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Enhanced near-field radiative heat transfer between borophene sheets on different substrates
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Enhanced near-field radiative heat transfer between borophene sheets on different substrates
Near-field radiative heat transfer(NFRHT)has the potential to exceed the blackbody limit by several orders of mag-nitude,offering significant opportunities for energy harvesting.In this study,we have examined the NFRHT between two borophene sheets through the calculation of heat transfer coefficient(HTC).Due to the tunneling of evanescent waves,borophene sheet allows for enhanced heat flux and adjustable NFRHT by varying its electron density and electron relax-ation time.Additionally,the near field coupling is further examined when the borophene is deposited on dielectric or lossy substrates.The maximum HTC is closely related to the real part of the dielectric substrate.As a case study,the HTCs on the lossy substrate of MoO3,ZnSe,and SiC are calculated for comparisons.Our results indicate that MoO3 is the optimal substrate to get the enhanced energy transfer coefficient.It results in a remarkable value of 1737 times higher than the blackbody limit owing to the enhanced photon tunneling probability.Thus,our study reveals the effect of substrate on the HTC between borophene sheets and provides a theoretical guidance for the design of near-field thermal radiation devices.
near-field radiative heat transferborophenelossy substrateheat transfer coefficient
韩小洋、范春珍
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Key Laboratory of Materials Physics,Ministry of Education,School of Physics,Zhengzhou University,Zhengzhou 450001,China
near-field radiative heat transfer borophene lossy substrate heat transfer coefficient
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