Litcius/Paper detail

Bush‐Shaped Vertical Graphene/Nichrome Wire for Blackbody‐Like Radiative Heating

Kun Wang, Shuting Cheng, Jiawei Yang, Yi Cheng, Qing Ci, Hao Yuan, Kewen Huang, Ruojuan Liu, Wenjuan Li, Junliang Li, Ce Tu, Fushun Liang, Yuyao Yang, Jianbo Sun, Qingmei Hu, Jianbo Yin, Baolu Guan, Xingang Ren, Yue Qi, Zhongfan Liu

2022Advanced Functional Materials30 citationsDOI

Abstract

Abstract Radiative thermal management has attracted increasing attention for the advantages of energy saving and carbon emission reduction. Infrared radiation coatings are widely adopted to alleviate the low infrared emissivity of commonly used metal alloy electrothermal materials. However, traditional infrared radiation coatings are faced with the issues of the unsteady waveband emissivity, low interfacial adhesion to substrates, and poor long‐term thermal stability. Herein, a bush‐shaped vertical graphene (BVG) grown on nichrome (Ni–Cr) wire is demonstrated, relying on which BVG/Ni–Cr wire presents a high blackbody‐like emissivity of ≈0.96 across a wide wavelength range (2.5–18 µm). When used for radiative heating, BVG/Ni–Cr wire achieves a high thermal radiation efficiency with an order of magnitude improvement compared with bare Ni–Cr wire, as well as the superior deformation and thermal stabilities. These findings reveal the impressive potentials of BVG as an excellent infrared radiation material for the energy‐efficient radiative thermal management.

Topics & Concepts

EmissivityBlack-body radiationMaterials scienceNichromeInfraredThermal radiationGrapheneRadiative transferLow emissivityOptoelectronicsRadiationRadiative coolingRadiant energyThermal management of electronic devices and systemsComposite materialOpticsNanotechnologyThermodynamicsMechanical engineeringPhysicsEngineeringThermal Radiation and Cooling TechnologiesThermal properties of materialssolar cell performance optimization