Add to ORKGDNA nanomotors are synthetic biochemical devices whose motion can be controlled at the molecular scale. Some DNA devices require several exogenous additions of different types of fuel to operate, which limits their potential uses. However, several devices that operate autonomously have recently been described. One such DNA nanomotor, based on a 10−23 DNA enzyme (DNAzyme), was introduced by Chen, Wang, and Mao (Angew. Chem., Int. Ed. 2004, 43, 3554). Although this DNAzyme nanomotor operates autonomously, its performance degrades over time in experiments. In this paper, we describe a mathematical model that predicts this degradation by accounting for the gradual accumulation of waste in the system. We also introduce and experimentally demonst...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...
Replicating efficient chemical energy utilization of biological nanomotors is one ultimate goal of n...
Small devices capable of self-propulsion have potential application in areas of nanoscience where au...
Molecular machines, such as ATPases or motor proteins, couple the catalysis of a chemical reaction, ...
Small devices capable of self-propulsion have potential application in areas of nanoscience where au...
Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosized s...
AbstractA major challenge in nanoscience is the design of synthetic molecular devices that run auton...
Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosized s...
DNA has been used to construct a wide variety of nanoscale molecular devices. Inspiration for such s...
DNA has been used to construct a wide variety of nanoscale molecular devices. Inspiration for such s...
A major challenge in nanoscience is the design of synthetic molecular devices that run autonomously ...
none5Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosi...
Inspired by biological motors, artificially designed molecular motors were developed in recent years...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...
Replicating efficient chemical energy utilization of biological nanomotors is one ultimate goal of n...
Small devices capable of self-propulsion have potential application in areas of nanoscience where au...
Molecular machines, such as ATPases or motor proteins, couple the catalysis of a chemical reaction, ...
Small devices capable of self-propulsion have potential application in areas of nanoscience where au...
Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosized s...
AbstractA major challenge in nanoscience is the design of synthetic molecular devices that run auton...
Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosized s...
DNA has been used to construct a wide variety of nanoscale molecular devices. Inspiration for such s...
DNA has been used to construct a wide variety of nanoscale molecular devices. Inspiration for such s...
A major challenge in nanoscience is the design of synthetic molecular devices that run autonomously ...
none5Opportunely designed synthetic DNA molecules can spontaneously self-assemble into stable nanosi...
Inspired by biological motors, artificially designed molecular motors were developed in recent years...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
The nanoscience community is currently witnessing the blossoming of several different types of molec...
We present a synthetic molecular motor capable of autonomous nanoscale transport in solution. Inspir...