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一种估算多壁碳纳米管电化学容量的方法 被引量:2

One Way to Estimate the Electrochemical Capacitance of Multi-walled Carbon Nanotubes
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摘要 Five kinds of multi - walled carbon nanotubes were prepared by CVD(Chemical Vapour Deposition)and puri - fied under the same conditions,then were used as electrodes for super capacitors in order to compare their per - formance.The differences measured in terms of specific capacitance by galvanostatic cycling were presented,porosity measurements using nitrogen at77K made on carbon nanotubes allowd a better understanding of the electrochemical behavior of these carbon nanotubes.The experiment results show that pore diameter in the range of more than3nm is required to maximize the capacitance in the electrolyte of1.0mol · L -1 LiClO 4 /EC+DEC(V EC ∶ V DEC =1 ∶ 1),and the BET surface area contributed by this extent is almost linear with the specific capacitance,in which an average value is about0.11F · m -2 ,and the specific capacitance estimated from above is very close to the value by experiment. Five kinds of multi - walled carbon nanotubes were prepared by CVD(Chemical Vapour Deposition)and puri - fied under the same conditions,then were used as electrodes for super capacitors in order to compare their per - formance.The differences measured in terms of specific capacitance by galvanostatic cycling were presented,porosity measurements using nitrogen at77K made on carbon nanotubes allowd a better understanding of the electrochemical behavior of these carbon nanotubes.The experiment results show that pore diameter in the range of more than3nm is required to maximize the capacitance in the electrolyte of1.0mol · L -1 LiClO 4 /EC+DEC(V EC ∶ V DEC =1 ∶ 1),and the BET surface area contributed by this extent is almost linear with the specific capacitance,in which an average value is about0.11F · m -2 ,and the specific capacitance estimated from above is very close to the value by experiment.
出处 《无机化学学报》 SCIE CAS CSCD 北大核心 2004年第4期369-372,共4页 Chinese Journal of Inorganic Chemistry
基金 中国科学院知识创新工程资助项目(No.KJCX1-06-04) 宁波杉杉科技创业园有限公司委托项目。
关键词 多壁碳纳米管 电化学容量 超级电容器 电极材料 比表面积 孔容 孔径分布 supercapacitors carbon nanotubes structure electrochemical capacitance
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