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掺磷酚醛树脂炭用作锂离子电池负极的研究 被引量:1

Phenolic Resin Pyrolysis Carbon Phosphorus-Doped as Anode for Lithium Ion Battery
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摘要 以添加不同含量的五氧化二磷的热塑性酚醛树脂为前驱体,经热固化后升温至600~1600℃下热裂解制备掺磷树脂裂解炭.元素分析、氮气物理吸附和X射线衍射分别考察了裂解炭的元素组成、BET比表面积以及微晶结构变化;恒定电流充放电技术研究了裂解炭的充放电性能.研究发现五氧化二磷的加入使得树脂裂解炭的微晶结构发生了很大改变:随着磷掺杂量的增加,树脂炭的微晶层间距减小,微晶变得更加无序;BET比表面积先减小而后增加;放电容量先增加而后减小,当其含量为 9wt%时,放电容量达到最大值(528mA·h·g-1),是掺杂前(230mA·h·g-1)的2倍多. Phosphorus-doped phenolic resin pyrolysis carbon was prepared by low temperature (600similar to1600degreesC) pyrolysis of thermoplastic phenolic resin containing different amounts of phosphorus pentoxide after curing. Elemental composition and BET surface area of pyrolysis carbon were investigated. X-ray diffraction pattern and constant-current charge-discharge properties of pyrolysis carbon were studied. The results show that the pyrolysis carbon microstructure is out of order with the increasing of content phosphorus pentoxide, and BET surface area decreases firstly and then increases, otherwise, the discharge reversible capacity increases firstly and then decreases. The discharge reversible capacity of pyrolytic carbon containing 9wt% phosphorus pentoxide is 528mA.h.g(-1) which is higher than that of non-phosphorus doped phenolic pyrolysis resin carbon (230 mA.h.g(-1)).
作者 李宝华 李开喜 吕春祥 吴东 凌立成
机构地区 中国科学院山西煤炭化学研究所煤转化国家重点实验室
出处 《无机材料学报》 SCIE EI CAS CSCD 北大核心 2002年第4期672-678,共7页 Journal of Inorganic Materials
基金 山西省自然科学基金(995702-2) 中科院重点基金 石油大学重质油加工国家重点实验室开放基金(199901)
关键词 酚醛树脂炭 锂离子电池 炭负极 充电性能 掺杂 材料 放电性能 phenolic resin carbon phosphorus-doped lithium ion battery carbon anode
分类号 TM912 [电气工程—电力电子与电力传动] TM242 [一般工业技术—材料科学与工程]
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共引文献65

同被引文献18

  • 1黄伯云,熊翔.高性能炭/炭航空制动材料的制备技术[M].长沙:湖南科学技术出版社,2007:157-170.
  • 2Yang Juan, Zhou Xiang-yang, Li Jie, Zou You- lan, Tang Jing-jing. Study of nano-porous hard carbons as anode materials for lithium ion batteries [J]. Materials Chemistry and Physics, submitted for publication.
  • 3FUJIMOTO H, TOKUMITISU K, MABUCHI A, CHINNASAMY N, KASUH T. The anode performance of the hard carbon for the lithium ion battery derived from the oxygen-containing aromatic precursors[J]. Journal of Power Sources, 2010, 195: 7452-7456.
  • 4SUBRAMANIAN V, TANSEL K, CHARAN M, RANGANATH T, LU T, WEI Bing-qing. Low hydrogen containing amorphous carbon films-- Growth and electrochemical properties as lithium battery anodes [J]. Journal of Power Sources, 2010, 195: 2044-2049.
  • 5SYLVAIN LATIL , LUC HENRARD. Charge carriers in few-Layer graphene films[J]. Physical Review Letters, 2006,97(3): 036803.
  • 6Carlsson JM, Scheffler M. Structural, electronic, and chemical properties of nanoporous carbon[J]. Physical Review Letters, 2006,96(4): 046804.
  • 7Ruili Liu, Dongqing Wu, Xinliang Feng, Klaus M ti lien . Nitrogen-Doped Ordered Mesoporous Graphitic Arrays with High Electrocatalytic Activity for Oxygen Reduction. [J]. Angewandte Chemie International Edition,2010,49(14):2565-2569.
  • 8Nam Dong Kima, Wooyoung Kima, Ji Bong Jooa, Seogil Oha, Pil Kimb, Younghun Kimc, Jongheop Yia. Electrochemical capacitor performance of N-doped mesoporous carbons prepared by ammoxidation[J]. Journal of Power Sources,2008,180(1):671-675.
  • 9Jian Zhang, Xi Liu, Raoul Blume, Aihua Zhang, Robert SchliSgl , Dang Sheng Su. Surface-Modified Carbon Nanotubes Catalyze Oxidative Dehydrogenation of n-Butane[J]. Science,2008,322(5898):73-77.
  • 10Biljana F. Abramovi$ Luka J. Bjelica, Ferenc F. Gal, Val6ria J. Guzsvtny, Ljiljana S. Jovanovic. Some Electrochemical Characteristics of Boron- and Phosphorus-Doped Glassy Carbon Electrodes[J].Elect roanalysis,2003,15(lO):878-884.

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无机材料学报
2002年 第4期

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