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Two-dimensional transition metal carbides as supports for tuning the chemistry of catalytic nanoparticles.


ABSTRACT: Supported nanoparticles are broadly employed in industrial catalytic processes, where the active sites can be tuned by metal-support interactions (MSIs). Although it is well accepted that supports can modify the chemistry of metal nanoparticles, systematic utilization of MSIs for achieving desired catalytic performance is still challenging. The developments of supports with appropriate chemical properties and identification of the resulting active sites are the main barriers. Here, we develop two-dimensional transition metal carbides (MXenes) supported platinum as efficient catalysts for light alkane dehydrogenations. Ordered Pt3Ti and surface Pt3Nb intermetallic compound nanoparticles are formed via reactive metal-support interactions on Pt/Ti3C2Tx and Pt/Nb2CTx catalysts, respectively. MXene supports modulate the nature of the active sites, making them highly selective toward C-H activation. Such exploitation of the MSIs makes MXenes promising platforms with versatile chemical reactivity and tunability for facile design of supported intermetallic nanoparticles over a wide range of compositions and structures.

SUBMITTER: Li Z 

PROVIDER: S-EPMC6288105 | biostudies-other | 2018 Dec

REPOSITORIES: biostudies-other

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Two-dimensional transition metal carbides as supports for tuning the chemistry of catalytic nanoparticles.

Li Zhe Z   Yu Liang L   Milligan Cory C   Ma Tao T   Zhou Lin L   Cui Yanran Y   Qi Zhiyuan Z   Libretto Nicole N   Xu Biao B   Luo Junwei J   Shi Enzheng E   Wu Zhenwei Z   Xin Hongliang H   Delgass W Nicholas WN   Miller Jeffrey T JT   Wu Yue Y  

Nature communications 20181210 1


Supported nanoparticles are broadly employed in industrial catalytic processes, where the active sites can be tuned by metal-support interactions (MSIs). Although it is well accepted that supports can modify the chemistry of metal nanoparticles, systematic utilization of MSIs for achieving desired catalytic performance is still challenging. The developments of supports with appropriate chemical properties and identification of the resulting active sites are the main barriers. Here, we develop tw  ...[more]

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