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Self-contained, biomolecular motor-driven protein sorting and concentrating in an ultrasensitive microfluidic chip.
We developed a molecular sorter that operates without external power or control by integrating the microtubule-based, biological motor kinesin into a microfluidic channel network to sort, transport,Expand
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Indoor Location Estimation Using Smart Antenna System
TLDR
This paper provides a novel indoor positioning solution using the multi-antennas architecture to increase the accuracy of location estimation. Expand
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Active alignment of microtubules with electric fields.
The direction of translocation of microtubules on a surface coated with kinesin is usually random. Here we demonstrate and quantify the rate at which externally applied electric fields can directExpand
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Efficient designs for powering microscale devices with nanoscale biomolecular motors.
Current MEMS and microfluidic designs require external power sources and actuators, which principally limit such technology. To overcome these limitations, we have developed a number of microfluidicExpand
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Biomolecular motor-driven molecular sorter.
We have developed a novel, microfabricated, stand-alone microfluidic device that can efficiently sort and concentrate (bio-)analyte molecules by using kinesin motors and microtubules as aExpand
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Nanomechanical model of microtubule translocation in the presence of electric fields.
Research efforts in recent years have been directed toward actively controlling the direction of translocation of microtubules on a kinesin-coated glass surface with E-fields (electric fields),Expand
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