Operating a Multi-Level Molecular Dimer Switch through Precise Tip-Molecule Control

Yueqing Shi, Weike Quan, Liya Bi, Kangkai Liang, Hao Zhou, Zhiyuan Yin, Zihao Wang, Shaowei Li
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Abstract

Controlling the state of molecules on surfaces is crucial for the advancement of molecular electronics. While reversible control of bistable molecule switches has been demonstrated, achieving controllable multi-state switching at the molecular scale remains a formidable challenge. In this study, we introduce a simple and effective strategy for the on-demand control of a multi-level molecular switch by creating a molecular dimer. We explore the transition behavior of a pyrrolidine dimer system on the Cu(100) surface using low-temperature scanning tunneling microscopy. By fine-tuning the voltage and tip-molecule distance, we can selectively determine the dominant state of the dimer system. Both intermolecular and tip-molecule interactions play a role in modifying the transition pathways, enabling precise multi-state control.
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通过精确的尖端分子控制操作多级分子二聚体开关
控制表面分子的状态对于分子电子学的发展至关重要。虽然双稳态分子开关的可逆控制已经得到证实,但在分子尺度上实现可控的多态开关仍然是一项艰巨的挑战。在本研究中,我们介绍了一种简单有效的策略,通过创建分子二聚体来实现多级分子开关的按需控制。我们利用低温扫描隧道显微镜探索了 Cu(100)表面吡咯烷二聚体体系的过渡行为。通过微调电压和尖端分子距离,我们可以选择性地确定二聚体系的主导状态。分子间和尖端分子间的相互作用在改变转变途径方面都发挥了作用,从而实现了精确的多态控制。
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