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Alignment of Nanoscale Single-Walled Carbon Nanotubes Strands
  • 时间:0
  • 分类:TB383.1[一般工业技术—材料科学与工程] O613.71[理学—无机化学;理学—化学]
  • 作者机构:School of Chemical Engineering, Sichuan University, Academy of Military Medical sciences, Chinese PLA Center for Disease Control & Prevention
  • 相关基金:the financial supports of NSFC(No.20805033 and 30901199);SRF for ROCS,SEM(2008890-19-9);Doctoral Education Fund for New Teachers(200806101048)
  • 相关项目:基于水平取向单壁碳纳米管场效应晶体管构建生物传感器的研究
中文摘要:

Depositing single-walled carbon nanotubes(SWNTs) with controllable density, pattern and orientation on electrodes presents a challenge in today’s research. Here, we report a novel solvent evaporation method to align SWNTs in patterns having nanoscale width and micronscale length. SWNTs suspension has been introduced dropwise onto photoresist resin microchannels; and the capillary force can stretch and align SWNTs into strands with nanoscale width in the microchannels. Then these narrow and long aligned SWNTs patterns were successfully transferred to a pair of gold electrodes with different gaps to fabricate carbon nanotube field-effect transistor(CNTFET). Moreover, the electrical performance of the CNTFET show that the SWNTs strands can bridge different gaps and fabricate good electrical performance CNTFET with ON/OFF ratio around 106. This result suggests a promising and simple strategy for assembling well-aligned SWNTs into CNTFET device with good electrical performance.

英文摘要:

Depositing single-walled carbon nanotubes (SWNTs) with controllable density, pattern and orientation on electrodes presents a challenge in today's research. Here, we report a novel solvent evaporation method to align SWNTs in patterns having nanoscale width and micronscale length. SWNTs suspension has been introduced dropwise onto photoresist resin microchannels; and the capillary force can stretch and align SWNTs into strands with nanoscale width in the microchannels. Then these narrow and long aligned SWNTs patterns were successfully transferred to a pair of gold electrodes with different gaps to fabricate carbon nanotube field-effect transistor (CNTFET). Moreover, the electrical performance of the CNTFET show that the SWNTs strands can bridge different gaps and fabricate good electrical performance CAT-PET with ON/OFF ratio around 10(6). This result suggests a promising and simple strategy for assembling well-aligned SWNTs into CNTFET device with good electrical performance.

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