TY - JOUR
T1 - Anatomy of Nanoscale Propulsion
AU - Yadav, Vinita
AU - Duan, Wentao
AU - Butler, Peter J.
AU - Sen, Ayusman
N1 - Publisher Copyright:
Copyright ©2015 by Annual Reviews. All rights reserved.
PY - 2015/6/22
Y1 - 2015/6/22
N2 - Nature supports multifaceted forms of life. Despite the variety and complexity of these forms, motility remains the epicenter of life. The applicable laws of physics change upon going from macroscales to microscales and nanoscales, which are characterized by low Reynolds number (Re). We discuss motion at low Re in natural and synthetic systems, along with various propulsion mechanisms, including electrophoresis, electrolyte diffusiophoresis, and nonelectrolyte diffusiophoresis. We also describe the newly uncovered phenomena of motility in non-ATP-driven self-powered enzymes and the directional movement of these enzymes in response to substrate gradients. These enzymes can also be immobilized to function as fluid pumps in response to the presence of their substrates. Finally, we review emergent collective behavior arising from interacting motile species, and we discuss the possible biomedical applications of the synthetic nanobots and microbots.
AB - Nature supports multifaceted forms of life. Despite the variety and complexity of these forms, motility remains the epicenter of life. The applicable laws of physics change upon going from macroscales to microscales and nanoscales, which are characterized by low Reynolds number (Re). We discuss motion at low Re in natural and synthetic systems, along with various propulsion mechanisms, including electrophoresis, electrolyte diffusiophoresis, and nonelectrolyte diffusiophoresis. We also describe the newly uncovered phenomena of motility in non-ATP-driven self-powered enzymes and the directional movement of these enzymes in response to substrate gradients. These enzymes can also be immobilized to function as fluid pumps in response to the presence of their substrates. Finally, we review emergent collective behavior arising from interacting motile species, and we discuss the possible biomedical applications of the synthetic nanobots and microbots.
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U2 - 10.1146/annurev-biophys-060414-034216
DO - 10.1146/annurev-biophys-060414-034216
M3 - Article
C2 - 26098511
AN - SCOPUS:84937410017
SN - 1936-122X
VL - 44
SP - 77
EP - 100
JO - Annual Review of Biophysics
JF - Annual Review of Biophysics
ER -