Preparation and Characterization of Carbon Nanotubes-Coated Cordierite for Catalyst Supports

The carbon nanotubes-coated cordierite (CNTs-cordierite) was fabricated by pyrolysis of ethine on cordierite with iron catalyst, which was penetrated into the cordierite substrate by vacuum impregnation. The cordierite substrate, carbon naontubes, and CNTs-cordierite were characterized by SEM, TEM/H...

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Veröffentlicht in:	Journal of natural gas chemistry 2006-09, Vol.15 (3), p.211-216
Hauptverfasser:	Wang, Jianmei, Wang, Rong, Yu, Xiujin, Lin, Jianxin, Xie, Feng, Wei, Kemei
Format:	Artikel
Sprache:	eng
Schlagworte:	carbon nanotube catalyst support cordierite ethine pyrolysis
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container_title	Journal of natural gas chemistry
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creator	Wang, Jianmei Wang, Rong Yu, Xiujin Lin, Jianxin Xie, Feng Wei, Kemei
description	The carbon nanotubes-coated cordierite (CNTs-cordierite) was fabricated by pyrolysis of ethine on cordierite with iron catalyst, which was penetrated into the cordierite substrate by vacuum impregnation. The cordierite substrate, carbon naontubes, and CNTs-cordierite were characterized by SEM, TEM/HREM, BET, and TGA. The results show that the carbon nanotubes were distributed uniformly on the surface of cordierite. A significant increase in BET surface area and pore volume was observed, and a suitable pore-size distribution was obtained. On the CNTs-cordierite, carbon nanotubes penetrated into the cordierite substrate, which led to a remarkable stability of the CNTs against ultrasound maltreatment. Growth time is an important factor for thermostability and texture of the sample. The mass increased but the purity decreased with the growth time, which caused the exothermic peak shift to low temperature, and the corresponding full width half maximum (FWHM) of the peak in DTG increased.
doi_str_mv	10.1016/S1003-9953(06)60028-5
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The cordierite substrate, carbon naontubes, and CNTs-cordierite were characterized by SEM, TEM/HREM, BET, and TGA. The results show that the carbon nanotubes were distributed uniformly on the surface of cordierite. A significant increase in BET surface area and pore volume was observed, and a suitable pore-size distribution was obtained. On the CNTs-cordierite, carbon nanotubes penetrated into the cordierite substrate, which led to a remarkable stability of the CNTs against ultrasound maltreatment. Growth time is an important factor for thermostability and texture of the sample. 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title	Preparation and Characterization of Carbon Nanotubes-Coated Cordierite for Catalyst Supports
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