Autonomous DNA molecular motor tailor-designed to navigate DNA origami surface for fast complex motion and advanced nanorobotics
Nanorobots powered by designed DNA molecular motors on DNA origami platforms are
vigorously pursued but still short of fully autonomous and sustainable operation, as the …
vigorously pursued but still short of fully autonomous and sustainable operation, as the …
Controlling DNA nanodevices with light-switchable buffers
Control over synthetic DNA-based nanodevices can be achieved with a variety of physical
and chemical stimuli. Actuation with light, however, is as advantageous as difficult to …
and chemical stimuli. Actuation with light, however, is as advantageous as difficult to …
A light-operated integrated DNA walker–origami system beyond bridge burning
Integrating rationally designed DNA molecular walkers and DNA origami platforms is a
promising route towards advanced nano-robotics of diverse functions. Unleashing the full …
promising route towards advanced nano-robotics of diverse functions. Unleashing the full …
Exhaustive classification and systematic free-energy profile study of single-stranded DNA inter-overhang migration
Migration of a short single-stranded DNA (ssDNA) between DNA overhangs is a basic
molecular process that is widely used in dynamic DNA nanotechnology. The migration rate …
molecular process that is widely used in dynamic DNA nanotechnology. The migration rate …
A Light‐Powered Single‐Stranded DNA Molecular Motor with Colour‐Selective Single‐Step Control
T Anderson, W Wu, O Sirbu, K Tong… - Angewandte Chemie …, 2024 - Wiley Online Library
Top‐down control of small motion is possible through top‐down controlled molecular motors
in replacement of larger actuators like MEMS or NEMS (micro‐or nano‐electromechanical …
in replacement of larger actuators like MEMS or NEMS (micro‐or nano‐electromechanical …