Add to ORKGAutonomous propulsion of microparticles using catalytic olefin polymerization, and directional rotation of a molecule on a metal surface using electrons from the tip of a scanning tunnelling microscope.
Propelling single molecules in a controlled manner along an unmodified surface remains extremely cha...
Molecular motors can be defined as molecules that are able to convert any type of energy input (a fu...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...
Nanomachines of the future will require molecular-scale motors1, 2, 3, 4, 5, 6 that can perform work...
A molecular approach to the powering of multi-component nano-devices capable of autonomous translati...
Facing the challenge to construct nanoscale machines, it has been noted that molecular motors stand ...
cited By 97International audienceThe design of artificial molecular machines1,2,3,4,5,6,7,8,9,10,11,...
The molecular motors discussed in this thesis are a great source of inspiration for many scientists ...
Theoretical modeling and computer simulations of molecular motors provide insight that engineers can...
none2Movement is one of life’s central attributes. Nature provides living systems with complex molec...
Molecular motors can be defined as molecules that are able to convert any type of energy input (a fu...
With the long-term goal of producing nanometer-scale machines, we describe here the unidirectional r...
With the long-term goal of producing nanometer-scale machines, we describe here the unidirectional r...
The design and construction of machines and motors of molecular size is a stimulating scientific cha...
Progress in nanotechnology has enabled the synthesis of active particles that can harness chemical e...
Propelling single molecules in a controlled manner along an unmodified surface remains extremely cha...
Molecular motors can be defined as molecules that are able to convert any type of energy input (a fu...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...
Nanomachines of the future will require molecular-scale motors1, 2, 3, 4, 5, 6 that can perform work...
A molecular approach to the powering of multi-component nano-devices capable of autonomous translati...
Facing the challenge to construct nanoscale machines, it has been noted that molecular motors stand ...
cited By 97International audienceThe design of artificial molecular machines1,2,3,4,5,6,7,8,9,10,11,...
The molecular motors discussed in this thesis are a great source of inspiration for many scientists ...
Theoretical modeling and computer simulations of molecular motors provide insight that engineers can...
none2Movement is one of life’s central attributes. Nature provides living systems with complex molec...
Molecular motors can be defined as molecules that are able to convert any type of energy input (a fu...
With the long-term goal of producing nanometer-scale machines, we describe here the unidirectional r...
With the long-term goal of producing nanometer-scale machines, we describe here the unidirectional r...
The design and construction of machines and motors of molecular size is a stimulating scientific cha...
Progress in nanotechnology has enabled the synthesis of active particles that can harness chemical e...
Propelling single molecules in a controlled manner along an unmodified surface remains extremely cha...
Molecular motors can be defined as molecules that are able to convert any type of energy input (a fu...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...