Encapsulation of supported g-C3N4/Au with metal–organic frameworks for enhanced stability towards photocatalytic hydrogen evolution

The supported graphitic-carbon nitride (g-C3N4)/Au composite has attracted considerable attention as an alternative visible-light photocatalyst for hydrogen evolution reactions. However, the short-term photocatalytic durability greatly limits their practical application. In this work, porous [Zn(BDC...

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Veröffentlicht in:	Micro & nano letters 2018-09, Vol.13 (9), p.1321-1324
Hauptverfasser:	Zhang, Zewu, Wang, Qikang, Wu, Qiong, Rao, Qingxu, Hang, Zusheng, Bu, Xiaohai, Shi, Haojun
Format:	Artikel
Sprache:	eng
Schlagworte:	C3N4‐Au carbon compounds catalysis catalysts composite materials durability encapsulation gold graphitic‐carbon nitride composite organic compounds photocatalytic durability photocatalytic hydrogen evolution reactions photochemistry porous materials porous two‐dimensional metal‐organic frameworks protective shell visible‐light photocatalyst zinc compounds
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creator	Zhang, Zewu Wang, Qikang Wu, Qiong Rao, Qingxu Hang, Zusheng Bu, Xiaohai Shi, Haojun
description	The supported graphitic-carbon nitride (g-C3N4)/Au composite has attracted considerable attention as an alternative visible-light photocatalyst for hydrogen evolution reactions. However, the short-term photocatalytic durability greatly limits their practical application. In this work, porous [Zn(BDC)(H2O)2]n, which is a typical two-dimensional metal–organic frameworks (MOFs), was used as the protecting material to encapsulate g-C3N4/Au. The obtained g-C3N4/Au@[Zn(BDC)(H2O)2]n catalyst was composed of lamellar MOFs shells and g-C3N4/Au cores. The catalysts exhibited an excellent catalytic activity and particularly superior stability as compared to the bare g-C3N4/Au. The encapsulation method by using MOFs as the protective shell provides an alternative strategy for designing photocatalysts with high catalytic performance.
doi_str_mv	10.1049/mnl.2018.0206
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However, the short-term photocatalytic durability greatly limits their practical application. In this work, porous [Zn(BDC)(H2O)2]n, which is a typical two-dimensional metal–organic frameworks (MOFs), was used as the protecting material to encapsulate g-C3N4/Au. The obtained g-C3N4/Au@[Zn(BDC)(H2O)2]n catalyst was composed of lamellar MOFs shells and g-C3N4/Au cores. The catalysts exhibited an excellent catalytic activity and particularly superior stability as compared to the bare g-C3N4/Au. The encapsulation method by using MOFs as the protective shell provides an alternative strategy for designing photocatalysts with high catalytic performance.</abstract><pub>The Institution of Engineering and Technology</pub><doi>10.1049/mnl.2018.0206</doi><tpages>4</tpages></addata></record>
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subjects	C3N4‐Au carbon compounds catalysis catalysts composite materials durability encapsulation gold graphitic‐carbon nitride composite organic compounds photocatalytic durability photocatalytic hydrogen evolution reactions photochemistry porous materials porous two‐dimensional metal‐organic frameworks protective shell visible‐light photocatalyst zinc compounds
title	Encapsulation of supported g-C3N4/Au with metal–organic frameworks for enhanced stability towards photocatalytic hydrogen evolution
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