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Thermal Rectification in Telescopic Nanowires: Impact of Thermal Boundary Resistance

A thermal diode, which, by analogy to its electrical counterpart, rectifies heat current, is the building block for thermal circuits. To realize a thermal diode, we demonstrate thermal rectification in a GaAs telescopic nanowire system using the thermal bridge method. We measured a preferred directi...

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Published in:	ACS applied materials & interfaces 2025-01, Vol.17 (1), p.1883-1891
Main Authors:	Kaur, Yashpreet, Tachikawa, Saeko, Swinkels, Milo Yaro, López-Suárez, Miquel, Camponovo, Matteo, Ruiz Caridad, Alicia, Kim, Wonjong, Fontcuberta i Morral, Anna, Rurali, Riccardo, Zardo, Ilaria
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Language:	English
Subjects:	Functional Nanostructured Materials (including low-D carbon)
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creator	Kaur, Yashpreet Tachikawa, Saeko Swinkels, Milo Yaro López-Suárez, Miquel Camponovo, Matteo Ruiz Caridad, Alicia Kim, Wonjong Fontcuberta i Morral, Anna Rurali, Riccardo Zardo, Ilaria
description	A thermal diode, which, by analogy to its electrical counterpart, rectifies heat current, is the building block for thermal circuits. To realize a thermal diode, we demonstrate thermal rectification in a GaAs telescopic nanowire system using the thermal bridge method. We measured a preferred direction of heat flux, achieving rectification values ranging from 2 to 8% as a function of applied thermal bias. We demonstrate that the thermal boundary resistance between the thin part with the wurtzite crystal phase and the thick part with the zinc-blende crystal phase of the telescopic nanowire plays a crucial role in determining the amount and direction of heat flux rectification. This effect is confirmed by numerical solutions of the one-dimensional heat equation based on ab initio data. Additionally, we accounted for the effect of the thermal contact resistance. This work is the first experimental indication of rectification using a telescopic nanowire where we reveal the importance and role of the thermal boundary resistance in determining thermal rectification.
doi_str_mv	10.1021/acsami.4c14920
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subjects	Functional Nanostructured Materials (including low-D carbon)
title	Thermal Rectification in Telescopic Nanowires: Impact of Thermal Boundary Resistance
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