Add to ORKGDynamics of active or propulsive Brownian particles in nonequilibrium status have recently attracted great interest in many fields including artificial micro/nanoscopic motors and biological entities. Understanding of their dynamics can provide insight into the statistical properties of physical and biological systems far from equilibrium. We report the translational dynamics of photon-activated gold nanoparticles (NPs) in water imaged by liquid-cell four-dimensional electron microscopy (4D-EM) with high spatiotemporal resolution. Under excitation of femtosecond laser pulses, we observed that those NPs exhibit superfast diffusive translation with a diffusion constant four to five orders of magnitude greater than that in the absence of laser...
: The effect of local photo-triggered heat release on the motion of organic nanopartcles (NP), a pro...
Differently from passive Brownian particles, active particles, also known as self-propelled Brownian...
The prospect of self-propelled artificial machines small enough to navigate within biological matter...
International audienceCavitation in pure liquids and in liquids containing nanoparticles enables app...
Light and heat are synergistic tools used in the manipulation of nanoparticles and biomolecules. Whe...
Liquid-cell electron microscopy (LC-EM) provides a unique approach for in situ imaging of morphology...
In real time and space, four-dimensional electron microscopy (4D EM) has enabled observation of tran...
textWe present experimentally determined photodisruption enhancement of 50 nm gold spheres irradiate...
Nanoparticle tracking velocimetry can be used to measure the hydrodynamic size and the electrophoret...
The motion of nanoparticles near surfaces is of fundamental importance in physics, biology, and chem...
Active Brownian particles are capable of taking up energy from their environment and converting it i...
Active particles break out of thermodynamic equilibrium thanks to their directed motion, which leads...
Microbubbles produced by exposing water-immersed metallic nanoparticles to resonant light play an im...
Microbubbles produced by exposing water-immersed metallic nanoparticles to resonant light play an im...
The trapping and manipulation of small objects are desirable for a number of reasons such as force m...
: The effect of local photo-triggered heat release on the motion of organic nanopartcles (NP), a pro...
Differently from passive Brownian particles, active particles, also known as self-propelled Brownian...
The prospect of self-propelled artificial machines small enough to navigate within biological matter...
International audienceCavitation in pure liquids and in liquids containing nanoparticles enables app...
Light and heat are synergistic tools used in the manipulation of nanoparticles and biomolecules. Whe...
Liquid-cell electron microscopy (LC-EM) provides a unique approach for in situ imaging of morphology...
In real time and space, four-dimensional electron microscopy (4D EM) has enabled observation of tran...
textWe present experimentally determined photodisruption enhancement of 50 nm gold spheres irradiate...
Nanoparticle tracking velocimetry can be used to measure the hydrodynamic size and the electrophoret...
The motion of nanoparticles near surfaces is of fundamental importance in physics, biology, and chem...
Active Brownian particles are capable of taking up energy from their environment and converting it i...
Active particles break out of thermodynamic equilibrium thanks to their directed motion, which leads...
Microbubbles produced by exposing water-immersed metallic nanoparticles to resonant light play an im...
Microbubbles produced by exposing water-immersed metallic nanoparticles to resonant light play an im...
The trapping and manipulation of small objects are desirable for a number of reasons such as force m...
: The effect of local photo-triggered heat release on the motion of organic nanopartcles (NP), a pro...
Differently from passive Brownian particles, active particles, also known as self-propelled Brownian...
The prospect of self-propelled artificial machines small enough to navigate within biological matter...