Kim, Wilhelm Pfleging, Robert Kohler, Hans Jürgen Seifert, Tae Yong Kim, Dongjin Byun, Hun-Gi Jung, Wonchang Choi and Joong Kee Le: Journal of Power Sources, Vol. 279(2015), P13.

[7] Xiang-yang Zhou, Jing-jing Tang, Juan Yang, Jing Xie and Lu-lu Ma: Electrochimica Acta, 2013, 87: 663- 668.

[8] Hyoung Kyu Han, Chadrasekhar Loka, Yun Mo Yang, Jae Hyuk Kim, Sung Whan Moon, Jong Soo Cho and Kee-Sun Lee: Journal of Power Sources, Vol. 281(2015), P293.

[9] Moni Kanchan Datta, Prashant N. Kumta: Journal of Power Sources, Vol. 194(2009)No. 2, P1043.

[10] Dingsheng Wang, Mingxia Gao, Hongge Pan, Junhua Wang and Yongfeng Liu.: Journal of Power Sources, Vol. 256(2014), P190.

[11] CHEN Li-bao, XIE Xiao-hua, WANG Ke and XIE Jing-ying: Chinese Journal of Power Sources, Vol. 31(2007)No. 1, P34(In Chinese).

[12] LI Min, HOU Xian-hua, WANG Jie, ZHANG Miao, HU She-hui and LIU Xiang: Journal of Functional Materials, Vol. 19(2013)No. 44, P2828(In Chinese).

[13] Cyril Paireau, Séverine Jouanneau, Mohamed-Ramzi Ammar, Patrick Simon and François Béguin: Electrochimica Acta, Vol. 174(2015), P361.

[14] See How Ng, Jiazhao Wang, David Wexler, Sau Yen Chew and Hua Kun Liu: J. Phys. Chem. C, Vol. 111(2007), P11131.

[15] Jun LAI, Hua-jun GUO, Xiang-qun LI, Zhi-xing WANG, Xin-hai LI, Xiao-ping ZHANG, Si-lin HUANG and Lei GAN: Trans. Nonferrous Met. Soc. China, Vol. 23(2013), P1413.

[16] Magasinski A, Dixon P, Hertzberg B, Kvit A and Ayala J: Nature Materials, Vol. 9(2010), P353.

[17] Mélanie Alias, Olivier Crosnier, Izabela Sandu, Gwenole Jestin, Alexandre Papadimopoulos, Frédéric Le Crasb, Donald M. Schleich and Thierry Brousse: Journal of Power Sources, Vol174(2007), P900.

DOI: 10.1016/j.jpowsour.2007.06.088

[18] ZHANG Lei, JIANG Xun-yong and ZHANG Rui : Journal of Functional Materials, Vol. 19(2012)No. 43, P2638(In Chinese).