Issue 4, 2023

Solid-state thermal rectification of bilayers by asymmetric elastic modulus

Abstract

A highly efficient thermal rectification applicable to large panels still needs to be developed. Here, we experimentally achieve a high thermal rectification efficiency of 33% by carefully engineering elastic modulus asymmetry in a centimeter-scale bilayered silver–graphene oxide sponge. The thermal conduction primarily occurs in the out-of-plane direction, and the forward heat flow direction is from the hard silver to the soft graphene oxide. Surprisingly, the forward heat flow direction is reversed when a silver layer is formed on a harder polystyrene foam. The forward direction is always from the harder side to the softer side, and the asymmetry in elastic modulus is suggested as a possible mechanism based on the one-dimensional Frenkel–Kontorova (FK) model. The finite element analysis indicates that other mechanisms such as temperature-dependent thermal conductivity and radiation asymmetry cannot explain the high rectification efficiency. This scalable work over a wide temperature range may find immediate industrial applications.

Graphical abstract: Solid-state thermal rectification of bilayers by asymmetric elastic modulus

Supplementary files

Article information

Article type
Communication
Submitted
20 Dec 2022
Accepted
06 Feb 2023
First published
14 Feb 2023

Mater. Horiz., 2023,10, 1431-1439

Solid-state thermal rectification of bilayers by asymmetric elastic modulus

J. Lee, S. Cha, B. H. Lee, A. A. Jan, R. Kizhakkekara, J. Yang, M. K. Kim and S. Baik, Mater. Horiz., 2023, 10, 1431 DOI: 10.1039/D2MH01550A

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