Abstract
This paper presents a hydrothermal method for the synthesis and stabilization of gold nanodisks with a preferential growth direction along the (111) plane inside environmentally – besign sodium alginate sol by a one-step strategy without additional reducing agent. This is carried out by transferring a sodium alginate/HAuCl4 aqueous solution into a stainless steel autoclave with a Teflon liner and heating in an oven at 100°C for 30 h. Field emission scanning electron microscopy observation indicates that the gold nanodisks are predominantly hexagonal shape with micrometer-scale in diameter. Transmission electron microscope, selected area electron diffraction, and Xray diffraction analyses show that the gold nanodisks grow preferentially along the Au (111) plane. Some influential factors on the growth of gold nanodisks are discussed. The results suggest that the reactants concentrations and reaction time are crucial to the formation of gold nanodisks and their growth mechanism is tentatively explained.
Keywords: Biopolymer, Crystal growth, Gold, Hydrothermal synthesis, Disks
Current Nanoscience
Title: Biopolymer-Assisted Synthesis of Single Crystalline Gold Disks by a Hydrothermal Route
Volume: 4 Issue: 2
Author(s): Shuyan Gao, Shuxia Zhang, Kai Jiang, Shuxia Yang and Weiwei Lu
Affiliation:
Keywords: Biopolymer, Crystal growth, Gold, Hydrothermal synthesis, Disks
Abstract: This paper presents a hydrothermal method for the synthesis and stabilization of gold nanodisks with a preferential growth direction along the (111) plane inside environmentally – besign sodium alginate sol by a one-step strategy without additional reducing agent. This is carried out by transferring a sodium alginate/HAuCl4 aqueous solution into a stainless steel autoclave with a Teflon liner and heating in an oven at 100°C for 30 h. Field emission scanning electron microscopy observation indicates that the gold nanodisks are predominantly hexagonal shape with micrometer-scale in diameter. Transmission electron microscope, selected area electron diffraction, and Xray diffraction analyses show that the gold nanodisks grow preferentially along the Au (111) plane. Some influential factors on the growth of gold nanodisks are discussed. The results suggest that the reactants concentrations and reaction time are crucial to the formation of gold nanodisks and their growth mechanism is tentatively explained.
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Cite this article as:
Gao Shuyan, Zhang Shuxia, Jiang Kai, Yang Shuxia and Lu Weiwei, Biopolymer-Assisted Synthesis of Single Crystalline Gold Disks by a Hydrothermal Route, Current Nanoscience 2008; 4 (2) . https://dx.doi.org/10.2174/157341308784340840
DOI https://dx.doi.org/10.2174/157341308784340840 |
Print ISSN 1573-4137 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-6786 |
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