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Bacterial flagellar motors can be integrated with microfluidic systems to provide mechanical power at the micro- and nanoscale level. This paper describes a non-contact method based on hydrodynamic loading for controlling the rotational behavior of tethered flagellar motors in a microfluidic system. Experimental results indicate that with a small micro channel flow, tethered motors can be slowed down...
Mutant strains of bacterial flagellar motors can be tethered to the sidewalls of microfluidic channels to perform mechanical functions. In most cases, the rotational behavior of the tethered motors must be properly controlled in order to achieve optimized performance. There are several approaches for carrying out this task but most of them involve techniques that affect the viability of the motors...
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