Authors
Sundus Erbas-Cakmak, David A Leigh, Charlie T McTernan, Alina L Nussbaumer
Publication date
2015/9/8
Journal
Chemical Reviews
Volume
115
Issue
18
Pages
10081-10206
Publisher
American Chemical Society
Description
The widespread use of molecular machines in biology has long suggested that great rewards could come from bridging the gap between synthetic molecular systems and the machines of the macroscopic world. In the last two decades, it has proved possible to design synthetic molecular systems with architectures where triggered large amplitude positional changes of submolecular components occur. Perhaps the best way to appreciate the technological potential of controlled molecular-level motion is to recognize that nanomotors and molecular-level machines lie at the heart of every significant biological process. Over billions of years of evolution, nature has not repeatedly chosen this solution for performing complex tasks without good reason. When mankind learns how to build artificial structures that can control and exploit molecular level motion and interface their effects directly with other molecular-level …
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S Erbas-Cakmak, DA Leigh, CT McTernan… - Chemical reviews, 2015