Holey single-walled carbon nanotubes for ultra-fast broadband bolometers

Although carbon nanotubes have already been demonstrated to be a promising material for bolometric photodetectors, enhancing sensitivity while maintaining the speed of operation remains a great challenge. Here, we present a holey carbon nanotube network, designed to improve the temperature coefficie...

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Veröffentlicht in:	Nanoscale 2018-10, Vol.1 (39), p.18665-18671
Hauptverfasser:	Kopylova, Daria S, Fedorov, Fedor S, Alekseeva, Alena A, Gilshteyn, Evgenia P, Tsapenko, Alexey P, Bubis, Anton V, Grebenko, Artem K, Popov, Zakhar I, Sorokin, Pavel B, Gladush, Yuriy G, Anisimov, Anton S, Nasibulin, Albert G
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Sprache:	eng
Schlagworte:	Bolometers Broadband Carbon Electronic properties Electronics Liquid nitrogen Low noise Nanotubes Oxygen plasma Response time Sensitivity enhancement Single wall carbon nanotubes
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creator	Kopylova, Daria S Fedorov, Fedor S Alekseeva, Alena A Gilshteyn, Evgenia P Tsapenko, Alexey P Bubis, Anton V Grebenko, Artem K Popov, Zakhar I Sorokin, Pavel B Gladush, Yuriy G Anisimov, Anton S Nasibulin, Albert G
description	Although carbon nanotubes have already been demonstrated to be a promising material for bolometric photodetectors, enhancing sensitivity while maintaining the speed of operation remains a great challenge. Here, we present a holey carbon nanotube network, designed to improve the temperature coefficient of resistance for highly sensitive ultra-fast broadband bolometers. Treatment of carbon nanotube films with low-frequency oxygen plasma allows fine tuning of the electronic properties of the material. The temperature coefficient of resistance of our films is much greater than the reported values for pristine carbon nanotubes, up to −2.8% K −1 at liquid nitrogen temperature. The bolometer prototypes made from the treated films demonstrate high sensitivity over a wide IR range, a short response time, smooth spectral characteristics and a low noise level. A holey carbon nanotube network is designed to improve the performance of bolometers. The material possesses a temperature coefficient of resistance up to −2.8% K −1 .
doi_str_mv	10.1039/c8nr05925j
format	Article
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subjects	Bolometers Broadband Carbon Electronic properties Electronics Liquid nitrogen Low noise Nanotubes Oxygen plasma Response time Sensitivity enhancement Single wall carbon nanotubes
title	Holey single-walled carbon nanotubes for ultra-fast broadband bolometers
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