We investigate, from single-particle tracking of jumps, the cluster configurations that allow hopping over a geometric activation barrier in surface diffusion. Spherical colloidal particles, their dimers, and their isomeric planar trimers are compared on hexagonal surface lattices commensurate with the elemental size of one particle. The experiments reveal that translational and rotational mobility depend on the shape of these clusters, not only on their mass, because the jump process favors a restricted family of cluster configurations. The resulting strong decoupling between rotation and translation demonstrates the limitations of a naive Arrhenius picture, even for a simple gravitational potential
The sliding motion of objects is typically governed by their friction with the underlying surface. C...
Colloidal particles equipped with platinum patches can establish chemical gradients in H O -enriche...
Spherical colloids decorated with a surface coating of catalytically active material are capable of ...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We study both experimentally and theoretically the dynamics of chemically self-propelled Janus collo...
Shape changes resulting from segmental flexibility are ubiquitous in molecular and biological system...
Colloidal clusters were assembled into discrete isomeric shapes and their translational and rotation...
Field ion microscopy show a strong correlation between mobility and shape of small clusters on fcc(1...
When particles are driven across crystalline surfaces, their trajectories do not necessarily follow ...
In this work, we illustrate two approaches to the simulation of surface diffusion over a sphere coup...
International audienceDynamics of a particle diffusing in a confinement can be seen a sequence of bu...
Direct observations of atomic motion with the field ion microscope (FIM) are providing detailed info...
In many biological and small scale technological applications particles may transiently bind to a cy...
In this thesis we have investigated how the dynamics of particle are affected by surface activity, w...
Spherical colloids decorated with a surface coating of catalytically active material are capable of ...
The sliding motion of objects is typically governed by their friction with the underlying surface. C...
Colloidal particles equipped with platinum patches can establish chemical gradients in H O -enriche...
Spherical colloids decorated with a surface coating of catalytically active material are capable of ...
Single-particle tracking was used to measure the diffusion in aqueous suspension of dilute colloidal...
We study both experimentally and theoretically the dynamics of chemically self-propelled Janus collo...
Shape changes resulting from segmental flexibility are ubiquitous in molecular and biological system...
Colloidal clusters were assembled into discrete isomeric shapes and their translational and rotation...
Field ion microscopy show a strong correlation between mobility and shape of small clusters on fcc(1...
When particles are driven across crystalline surfaces, their trajectories do not necessarily follow ...
In this work, we illustrate two approaches to the simulation of surface diffusion over a sphere coup...
International audienceDynamics of a particle diffusing in a confinement can be seen a sequence of bu...
Direct observations of atomic motion with the field ion microscope (FIM) are providing detailed info...
In many biological and small scale technological applications particles may transiently bind to a cy...
In this thesis we have investigated how the dynamics of particle are affected by surface activity, w...
Spherical colloids decorated with a surface coating of catalytically active material are capable of ...
The sliding motion of objects is typically governed by their friction with the underlying surface. C...
Colloidal particles equipped with platinum patches can establish chemical gradients in H O -enriche...
Spherical colloids decorated with a surface coating of catalytically active material are capable of ...