Schied, MonikaPrezzi, DeborahLiu, DongdongKowarik, StefanJacobson, Peter A.Corni, StefanoTour, James M.Grill, Leonhard2023-03-102023-03-102023Schied, Monika, Prezzi, Deborah, Liu, Dongdong, et al.. "Chirality-Specific Unidirectional Rotation of Molecular Motors on Cu(111)." <i>ACS Nano,</i> 17, no. 4 (2023) American Chemical Society: 3958-3965. https://doi.org/10.1021/acsnano.2c12720.https://hdl.handle.net/1911/114498Molecular motors have chemical properties that enable unidirectional motion, thus breaking microscopic reversibility. They are well studied in solution, but much less is known regarding their behavior on solid surfaces. Here, single motor molecules adsorbed on a Cu(111) surface are excited by voltages pulses from an STM tip, which leads to their rotation around a fixed pivot point. Comparison with calculations shows that this axis results from a chemical bond of a sulfur atom in the chemical structure and a metal atom of the surface. While statistics show approximately equal rotations in both directions, clockwise and anticlockwise, a detailed study reveals that these motions are enantiomer-specific. Hence, the rotation direction of each individual molecule depends on its chirality, which can be determined from STM images. At first glance, these dynamics could be assigned to the activation of the motor molecule, but our results show that this is unlikely as the molecule remains in the same conformation after rotation. Additionally, a control molecule, although it lacks unidirectional rotation in solution, also shows unidirectional rotation for each enantiomer. Hence, it seems that the unidirectional rotation is not specifically related to the motor property of the molecule. The calculated energy barriers for motion show that the propeller-like motor activity requires higher energy than the simple rotation of the molecule as a rigid object, which is therefore preferred.engThis is an open access article under the Creative Commons CC BY 4.0 license.Chirality-Specific Unidirectional Rotation of Molecular Motors on Cu(111)Journal articleacsnano-2c12720https://doi.org/10.1021/acsnano.2c12720