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Journal Article

Angle-dependent strength of a single chemical bond by stereographic force spectroscopy

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Bullerjahn,  Jakob T.       
Department of Theoretical Biophysics, Max Planck Institute of Biophysics, Max Planck Society;

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Citation

Cai, W., Bullerjahn, J. T., Lallemang, M., Kroy, K., Balzer, B. N., & Hugel, T. (2022). Angle-dependent strength of a single chemical bond by stereographic force spectroscopy. Chemical Science, 13(19), 5734-5740. doi:10.1039/D2SC01077A.


Cite as: https://hdl.handle.net/21.11116/0000-000A-6AE0-2
Abstract
A wealth of chemical bonds and polymers have been studied with single-molecule force spectroscopy, usually by applying a force perpendicular to the anchoring surface. However, the direction-dependence of the bond strength lacks fundamental understanding. Here we establish stereographic force spectroscopy to study the single-bond strength for various pulling angles. Surprisingly, we find that the apparent bond strength increases with increasing pulling angle relative to the anchoring surface normal, indicating a sturdy mechanical anisotropy of a chemical bond. This finding can be rationalized by a fixed pathway for the rupture of the bond, resulting in an effective projection of the applied pulling force onto a nearly fixed rupture direction. Our study is fundamental for the molecular understanding of the role of the direction of force application in molecular adhesion and friction. It is also a prerequisite for the nanoscale tailoring of the anisotropic strength of bottom-up designed materials.