Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control

[Image: see text] The one-dimensional confinement of quasiparticles in individual carbon nanotubes (CNTs) leads to extremely anisotropic electronic and optical properties. In a macroscopic ensemble of randomly oriented CNTs, this anisotropy disappears together with other properties that make them at...

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Autores principales: Wais, Michael, Bagsican, Filchito Renee G., Komatsu, Natsumi, Gao, Weilu, Serita, Kazunori, Murakami, Hironaru, Held, Karsten, Kawayama, Iwao, Kono, Junichiro, Battiato, Marco, Tonouchi, Masayoshi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2023
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214483/
https://www.ncbi.nlm.nih.gov/pubmed/37164003
http://dx.doi.org/10.1021/acs.nanolett.3c00765
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author Wais, Michael
Bagsican, Filchito Renee G.
Komatsu, Natsumi
Gao, Weilu
Serita, Kazunori
Murakami, Hironaru
Held, Karsten
Kawayama, Iwao
Kono, Junichiro
Battiato, Marco
Tonouchi, Masayoshi
author_facet Wais, Michael
Bagsican, Filchito Renee G.
Komatsu, Natsumi
Gao, Weilu
Serita, Kazunori
Murakami, Hironaru
Held, Karsten
Kawayama, Iwao
Kono, Junichiro
Battiato, Marco
Tonouchi, Masayoshi
author_sort Wais, Michael
collection PubMed
description [Image: see text] The one-dimensional confinement of quasiparticles in individual carbon nanotubes (CNTs) leads to extremely anisotropic electronic and optical properties. In a macroscopic ensemble of randomly oriented CNTs, this anisotropy disappears together with other properties that make them attractive for certain device applications. The question however remains if not only anisotropy but also other types of behaviors are suppressed by disorder. Here, we compare the dynamics of quasiparticles under strong electric fields in aligned and random CNT networks using a combination of terahertz emission and photocurrent experiments and out-of-equilibrium numerical simulations. We find that the degree of alignment strongly influences the excited quasiparticles’ dynamics, rerouting the thermalization pathways. This is, in particular, evidenced in the high-energy, high-momentum electronic population (probed through the formation of low energy excitons via exciton impact ionization) and the transport regime evolving from diffusive to superdiffusive.
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spelling pubmed-102144832023-05-27 Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control Wais, Michael Bagsican, Filchito Renee G. Komatsu, Natsumi Gao, Weilu Serita, Kazunori Murakami, Hironaru Held, Karsten Kawayama, Iwao Kono, Junichiro Battiato, Marco Tonouchi, Masayoshi Nano Lett [Image: see text] The one-dimensional confinement of quasiparticles in individual carbon nanotubes (CNTs) leads to extremely anisotropic electronic and optical properties. In a macroscopic ensemble of randomly oriented CNTs, this anisotropy disappears together with other properties that make them attractive for certain device applications. The question however remains if not only anisotropy but also other types of behaviors are suppressed by disorder. Here, we compare the dynamics of quasiparticles under strong electric fields in aligned and random CNT networks using a combination of terahertz emission and photocurrent experiments and out-of-equilibrium numerical simulations. We find that the degree of alignment strongly influences the excited quasiparticles’ dynamics, rerouting the thermalization pathways. This is, in particular, evidenced in the high-energy, high-momentum electronic population (probed through the formation of low energy excitons via exciton impact ionization) and the transport regime evolving from diffusive to superdiffusive. American Chemical Society 2023-05-10 /pmc/articles/PMC10214483/ /pubmed/37164003 http://dx.doi.org/10.1021/acs.nanolett.3c00765 Text en © 2023 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by/4.0/Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Wais, Michael
Bagsican, Filchito Renee G.
Komatsu, Natsumi
Gao, Weilu
Serita, Kazunori
Murakami, Hironaru
Held, Karsten
Kawayama, Iwao
Kono, Junichiro
Battiato, Marco
Tonouchi, Masayoshi
Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title_full Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title_fullStr Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title_full_unstemmed Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title_short Transition from Diffusive to Superdiffusive Transport in Carbon Nanotube Networks via Nematic Order Control
title_sort transition from diffusive to superdiffusive transport in carbon nanotube networks via nematic order control
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214483/
https://www.ncbi.nlm.nih.gov/pubmed/37164003
http://dx.doi.org/10.1021/acs.nanolett.3c00765
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