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  • Title: Significant thermal rectification induced by phonon mismatch of functional groups in a single-molecule junction.
    Author: Hua R, Jiang Y, Shi L, Liang S, Zhang C, Song Y, Dong RY, Dong Y.
    Journal: J Phys Condens Matter; 2023 Dec 27; 36(13):. PubMed ID: 38096577.
    Abstract:
    Single-molecule junctions (SMJs) may bring exotic physical effects. In this work, a significant thermal rectification effect is observed in a cross-dimensional system, comprising a diamond, a single-molecule junction, and a carbon nanotube (CNT). The molecular dynamics simulations indicate that the interfacial thermal resistance varies with the direction of heat flow, the orientation of the crystal planes of the diamond, and the length of the CNT. We find that the thermal rectification ratio escalates with the length of the CNT, achieving a peak value of 730% with the CNT length of 200 nm. A detailed analysis of phonon vibrations suggests that the primary cause of thermal rectification is the mismatched vibrations between the biphenyl and carbonyl groups. This discovery may offer theoretical insights for both the experimental exploration and practical application of SMJs in efficient thermal management strategy for high power and highly integrated chips.
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