单分子潜水纳米机器。合成、驱动与监测。

Unimolecular Submersible Nanomachines. Synthesis, Actuation, and Monitoring.

作者信息

García-López Víctor, Chiang Pinn-Tsong, Chen Fang, Ruan Gedeng, Martí Angel A, Kolomeisky Anatoly B, Wang Gufeng, Tour James M

机构信息

Department of Chemistry, North Carolina State University , Raleigh, North Carolina 27695, United States.

出版信息

Nano Lett. 2015 Dec 9;15(12):8229-39. doi: 10.1021/acs.nanolett.5b03764. Epub 2015 Nov 13.

DOI:10.1021/acs.nanolett.5b03764

PMID:26540377

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4676417/

Abstract

Unimolecular submersible nanomachines (USNs) bearing light-driven motors and fluorophores are synthesized. NMR experiments demonstrate that the rotation of the motor is not quenched by the fluorophore and that the motor behaves in the same manner as the corresponding motor without attached fluorophores. No photo or thermal decomposition is observed. Through careful design of control molecules with no motor and with a slow motor, we found using single molecule fluorescence correlation spectroscopy that only the molecules with fast rotating speed (MHz range) show an enhancement in diffusion by 26% when the motor is fully activated by UV light. This suggests that the USN molecules give ∼9 nm steps upon each motor actuation. A non-unidirectional rotating motor also results in a smaller, 10%, increase in diffusion. This study gives new insight into the light actuation of motorized molecules in solution.

摘要

合成了带有光驱动马达和荧光团的单分子潜水纳米机器（USN）。核磁共振实验表明，马达的旋转不会被荧光团淬灭，并且该马达的行为与未连接荧光团的相应马达相同。未观察到光分解或热分解现象。通过精心设计没有马达和马达转速较慢的控制分子，我们使用单分子荧光相关光谱法发现，当马达被紫外光完全激活时，只有转速快（兆赫兹范围）的分子扩散增强了26%。这表明，每次马达驱动时，USN分子会产生约9纳米的步长。一个非单向旋转的马达也会使扩散增加较小，为10%。这项研究为溶液中机动分子的光驱动提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56a1/4676417/d10f197475e5/nl-2015-037645_0001.jpg

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单分子潜水纳米机器。合成、驱动与监测。

Unimolecular Submersible Nanomachines. Synthesis, Actuation, and Monitoring.

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