Surface Plasmon Resonance: Robust Nanostructured Silver and Copper Fabrics with Localized Surface Plasmon Resonance Property for Effective Visible Light Induced Reductive Catalysis (Adv. Mater. Interfaces 6/2016)

In article number 1500632, V. Bansal, R. Ramanathan and co‐workers develop simple solution‐processable protocols for in situ synthesis of photo‐active fabrics of silver and copper nanoparticles. The hierarchical superstructure of these functional fabrics facilitates the access of reactants and visib...

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Veröffentlicht in:	Advanced materials interfaces 2016-03, Vol.3 (6), p.n/a
Hauptverfasser:	Anderson, Samuel R., Mohammadtaheri, Mahsa, Kumar, Dipesh, O'Mullane, Anthony P., Field, Matthew R., Ramanathan, Rajesh, Bansal, Vipul
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Ag nanoparticles Cu nanoparticles heterogeneous catalysis multifunctional fabrics surface plasmon resonance
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creator	Anderson, Samuel R. Mohammadtaheri, Mahsa Kumar, Dipesh O'Mullane, Anthony P. Field, Matthew R. Ramanathan, Rajesh Bansal, Vipul
description	In article number 1500632, V. Bansal, R. Ramanathan and co‐workers develop simple solution‐processable protocols for in situ synthesis of photo‐active fabrics of silver and copper nanoparticles. The hierarchical superstructure of these functional fabrics facilitates the access of reactants and visible light to the catalytically active sites of LSPR‐active nano‐metals. This remarkably improves the efficiency of redox processes under visible light photoexcitation. Mechanistic investigations reveal that light can dramatically influence the electron transfer processes that are critical for efficient redox reactions. The cover image was designed by Ella Maru Studio.
doi_str_mv	10.1002/admi.201670025
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subjects	Adsorption Ag nanoparticles Cu nanoparticles heterogeneous catalysis multifunctional fabrics surface plasmon resonance
title	Surface Plasmon Resonance: Robust Nanostructured Silver and Copper Fabrics with Localized Surface Plasmon Resonance Property for Effective Visible Light Induced Reductive Catalysis (Adv. Mater. Interfaces 6/2016)
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