Axel Troncossi scite author profile

In artificial small-molecule machines, molecular motors can be used to perform work on coupled systems by applying a mechanical load-such as strainthat allows for energy transduction. Here, we report how ring strain influences the rotation of a rotary molecular motor. Bridging the two halves of the motor with alkyl tethers of varying sizes yields macrocycles that constrain the motor's movement. Increasing the ring size by two methylene increments increases the mobility of the motor stepwise and allows for fine-tuning of strain in the system. Small macrocycles (8-14 methylene units) only undergo a photochemical E/Z isomerization. Larger macrocycles (16-22 methylene units) can perform a full rotational cycle, but thermal helix inversion is strongly dependent on the ring size. This study provides systematic and quantitative insight into the behavior of molecular motors under a mechanical load, paving the way for the development of complex coupled nanomachinery.

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The Influence of Strain on the Rotation of an Artificial Molecular Motor

Kathan

Crespi

Troncossi

et al. 2022

Angewandte Chemie

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Axel Troncossi

The Influence of Strain on the Rotation of an Artificial Molecular Motor

The Influence of Strain on the Rotation of an Artificial Molecular Motor

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