Artificial Molecular Machines

Another powerful nanoengine remembered

By |2017-06-01T14:01:36-07:00July 11th, 2016|Artificial Molecular Machines, Molecular Nanotechnology, Nano, Nanodot, Nanoscale Bulk Technologies, Nanotech, Nanotechnology, Research|

The claim that the recently reported actuating nanotransducers (ANTS) produce forces "orders of magnitude larger than any produced previously" is challenged by a nanocrystal carbon nanotube device reported 11 years ago.

Powerful nanoengine built from coated nanoparticles

By |2017-06-01T14:01:37-07:00June 5th, 2016|Artificial Molecular Machines, Investment/Entrepreneuring, MEMS, Nano, Nanobusiness, Nanodot, Nanoscale Bulk Technologies, Nanotech, Nanotechnology, Research|

A nanoengine 100 times more powerful than known nanomotors and muscles was demonstrated using the aggregation and dispersal of gold nanoparticles coated with a polymer that undergoes a rapid transition from hydrophobic to hydrophilic.

Tightly-fitted DNA parts form dynamic nanomachine

By |2017-06-01T14:01:39-07:00March 10th, 2016|Artificial Molecular Machines, Atomically Precise Manufacturing (APM), Bionanotechnology, Molecular manufacturing, Molecular Nanotechnology, Nano, Nanobiotechnology, Nanodot, Nanotech, Nanotechnology, Productive Nanosystems, Research|

A rotor with DNA origami parts held together by an engineered tight fit instead of by covalent bonds can revolve freely, driven by Brownian motion and dwelling at engineered docking sites.

Roles of materials research and polymer chemistry in developing nanotechnology

By |2017-06-01T14:01:39-07:00February 16th, 2016|Artificial Molecular Machines, Bionanotechnology, Found On Web, Memetics, Nano, Nanobiotechnology, Nanodot, Nanoscale Bulk Technologies, Nanotech, Nanotechnology, Reviews|

Polymer chemistry and materials research provide opportunities to explore structures that harmonize phenomena unique to nanoscale technology, the role of mechanical forces generated at interfaces, and the responses of biological systems to mechanical stresses.

Molecular arm grabs, transports, releases molecular cargo

By |2017-10-01T07:20:13-07:00January 12th, 2016|Artificial Molecular Machines, Atomically Precise Manufacturing (APM), Foresight Kudos, Molecular manufacturing, Molecular Nanotechnology, Nano, Nanodot, Nanotech, Nanotechnology, Research, Reviews|

A molecular robotic arm synthesized from small synthetic organic molecules uses cyclic changes in pH and other reaction conditions to grab and release a cargo molecule, and swing the cargo back and forth between the two ends of the molecular platform.

Using DNA nanotechnology to position molecules with atomic precision

By |2017-06-01T14:01:41-07:00December 9th, 2015|Artificial Molecular Machines, Atomically Precise Manufacturing (APM), Bionanotechnology, Molecular manufacturing, Molecular Nanotechnology, Nano, Nanobiotechnology, Nanodot, Nanotech, Nanotechnology, Research|

German researchers have used scaffolded DNA origami to adjust the angle of a DNA hinge joint by altering the length of special "adjuster helices", causing molecules attached to the sides of the hinge to be displaced by as little as 0.04 nm.

Single-molecule light-driven nanosubmarine

By |2017-06-01T21:34:13-07:00December 5th, 2015|Artificial Molecular Machines, Foresight Kudos, Foresight News, Foresight News Articles, Molecular Nanotechnology, Nano, Nanodot, Nanotech, Nanotechnology, Research|

Each time a laser pulse actuates the cis-trans isomerization of a single carbon-carbon double bond, a single-molecule nanosubmarine made of 244 atoms is driven forward 9 nm against Brownian diffusion.

One-directional rotation in a new artificial molecular motor

By |2017-06-01T14:01:42-07:00November 5th, 2015|Artificial Molecular Machines, Atomically Precise Manufacturing (APM), Molecular manufacturing, Molecular Nanotechnology, Nano, Nanodot, Nanotech, Nanotechnology, Research|

Independent rotation of two wheels attached to either end of an axle has been achieved in a light-driven artificial molecular motor, suggesting a basis for a nanometer-scale transport system.

DNA nanomachine lights up to diagnose diseases

By |2017-06-01T14:01:42-07:00November 2nd, 2015|Artificial Molecular Machines, Bionanotechnology, Future Medicine, Molecular Nanotechnology, Nano, Nanobiotechnology, Nanodot, Nanomedicine, Nanotech, Nanotechnology, Research|

DNA nanotechnology produces an artificial molecular machine that changes shape when it encounters a specific antibody or other protein molecule, and emits light to signal the target's presence.

Parallel to protein folding improves DNA origami process

By |2017-06-01T14:01:43-07:00September 27th, 2015|Artificial Molecular Machines, Bionanotechnology, Molecular Nanotechnology, Nano, Nanobiotechnology, Nanodot, Nanotech, Nanotechnology, Research|

Designing a small DNA origami that can fold in several almost equivalent ways demonstrates how understanding and guiding the folding pathway can improve the efficiency of the folding process, potentially leading in more complex situations to higher yields of the desired nanostructure and fewer misfolded structures.

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