Using Au nanoparticles-surfactant aqueous solution for a convenient preparation of mesoporous aluminosilicates containing Au-nanoparticles

Yu Shan Chi, Hong-Ping Lin, Chinn Nan Lin, Chung Yuan Mou, Ben Zu Wan

研究成果: Article

6 引文 (Scopus)

摘要

A stable Au nanoparticles-quaternary ammonium surfactant aqueous solution with the Au/surfactant molar ration up to 0.06 has been conveniently prepared after a typical reduction of tetrachloroaurate salt (HAuCl4). That solution was used directly to synthesize the mesoporous aluminosilicates containing Au-nanoparticles. The calcined mesoporous aluminosilicates containing Au-nanoparticles with the advantages of high surface, large pore size, pore volume high dispersity of Au nanoparticles, demonstrated the catalytic activity of the CO oxidation at 80°C.

原文English
頁(從 - 到)329-336
頁數8
期刊Studies in Surface Science and Catalysis
141
出版狀態Published - 2002 一月 1

指紋

Aluminosilicates
Surface-Active Agents
Surface active agents
surfactants
Nanoparticles
aqueous solutions
nanoparticles
preparation
porosity
rations
Carbon Monoxide
Ammonium Compounds
Pore size
catalytic activity
Catalyst activity
Salts
salts
Oxidation
oxidation
aluminosilicate

All Science Journal Classification (ASJC) codes

  • Catalysis
  • Condensed Matter Physics
  • Physical and Theoretical Chemistry
  • Surfaces, Coatings and Films
  • Materials Chemistry

引用此文

@article{b523b49134fa4576b9d10094c46fbeee,
title = "Using Au nanoparticles-surfactant aqueous solution for a convenient preparation of mesoporous aluminosilicates containing Au-nanoparticles",
abstract = "A stable Au nanoparticles-quaternary ammonium surfactant aqueous solution with the Au/surfactant molar ration up to 0.06 has been conveniently prepared after a typical reduction of tetrachloroaurate salt (HAuCl4). That solution was used directly to synthesize the mesoporous aluminosilicates containing Au-nanoparticles. The calcined mesoporous aluminosilicates containing Au-nanoparticles with the advantages of high surface, large pore size, pore volume high dispersity of Au nanoparticles, demonstrated the catalytic activity of the CO oxidation at 80°C.",
author = "Chi, {Yu Shan} and Hong-Ping Lin and Lin, {Chinn Nan} and Mou, {Chung Yuan} and Wan, {Ben Zu}",
year = "2002",
month = "1",
day = "1",
language = "English",
volume = "141",
pages = "329--336",
journal = "Studies in Surface Science and Catalysis",
issn = "0167-2991",
publisher = "Elsevier BV",

}

TY - JOUR

T1 - Using Au nanoparticles-surfactant aqueous solution for a convenient preparation of mesoporous aluminosilicates containing Au-nanoparticles

AU - Chi, Yu Shan

AU - Lin, Hong-Ping

AU - Lin, Chinn Nan

AU - Mou, Chung Yuan

AU - Wan, Ben Zu

PY - 2002/1/1

Y1 - 2002/1/1

N2 - A stable Au nanoparticles-quaternary ammonium surfactant aqueous solution with the Au/surfactant molar ration up to 0.06 has been conveniently prepared after a typical reduction of tetrachloroaurate salt (HAuCl4). That solution was used directly to synthesize the mesoporous aluminosilicates containing Au-nanoparticles. The calcined mesoporous aluminosilicates containing Au-nanoparticles with the advantages of high surface, large pore size, pore volume high dispersity of Au nanoparticles, demonstrated the catalytic activity of the CO oxidation at 80°C.

AB - A stable Au nanoparticles-quaternary ammonium surfactant aqueous solution with the Au/surfactant molar ration up to 0.06 has been conveniently prepared after a typical reduction of tetrachloroaurate salt (HAuCl4). That solution was used directly to synthesize the mesoporous aluminosilicates containing Au-nanoparticles. The calcined mesoporous aluminosilicates containing Au-nanoparticles with the advantages of high surface, large pore size, pore volume high dispersity of Au nanoparticles, demonstrated the catalytic activity of the CO oxidation at 80°C.

UR - http://www.scopus.com/inward/record.url?scp=0036927797&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0036927797&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:0036927797

VL - 141

SP - 329

EP - 336

JO - Studies in Surface Science and Catalysis

JF - Studies in Surface Science and Catalysis

SN - 0167-2991

ER -