Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies

Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies

To realize waste heat recovery solutions based on thermoelectricity, high-performance materials with device and manufacturing compatibility are required. Here, the authors demonstrate large-area paper-like nanostructured fabrics consisting of aligned nanotubes with high thermoelectric performance.

Bibliographic Details
Main Authors: Alex Morata, Mercè Pacios, Gerard Gadea, Cristina Flox, Doris Cadavid, Andreu Cabot, Albert Tarancón
Format: Article
Language:English
Published: Nature Publishing Group 2018-11-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-07208-8
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spelling doaj-c2985fca58ad4dfeb111e09514ee0f7c2021-05-11T09:39:38ZengNature Publishing GroupNature Communications2041-17232018-11-01911810.1038/s41467-018-07208-8Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficienciesAlex Morata0Mercè Pacios1Gerard Gadea2Cristina Flox3Doris Cadavid4Andreu Cabot5Albert Tarancón6IREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyIREC, Catalonia Institute for Energy Research, Department of Advanced Materials for EnergyTo realize waste heat recovery solutions based on thermoelectricity, high-performance materials with device and manufacturing compatibility are required. Here, the authors demonstrate large-area paper-like nanostructured fabrics consisting of aligned nanotubes with high thermoelectric performance.https://doi.org/10.1038/s41467-018-07208-8
collection DOAJ
language English
format Article
sources DOAJ
author Alex Morata
Mercè Pacios
Gerard Gadea
Cristina Flox
Doris Cadavid
Andreu Cabot
Albert Tarancón
spellingShingle Alex Morata
Mercè Pacios
Gerard Gadea
Cristina Flox
Doris Cadavid
Andreu Cabot
Albert Tarancón
Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
Nature Communications
author_facet Alex Morata
Mercè Pacios
Gerard Gadea
Cristina Flox
Doris Cadavid
Andreu Cabot
Albert Tarancón
author_sort Alex Morata
title Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
title_short Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
title_full Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
title_fullStr Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
title_full_unstemmed Large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
title_sort large-area and adaptable electrospun silicon-based thermoelectric nanomaterials with high energy conversion efficiencies
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-11-01
description To realize waste heat recovery solutions based on thermoelectricity, high-performance materials with device and manufacturing compatibility are required. Here, the authors demonstrate large-area paper-like nanostructured fabrics consisting of aligned nanotubes with high thermoelectric performance.
url https://doi.org/10.1038/s41467-018-07208-8
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