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  • 第112回GMSI公開セミナー 講演者: Prof. Dr. Esko I. Kauppinen(Department of Applied Physics, Aalto University School of Science, Puumiehenkuja 2, P.O. Box 16100, FI-00076 Aalto, FINLAND) 担当:機械工学専攻 丸山茂夫 教授

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第112回GMSI公開セミナー 講演者: Prof. Dr. Esko I. Kauppinen(Department of Applied Physics, Aalto University School of Science, Puumiehenkuja 2, P.O. Box 16100, FI-00076 Aalto, FINLAND) 担当:機械工学専攻 丸山茂夫 教授

2012.09.20

工学部2号館2F 222講義室

Prof. Dr. Esko I. Kauppinen
         Department of Applied Physics,
         Aalto University School of Science,
         Puumiehenkuja 2,
         P.O. Box 16100, FI-00076 Aalto, FINLAND


題目:Studies on CVD growth and oxidation of SWCNTs

内容の概要説明:
We review our recent results on SWCNT direct, dry deposition from the floating catalyst reactor, called Direct Dry printing (DPP), to manufacture transparent thin film conductors and field effect transistors (TFT). Also, we discuss the (n,m) maps of our tubes produced from CO using Fe nanoparticle catalysts as determined by ED/TEM method. To further control the tube properties, we have carried out studies on SWCNT growth from carbon monoxide (CO) using supported CVD methods, both at ambient CO pressure in the in-situ Raman microscope as well as at 7 mbar pressure inside the dedicated, Cs-corrected environmental TEM (ETEM). When using supported bimetallic Fe-Cu catalysts, narrow chiral distribution SWCNTs were produced at ambient pressure growth. In addition, epitaxial formation of cobalt (Co) nanoparticles from CoxMg1-xO solid solution reduction (deposited into MgO via impregnation) in CO enables to grow SWNTs also with a narrow diameter distribution. (ETEM) studies at reduced pressure reveal that the Co nanoparticles remain in metallic state and their epitaxial contact with MgO support remains coherent during SWNT root growth process. Interestingly, when depositing Co via atomic layer deposition (ALD) onto MgO surface, we observe tip growth of SWCNTs inside the ETEM at 700oC, with the Co catalyst nanoparticle shape as well as the tube growth direction fluctuating during the growth process. We compare the observed growth dynamics to the state-of-the-art Monte Carlo modeling results. In order to understand the role of oxidation reaction during the synthesis (as trace amount of CO2 is needed for successful synthesis in our floating catalyst method), we have carried out studies on individual SWCNT oxidation at ambient air vs. temperature via ex-situ ED/TEM method.

日時:2012年9月20日(木) 13:00-14:30
場所:東京大学工学部2号館2F 222講義室

添付ファイル: 第112回公開セミナー.pdf

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