Highly dispersed buckybowls as model carbocatalysts for C-H bond activation

I. Ilgaz Soykal; Hui Wang; Jewook Park; An Ping Li; Chengdu Liang; Viviane Schwartz

doi:10.1039/c5ta00898k

Highly dispersed buckybowls as model carbocatalysts for C-H bond activation

I. Ilgaz Soykal, Hui Wang, Jewook Park, An Ping Li, Chengdu Liang, Viviane Schwartz

Scanning Tunneling Microscopy Group

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Fullerene-derived buckybowl fractions dispersed on mesoporous silica constitute an ideal model for studying the catalysis of graphitic forms of carbon since the dispersed carbon nanostructures contain a high ratio of edge defects and curvature induced by non-six-membered rings. Dispersion of the active centers on an easily accessible high surface area material allowed for high density of surface active sites associated with oxygenated structures. This report illustrates a facile method of creating model polycyclic aromatic nano-structures that are not only active for alkane C-H bond activation and oxidative dehydrogenation but also can be practical catalysts to be eventually used in industry.

Original language	English
Pages (from-to)	8667-8675
Number of pages	9
Journal	Journal of Materials Chemistry A
Volume	3
Issue number	16
DOIs	https://doi.org/10.1039/c5ta00898k
State	Published - Apr 28 2015

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abstract = "Fullerene-derived buckybowl fractions dispersed on mesoporous silica constitute an ideal model for studying the catalysis of graphitic forms of carbon since the dispersed carbon nanostructures contain a high ratio of edge defects and curvature induced by non-six-membered rings. Dispersion of the active centers on an easily accessible high surface area material allowed for high density of surface active sites associated with oxygenated structures. This report illustrates a facile method of creating model polycyclic aromatic nano-structures that are not only active for alkane C-H bond activation and oxidative dehydrogenation but also can be practical catalysts to be eventually used in industry.",

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AU - Soykal, I. Ilgaz

AU - Wang, Hui

AU - Park, Jewook

AU - Li, An Ping

AU - Liang, Chengdu

AU - Schwartz, Viviane

PY - 2015/4/28

Y1 - 2015/4/28

N2 - Fullerene-derived buckybowl fractions dispersed on mesoporous silica constitute an ideal model for studying the catalysis of graphitic forms of carbon since the dispersed carbon nanostructures contain a high ratio of edge defects and curvature induced by non-six-membered rings. Dispersion of the active centers on an easily accessible high surface area material allowed for high density of surface active sites associated with oxygenated structures. This report illustrates a facile method of creating model polycyclic aromatic nano-structures that are not only active for alkane C-H bond activation and oxidative dehydrogenation but also can be practical catalysts to be eventually used in industry.

AB - Fullerene-derived buckybowl fractions dispersed on mesoporous silica constitute an ideal model for studying the catalysis of graphitic forms of carbon since the dispersed carbon nanostructures contain a high ratio of edge defects and curvature induced by non-six-membered rings. Dispersion of the active centers on an easily accessible high surface area material allowed for high density of surface active sites associated with oxygenated structures. This report illustrates a facile method of creating model polycyclic aromatic nano-structures that are not only active for alkane C-H bond activation and oxidative dehydrogenation but also can be practical catalysts to be eventually used in industry.

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JO - Journal of Materials Chemistry A

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ER -

Highly dispersed buckybowls as model carbocatalysts for C-H bond activation

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