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W2174578049 abstract "In the last decade, many nanomachines with controlled molecular motions have been studied, mainly on metallic surfaces, which are easy to obtain very clean, and are stable over months. However, the studies of mechanical properties of nanomachines are mainly performed at very low temperatures, usually between 5 and 80 K, which prevents any kind of applications. In this Minireview, we will present our strategy to operate at higher temperatures, in particular through the use of semiconducting silicon surfaces. We also review our best achievements in the field through some examples of rotating molecular machines that have been designed, synthesized, and studied in our groups. On metallic surfaces, the nanovehicles are molecules with two or four triptycenes as wheels and the molecular motor is built around a ruthenium organometallic center with a piano-stool geometry and peripheric ferrocenyl groups. On semiconducting silicon surfaces, vehicles are also made from triptycene fragments and the rotor is a pentaphenylbenzene molecule." @default.
W2174578049 created "2016-06-24" @default.
W2174578049 creator A5013573268 @default.
W2174578049 creator A5029067323 @default.
W2174578049 creator A5046016692 @default.
W2174578049 creator A5048673665 @default.
W2174578049 date "2015-12-02" @default.
W2174578049 modified "2023-10-18" @default.
W2174578049 title "Controlled Directional Motions of Molecular Vehicles, Rotors, and Motors: From Metallic to Silicon Surfaces, a Strategy to Operate at Higher Temperatures" @default.
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W2174578049 doi "https://doi.org/10.1002/cphc.201500904" @default.
W2174578049 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26604073" @default.
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