Improving the Catalytic Activity of Au25 Nanocluster by Peeling and Doping

Tuning the nanoclusters＇ compositions and structures is critical for the performance improvement of nanoclusters.Herein,a well-known Au25（SCH2CH2Ph）18 （Au25 for short） nanocluster has been transformed to a rare cadmium doped gold nanocluster [Au13Cd2（PPh3）6（SC2H4Ph）6（NO3）2]2Cd（NO3）4 （Au26Cd5 for sho...

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Veröffentlicht in:	Chinese journal of chemistry 2017-05, Vol.35 (5), p.567-571
Hauptverfasser:	Li, Man‐bo, Tian, Shi‐kai, Wu, Zhikun
Format:	Artikel
Sprache:	eng
Schlagworte:	A3‐coupling reaction Cadmium catalysis Catalytic activity Chemical reactions Composition effects Doping Gold gold nanocluster Icosahedrons Nanoclusters Peeling Recyclability Tuning
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container_title	Chinese journal of chemistry
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creator	Li, Man‐bo Tian, Shi‐kai Wu, Zhikun
description	Tuning the nanoclusters＇ compositions and structures is critical for the performance improvement of nanoclusters.Herein,a well-known Au25（SCH2CH2Ph）18 （Au25 for short） nanocluster has been transformed to a rare cadmium doped gold nanocluster [Au13Cd2（PPh3）6（SC2H4Ph）6（NO3）2]2Cd（NO3）4 （Au26Cd5 for short） by peeling and doping.Although Au25 exhibits no catalytic activity toward A3-coupling reaction under the investigated conditions,the novel cadmium doped gold nanocluster Au26Cd5 shows high catalytic activity,as well as good recyclability and substrate tolerance for the same reaction.The high catalytic activity is attributed to the cooperation between the exerted cadmium atoms and the neighbor gold atoms on the surface of Au13 icosahedron.This work has important implication for the tuning of nanoclusters＇ compositions and structures targeting the improvement of catalytic performance by some unusual but effective strategies.
doi_str_mv	10.1002/cjoc.201600526
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subjects	A3‐coupling reaction Cadmium catalysis Catalytic activity Chemical reactions Composition effects Doping Gold gold nanocluster Icosahedrons Nanoclusters Peeling Recyclability Tuning
title	Improving the Catalytic Activity of Au25 Nanocluster by Peeling and Doping
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