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An electric molecular motor

Chemistry

An electric molecular motor

L. Zhang, Y. Qiu, et al.

Explore the groundbreaking innovation of an electrically powered molecular motor utilizing a [3]catenane, where unique design enables high unidirectionality in movement. This research, conducted by notable authors such as Long Zhang and J. Fraser Stoddart from Northwestern University, promises to revolutionize the field of molecular machines.

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Playback language: English
Abstract
This paper describes an electric molecular motor based on a [3]catenane, where two cyclobis(paraquat-p-phenylene) (CBPQT<sup>4+</sup>) rings circumrotate unidirectionally around a 50-membered loop powered by electricity. The loop's design ensures highly unidirectional ring movement (85%) guided by a flashing energy ratchet, with ring interactions creating a two-dimensional potential energy surface similar to F<sub>0</sub>F<sub>1</sub>-ATP synthase. Unidirectionality is achieved through oscillating voltage or redox potential modulation. A [2]catenane analogue showed insufficient kinetic asymmetry for unidirectional movement, prompting the use of a second CBPQT<sup>4+</sup> ring for symmetry breaking. This electrically driven, waste-product-free circumrotatory motion is a significant step toward surface-bound electric molecular motors.
Publisher
Nature
Published On
Jan 12, 2023
Authors
Long Zhang, Yunyan Qiu, Wei-Guang Liu, Hongliang Chen, Dengke Shen, Bo Song, Kang Cai, Huang Wu, Yang Jiao, Yuanning Feng, James S. W. Seale, Cristian Pezzato, Jia Tian, Yu Tan, Xiao-Yang Chen, Qing-Hui Guo, Charlotte L. Stern, Douglas Philp, R. Dean Astumian, William A. Goddard III, J. Fraser Stoddart
Tags
electric molecular motor
[3]catenane
unidirectional movement
ring circumrotation
energy ratchet
redox potential
molecular machines

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