Lin, J.-L.; Zheng, A.; Xie, Y.; Chen, N.; He, R.-L.; Yin, B.; Lv, W.; Wei, Y.; Li, Y. Transition from Tunneling to Schottky Barriers in Molecular Junctions Based on Metal–Molecule Interfaces. Angew. Chem. Int. Ed. 2025, 64(10).-Department of Chemistry, Tsinghua University

Lin, J.-L.; Zheng, A.; Xie, Y.; Chen, N.; He, R.-L.; Yin, B.; Lv, W.; Wei, Y.; Li, Y. Transition from Tunneling to Schottky Barriers in Molecular Junctions Based on Metal–Molecule Interfaces. Angew. Chem. Int. Ed. 2025, 64(10).
Publication time：2025-03-27 Reading times： Font：【Big Medium Small】
Yuanli's group investigated the transition from quantum tunneling to Schottky barrier-dominated charge transport in molecular junctions featuring metal–molecule–semiconductor interfaces. By systematically varying the molecular length, electrode work function, and interface properties, the study elucidates how charge transport mechanisms evolve. The findings provide insights into optimizing molecular electronics for future device applications, bridging the gap between classical semiconductor physics and molecular-scale charge transport.
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