Issue 2, 2011

Oriented crystallization of ultra-thin (2 nm) gold nanoplatelets inside a reactive hydrophobic polymeric matrix

Abstract

The synthesis of an amphiphilic polymer based on a polysiloxane backbone with grafted propyloxy-citrate moieties is described. Aqueous solutions of this polymer are able to spontaneously reduce gold cations and direct gold metal crystal growth, yielding ultrathin (2 nm) crystalline nanoplatelets that have an exceptionally high aspect ratio: they are in excess of hundreds of nm in width. The growth process is accelerated by light and significantly controlled by pH: at pHs above 7, particles instead of platelets are formed.

Graphical abstract: Oriented crystallization of ultra-thin (2 nm) gold nanoplatelets inside a reactive hydrophobic polymeric matrix

Supplementary files

Article information

Article type
Paper
Submitted
29 Jul 2010
Accepted
07 Oct 2010
First published
09 Nov 2010

Soft Matter, 2011,7, 722-729

Oriented crystallization of ultra-thin (2 nm) gold nanoplatelets inside a reactive hydrophobic polymeric matrix

F. Gonzaga, R. D'Souza and M. A. Brook, Soft Matter, 2011, 7, 722 DOI: 10.1039/C0SM00743A

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