Coordination-directed self-assembly of molecular motors: towards a two-wheel drive nanocar

Autor: Quan Li, Ming-Hua Zeng, Xin Chi, Meng-Lian Li, Yuexing Zhang, Hang Zhou, Kexin Zhang, Shaorui Li, Hai-Bing Xu, Dong Wang
Rok vydání: 2021
Předmět:
Zdroj: Nanoscale. 13:16748-16754
ISSN: 2040-3372
2040-3364
Popis: Designing and constructing hierarchical and stimuli-responsive motorized nanocar systems to perform useful tasks on-demand is highly imperative towards molecular nanotechnology. In this work, a most simplified two-wheel nanocar was successfully prepared through a facile strategy of coordination-directed self-assembly. The nanocar meso-AgL2 features a central pseudo square-planar Ag(I) which was bridged by two enantiomeric motors as the wheels that ensure the car moves in the same direction when observed externally. Thanks to the electronic push–pull characteristic of L and 3ILCT triplet sensitization, this nanocar can be driven by visible light up to 500 nm. Furthermore, it could be disassembled into individual motor elements through the addition of pyridine, thus allowing dynamic regulation over the function of the nanocar. Importantly, our STM imaging results showed very organized tilted layered structures for meso-AgL2 on highly oriented pyrolytic graphite (HOPG) that are quite similar to its crystalline ones, paving the way for future single molecule manipulations. The nanocar reported here represents the first example of integrating individual motors into a hierarchical motorized nanocar system via the facile coordination-directed self-assembly method and may offer a good starting point to realize its robotic functions, e.g., metal transportation and release.
Databáze: OpenAIRE