Sorting of colloidal particles of different sizes is of importance in the transport and delivery of such particles in biological, materials science, and other technological contexts. A successful methodology involves the flow of a mixture of particles over designer surfaces presenting a periodic array of traps (optical tweezers) or microfabricated obstacles. The trajectories of the particles over these surfaces deviate from the direction of flow as the particles are attracted (traps) or repelled (obstacles) by the features of the landscape. The deviation of the particles from that of the flow depends on particle size (or on some other particle characteristic) and hence the particles can be sorted according to trajectory direction. On the ba...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
Sorting of colloidal particles of different sizes is of importance in the transport and delivery of...
Particles moving on crystalline surfaces and driven by external forces or flow fields can acquire ve...
There has been a recent revolution in the ability to manipulate micrometer-sized objects on surfaces...
There has been a recent revolution in the ability to manipulate micrometer-sized objects on surfaces...
Over the last few decades, the use of light to control and manipulate microscopic particles has beco...
Passive microfluidic sorting techniques based upon the interaction of particles with an optically de...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
An extended interference pattern close to the surface may result in either a transmissive or an evan...
Continuous particle sorting is one of the most important microfluidic applications. Fast and accurat...
Particles moving on perfect periodic surfaces under the influence of external forces may move along ...
Spontaneous segregation of run-and-tumble particles with different velocities in microchannels is in...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
Sorting of colloidal particles of different sizes is of importance in the transport and delivery of...
Particles moving on crystalline surfaces and driven by external forces or flow fields can acquire ve...
There has been a recent revolution in the ability to manipulate micrometer-sized objects on surfaces...
There has been a recent revolution in the ability to manipulate micrometer-sized objects on surfaces...
Over the last few decades, the use of light to control and manipulate microscopic particles has beco...
Passive microfluidic sorting techniques based upon the interaction of particles with an optically de...
Here, we present real-space studies of Brownian hard sphere transport though externally defined pote...
An extended interference pattern close to the surface may result in either a transmissive or an evan...
Continuous particle sorting is one of the most important microfluidic applications. Fast and accurat...
Particles moving on perfect periodic surfaces under the influence of external forces may move along ...
Spontaneous segregation of run-and-tumble particles with different velocities in microchannels is in...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...
The path that a mesoscopic polarisable particle takes as it flows through a lattice of intensity max...