欢迎访问《电化学(中英文)》期刊官方网站,今天是
研究论文

掺磷酚醛树脂炭嵌锂性能研究

  • 李宝华 ,
  • 李开喜 ,
  • 吕永根 ,
  • 吕春祥 ,
  • 吴东 ,
  • 凌立成
展开
  • 中国科学院山西煤炭化学研究所煤转化国家重点实验室,中国科学院山西煤炭化学研究所煤转化国家重点实验室,中国科学院山西煤炭化学研究所煤转化国家重点实验室,中国科学院山西煤炭化学研究所煤转化国家重点实验室,中国科学院山西煤炭化学研究所煤转化国家重点实验室,中国科学院山西煤炭化学研究所煤转化国家重点实验室 山西太原030001 ,山西太原030001 ,山西太原030001 ,山西太原030001 ,山西太原030001 ,山西太原030001

收稿日期: 2002-11-28

  修回日期: 2002-11-28

  网络出版日期: 2002-11-28

Lithium Intercalation Performance of P-Doped Phenolic Resin Pyrolysis Carbon

  • LI Bao-hua ,
  • LI Kai-xi ,
  • LU Yonggen ,
  • LU Chun-xiang ,
  • WU Dong ,
  • LING Li-cheng
Expand
  • (State Key Laboratory of Coal Conversion, Institute of Coal Chemistry, Chinese Academy of Sciences, Taiyuan 030001,China

Received date: 2002-11-28

  Revised date: 2002-11-28

  Online published: 2002-11-28

摘要

以添加不同含量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 70 0℃裂解制备掺磷树脂裂解炭 .X射线衍射考察了裂解炭的微晶结构变化 ;恒电流技术研究了裂解炭的充放电性能 .实验表明 ,五氧化二磷的加入使树脂裂解炭微晶结构发生了很大改变 ,随着磷含量的增加微晶层间距减小 ,而且更加无序 ;其放电可逆容量随五氧化二磷掺杂量的增加先增而后减 ,当P2 O5含量为 9wt%时 ,可逆容量达到最大值 (5 2 8mA·h·g- 1) ,是未掺杂 (2 30mA·h·g- 1)的 2倍多

本文引用格式

李宝华 , 李开喜 , 吕永根 , 吕春祥 , 吴东 , 凌立成 . 掺磷酚醛树脂炭嵌锂性能研究[J]. 电化学, 2002 , 8(4) : 415 -419 . DOI: 10.61558/2993-074X.1470

Abstract

Phosphorus-doped phenolic resin carbon was prepared by low temperature(700 ℃)pyrolysis of thermoplastic phenolic resin containing different amounts of phosphorus pentoxide after curing. X-ray diffraction pattern and the constang-current charge-discharge properties of phenolic resin carbon were studied. The results showed that the phenolic resin carbon microstructure became out of order with increasing of content phosphorus pentoxide,otherwise,the first discharge reversible capacities increased firstly and then decreased. The first discharge reversible capacity of phenolic resin carbon containing 9wt% phosphorus pentoxide was 528 mA·h·g -1 which was higher than that of non-phosphorus doped phenolic resin carbon(230 mA·h·g -1 ) did.

参考文献

[1] YouJinkua,YangYong,ShuDong,etal.Studyonnanoelectrodematerialsoflithiumionbatteries[J].Elec trochemistry,1998,4(1):94~100. [2] WuGuotao,WangChunsheng,QiZhougu,etal.Lithiuminsertionincarbonnanotubes[J].Electrochemistry,1998,4(3):313~316. [3] DengZhenghua,ZhangXiaozheng,DingXiaobing,etal.Li_ionintercalationcharacteristicofgas_coke[J].Elec trochemistry,1998,4(3):340~344. [4] LiBaohua,LuYonggen,LingLicheng,etal.Charge_dischargepropertiesofthemesocarbonmicrobeadsheat_treatedatvarioustemperaturefortheanodeoflithiumionbatteries[J].NewCarbonMaterials,1999,14(4):28~33. [5] LiBaohua,LiKai_xi,MengQing_han,etal.Studyoncarbonfrompyrolyzingphenol_formadehyderesinforananodeoflithiumionbattery[J].NewCarbonMaterials,2000,15(4):58~61. [6] WuYuping,WanChunrong,JiangYingyan,etal.Modificationofcarbonanodematerialsoflithium_ionsec ondarybattery[J].Electrochemistry,1998,4(3):286~292. [7] KimC ,FujinoT ,MiyashitaK ,etal.Microstructureandelectrochemicalpropertiesofborn_dopedmesocarbonmicrobeads[J].J .Electrochem,Soc.,2000,147(4):1257~1264. [8] HerbertH ,KenshinS ,NemotoH .Nanostructurecriteriaforlithiumintercalatioinnon_dopedandphosphorus_carboncarbons[J].J.PowerSources,1997,68:258~262. [9] MaShuhua,Guohanju,LiJi,etal.Surfacemodificationsofcarbonmaterialsusedasanodeoflithiumionbat tery[J].Electrochemistry,1998,4(1):86~91. [10] LiBaohua,LiKai_xi,LuChunxiang,etal.Investigationofgraphitecoatedwithphenolresinasanodeforlithiumionbattery[J].NewCarbonMaterials,2000,25(5):337~340. [11] LiBaohua,LiKai_xi,LuChunxiang,etal.Modifiedgraphiteasanodeforlithiumionbattery[J].ChineseJournalofPowerSources,2000,25(5):337~340. [12] MaShuhua,Guohanju,LiJi,etal.Surfacemodificationsofcarbonmaterialsusedasanodeoflithiumionbat tery[J].Electrochemistry,1998,4(3):293~296.
文章导航

/