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Surface Photon‐Engineered Infrared‐Black Metametal Enabled Enhancement of Heat Dissipation

Yanpei Tian, Xiaojie Liu, Lijia Xie, Shilin Xu, Fangqi Chen, Ying Mu, Yang Liu, Marilyn L. Minus, Yi Zheng

2022Advanced Functional Materials28 citationsDOI

Abstract

Abstract Heat dissipation is a severe barrier for ever‐smaller and more functionalized electronics, necessitating the continuous development of accessible, cost‐effective, and highly efficient cooling solutions. Metals, such as silver and copper, with high thermal conductivity, can efficiently remove heat. However, ultralow infrared thermal emittance (<0.03) severely restricts their radiative heat dissipation capability. Here, a solution‐processed chemical oxidation reaction is demonstrated for transfiguring “infrared‐white” metals (high infrared thermal reflectance) to “infrared‐black” metametals (high infrared thermal emittance). Enabled by strong molecular vibrations of metal‐oxygen chemical bonds, this strategy via assembling nanostructured metal oxide thin films on metal surface yields infrared spectrum manipulation, high and omnidirectional thermal emittance (0.94 from 0 to 60°) with excellent thermomechanical stability. The thin film of metal oxides with relatively high thermal conductivity does not hinder heat dissipation. “Infrared‐black” meta‐aluminum shows a temperature drop of 21.3 °C corresponding to a cooling efficiency of 17.2% enhancement than the pristine aluminum alloy under a heating power of 2418 W m −2 . This surface photon‐engineered strategy is compatible with other metals, such as copper and steel, and it broadens its implementation for accelerating heat dissipation.

Topics & Concepts

Materials scienceThermal emittanceInfraredThermal conductivityOptoelectronicsThermal radiationThermal conductionComposite materialThermal management of electronic devices and systemsNanotechnologyOpticsThermodynamicsMechanical engineeringEngineeringPhysicsBeam (structure)Thermal Radiation and Cooling TechnologiesThermal properties of materialsOptical properties and cooling technologies in crystalline materials
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