Design and determination of new bimodal pore catalyst structure with hetero atom combination by inside-pore organization of nano-particles from sol

Yi Zhang; Noritats Tsubaki; Ruiqin Yang; Kenji Matsuda; Susumu Ikeno

doi:10.1166/jnn.2009.NS81

Design and determination of new bimodal pore catalyst structure with hetero atom combination by inside-pore organization of nano-particles from sol

Yi Zhang, Noritats Tsubaki^*, Ruiqin Yang, Kenji Matsuda, Susumu Ikeno

^*この論文の責任著者

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

4 被引用数 (Scopus)

抄録

A catalyst support with spatially-connected small pores and large pores, as a distinct bimodal pore structure, has been developed, which has excellent advantages in solid-catalysis reactions because the large pores provide pathways for rapid molecular transportation and the small pores serve a large area of active surface. The obtained Zr0 ₂-Si0 ₂ bimodal support loaded with cobalt was applied in siurry-phase Fischer-Tropsch synthesis (FTS). The bimodal catalyst presented the best reaction performance in slurry-phase FTS as higher reaction rate and lower methane selectivity, because the spatially promotional effect of bimodal structure and the chemically promotional effect of the porous zirconia were available at the same time inside the large pores of original silica gel.

本文言語	英語
ページ（範囲）	3866-3871
ページ数	6
ジャーナル	Journal of Nanoscience and Nanotechnology
巻	9
号	6
DOI	https://doi.org/10.1166/jnn.2009.NS81
出版ステータス	出版済み - 2009/06

ASJC Scopus 主題領域

バイオエンジニアリング
化学一般
生体医工学
材料科学一般
凝縮系物理学

文献へのアクセス

10.1166/jnn.2009.NS81

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引用スタイル

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title = "Design and determination of new bimodal pore catalyst structure with hetero atom combination by inside-pore organization of nano-particles from sol",

abstract = "A catalyst support with spatially-connected small pores and large pores, as a distinct bimodal pore structure, has been developed, which has excellent advantages in solid-catalysis reactions because the large pores provide pathways for rapid molecular transportation and the small pores serve a large area of active surface. The obtained Zr0 2-Si0 2 bimodal support loaded with cobalt was applied in siurry-phase Fischer-Tropsch synthesis (FTS). The bimodal catalyst presented the best reaction performance in slurry-phase FTS as higher reaction rate and lower methane selectivity, because the spatially promotional effect of bimodal structure and the chemically promotional effect of the porous zirconia were available at the same time inside the large pores of original silica gel.",

keywords = "Bimodal support, Cobalt catalyst, Fischer-tropsch synthesis, Syngas, Zirconia",

author = "Yi Zhang and Noritats Tsubaki and Ruiqin Yang and Kenji Matsuda and Susumu Ikeno",

year = "2009",

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doi = "10.1166/jnn.2009.NS81",

language = "英語",

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T1 - Design and determination of new bimodal pore catalyst structure with hetero atom combination by inside-pore organization of nano-particles from sol

AU - Zhang, Yi

AU - Tsubaki, Noritats

AU - Yang, Ruiqin

AU - Matsuda, Kenji

AU - Ikeno, Susumu

PY - 2009/6

Y1 - 2009/6

N2 - A catalyst support with spatially-connected small pores and large pores, as a distinct bimodal pore structure, has been developed, which has excellent advantages in solid-catalysis reactions because the large pores provide pathways for rapid molecular transportation and the small pores serve a large area of active surface. The obtained Zr0 2-Si0 2 bimodal support loaded with cobalt was applied in siurry-phase Fischer-Tropsch synthesis (FTS). The bimodal catalyst presented the best reaction performance in slurry-phase FTS as higher reaction rate and lower methane selectivity, because the spatially promotional effect of bimodal structure and the chemically promotional effect of the porous zirconia were available at the same time inside the large pores of original silica gel.

AB - A catalyst support with spatially-connected small pores and large pores, as a distinct bimodal pore structure, has been developed, which has excellent advantages in solid-catalysis reactions because the large pores provide pathways for rapid molecular transportation and the small pores serve a large area of active surface. The obtained Zr0 2-Si0 2 bimodal support loaded with cobalt was applied in siurry-phase Fischer-Tropsch synthesis (FTS). The bimodal catalyst presented the best reaction performance in slurry-phase FTS as higher reaction rate and lower methane selectivity, because the spatially promotional effect of bimodal structure and the chemically promotional effect of the porous zirconia were available at the same time inside the large pores of original silica gel.

KW - Bimodal support

KW - Cobalt catalyst

KW - Fischer-tropsch synthesis

KW - Syngas

KW - Zirconia

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