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Design of Ag–Au nanoshell core/mesoporous oriented silica shell nanoparticles through a sol–gel surfactant templating method

Design of Ag–Au nanoshell core/mesoporous oriented silica shell nanoparticles through a sol–gel surfactant templating method
Design of Ag–Au nanoshell core/mesoporous oriented silica shell nanoparticles through a sol–gel surfactant templating method
Core–shell nanoparticles based on Ag–Au nanoshell core and mesoporous silica shell with a radial pore orientation have been synthesized using a sol–gel surfactant templating method. The Ag/Au ratio of the nanoshells were elaborated through a galvanic replacement method performed with hydroxide gold substituted precursor using HAuCl4 as native gold precursor and NaOH as modifier. The nanoshell synthesis was optimized to provide light absorption in the near infrared “biological window” region before silica coating
72-77
Soule, Samantha
f5b1ff97-bf20-4adb-ba1d-357254158d8f
Allouche, Joachim
ba9f77b5-8142-4630-8d4b-5a8adcc99ef9
Dupin, Jean-Charles
e9c9571a-39e6-47a9-8a2a-9b25d045890c
Martinez, Hervé
d10bc13d-2b6c-4826-876e-9d5c3874b3c0
Soule, Samantha
f5b1ff97-bf20-4adb-ba1d-357254158d8f
Allouche, Joachim
ba9f77b5-8142-4630-8d4b-5a8adcc99ef9
Dupin, Jean-Charles
e9c9571a-39e6-47a9-8a2a-9b25d045890c
Martinez, Hervé
d10bc13d-2b6c-4826-876e-9d5c3874b3c0

Soule, Samantha, Allouche, Joachim, Dupin, Jean-Charles and Martinez, Hervé (2013) Design of Ag–Au nanoshell core/mesoporous oriented silica shell nanoparticles through a sol–gel surfactant templating method. Microporous and Mesoporous Materials, 171, 72-77. (doi:10.1016/j.micromeso.2012.12.034).

Record type: Article

Abstract

Core–shell nanoparticles based on Ag–Au nanoshell core and mesoporous silica shell with a radial pore orientation have been synthesized using a sol–gel surfactant templating method. The Ag/Au ratio of the nanoshells were elaborated through a galvanic replacement method performed with hydroxide gold substituted precursor using HAuCl4 as native gold precursor and NaOH as modifier. The nanoshell synthesis was optimized to provide light absorption in the near infrared “biological window” region before silica coating

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Published date: May 2013
Organisations: Chemistry
Learn more about Chemistry research

Identifiers

Local EPrints ID: 403251
URI: http://eprints.soton.ac.uk/id/eprint/403251
DOI: doi:10.1016/j.micromeso.2012.12.034
PURE UUID: 643ea9ea-3604-42a2-a18e-f3020043d924

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Date deposited: 01 Dec 2016 09:37
Last modified: 15 Mar 2024 03:38

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Contributors

Author: Samantha Soule
Author: Joachim Allouche
Author: Jean-Charles Dupin
Author: Hervé Martinez

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