金纳米制备及催化进展

化工进展

金纳米制备及催化进展

郭建伟1，刘雪刚2，丁一刚2，刘靖1

1清华大学核能与新能源技术研究院，北京 102201；2武汉工程大学化学与制药学院，湖北武汉 430073

出版日期:2010-11-05 发布日期:2010-11-05

Progress in nano-gold preparation and catalysis

GUO Jianwei1，LIU Xuegang2，DING Yigang2，LIU Jing1

1Institute of Nuclear and New Energy Technology，Tsinghua University，Beijing 102201，China；2School of Chemical Engineering & Pharmacy，Wuhan Institute of Technology，Wuhan 430073，Hubei，China

Online:2010-11-05 Published:2010-11-05

摘要/Abstract

摘要：

由基础出发设计高性能金纳米催化剂是当前的研究热点，本文介绍了以柠檬酸法、硫醇法、树形大分子为基础的前沿合成路线，其可控性合成可促进纳米结构清晰并利于载体担载；进而分析了金纳米在化学及电化学催化上的进展，认为电催化中量子双电层效应、类分子效应的探索有望在燃料电池、生物传感器应用方面取得突破。

Abstract:

It is a current research focus for bottom-up designing high performance nono-gold catalyst. This paper introduces the advanced synthesis routes on the basis of citric acid，mercaptan and dendrimer methods，these controlled synthesis would clarify nano-structure and beneficial for supporting. Progress of chemical and electrochemical catalysis with nano-gold are analyzed，and it is realized that the exploration on the quantum double-layer and molecular-like effects in electro-catalysis would likely make breakthrough in the fields of fuel cell and biosensor.

郭建伟1，刘雪刚2，丁一刚2，刘靖1. 金纳米制备及催化进展 [J]. 化工进展.

GUO Jianwei1，LIU Xuegang2，DING Yigang2，LIU Jing1. Progress in nano-gold preparation and catalysis[J]. Chemical Industry and Engineering Progree.