DNA Bipedal Motor Achieves a Large Number of Steps Due to Operation Using Microfluidics-Based Interface

Volume: 11, Issue: 4, Pages: 4002 - 4008
Published: Apr 14, 2017
Abstract
Realization of bioinspired molecular machines that can perform many and diverse operations in response to external chemical commands is a major goal in nanotechnology, but current molecular machines respond to only a few sequential commands. Lack of effective methods for introduction and removal of command compounds and low efficiencies of the reactions involved are major reasons for the limited performance. We introduce here a user interface...
Paper Details
Title
DNA Bipedal Motor Achieves a Large Number of Steps Due to Operation Using Microfluidics-Based Interface
Published Date
Apr 14, 2017
Journal
Volume
11
Issue
4
Pages
4002 - 4008
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