Template directed synthesis of plasmonic gold nanotubes with tunable IR absorbance

A nearly parallel array of pores can be produced by anodizing aluminum foils in acidic environments. Applications of anodic aluminum oxide (AAO) membranes have been under development since the 1990's and have become a common method to template the synthesis of high aspect ratio nanostructures,...

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Veröffentlicht in:	Journal of visualized experiments 2013-04 (74)
Hauptverfasser:	Bridges, Colin R, Schon, Tyler B, DiCarmine, Paul M, Seferos, Dwight S
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum Oxide - chemistry Chemistry Electrodes Gold - chemistry Infrared Rays Membranes, Artificial Metal Nanoparticles - chemistry Nanotechnology - instrumentation Nanotechnology - methods Nanotubes - chemistry Spectrum Analysis, Raman - methods
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container_title	Journal of visualized experiments
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creator	Bridges, Colin R Schon, Tyler B DiCarmine, Paul M Seferos, Dwight S
description	A nearly parallel array of pores can be produced by anodizing aluminum foils in acidic environments. Applications of anodic aluminum oxide (AAO) membranes have been under development since the 1990's and have become a common method to template the synthesis of high aspect ratio nanostructures, mostly by electrochemical growth or pore-wetting. Recently, these membranes have become commercially available in a wide range of pore sizes and densities, leading to an extensive library of functional nanostructures being synthesized from AAO membranes. These include composite nanorods, nanowires and nanotubes made of metals, inorganic materials or polymers. Nanoporous membranes have been used to synthesize nanoparticle and nanotube arrays that perform well as refractive index sensors, plasmonic biosensors, or surface enhanced Raman spectroscopy (SERS) substrates, as well as a wide range of other fields such as photo-thermal heating, permselective transport, catalysis, microfluidics, and electrochemical sensing. Here, we report a novel procedure to prepare gold nanotubes in AAO membranes. Hollow nanostructures have potential application in plasmonic and SERS sensing, and we anticipate these gold nanotubes will allow for high sensitivity and strong plasmon signals, arising from decreased material dampening.
doi_str_mv	10.3791/50420
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Applications of anodic aluminum oxide (AAO) membranes have been under development since the 1990's and have become a common method to template the synthesis of high aspect ratio nanostructures, mostly by electrochemical growth or pore-wetting. Recently, these membranes have become commercially available in a wide range of pore sizes and densities, leading to an extensive library of functional nanostructures being synthesized from AAO membranes. These include composite nanorods, nanowires and nanotubes made of metals, inorganic materials or polymers. Nanoporous membranes have been used to synthesize nanoparticle and nanotube arrays that perform well as refractive index sensors, plasmonic biosensors, or surface enhanced Raman spectroscopy (SERS) substrates, as well as a wide range of other fields such as photo-thermal heating, permselective transport, catalysis, microfluidics, and electrochemical sensing. Here, we report a novel procedure to prepare gold nanotubes in AAO membranes. 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subjects	Aluminum Oxide - chemistry Chemistry Electrodes Gold - chemistry Infrared Rays Membranes, Artificial Metal Nanoparticles - chemistry Nanotechnology - instrumentation Nanotechnology - methods Nanotubes - chemistry Spectrum Analysis, Raman - methods
title	Template directed synthesis of plasmonic gold nanotubes with tunable IR absorbance
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