Using optical tweezers, we measure the anisotropic hydrodynamic mobility of a colloidal particle by tracking its thermal motion in an optical trap located near fluid-fluid interfaces, namely, liquid-vapor and liquid-liquid interfaces. The method require
International audienceDespite the relevance to environmental, biological and industrial processes, t...
We measure interaction forces between pairs of charged PMMA colloidal particles suspended in a relat...
Optical microscopy and multi-particle tracking are used to investigate the cross-correlated diffusio...
Using optical trapping, we have measured anisotropic and distance-dependent mobility of a colloidal ...
Heterogeneity among particles is an inherent feature that allows nondeterministic prediction of the ...
By combining optical tweezers with polarization microscopy, the hydrodynamic coupling between positi...
We have developed an in situ method to calibrate optical tweezers experiments and simultaneously mea...
We demonstrate a method to determine the Brownian motion and the diffusion coefficient of a nanopart...
Whensuspended colloidal particles move in the ultimate vicinity of a flat solid interface, their mob...
We study the dynamics of a spherical colloidal particle pulled along the fluid-fluid interface using...
Interest in microfluidics is rapidly expanding and the use of microchips as miniature chemical react...
A tightly focused light beam can stably trap small objects in three dimensions. Using spatial light ...
Beyond their original capability to grab and hold tiny objects, optical tweezers have emerged as a p...
The viscosity of a fluid can be measured by tracking the motion of a suspended micron-sized particle...
A new technique is developed to analyze in-line Digital Holographic Microscopy images, making it pos...
International audienceDespite the relevance to environmental, biological and industrial processes, t...
We measure interaction forces between pairs of charged PMMA colloidal particles suspended in a relat...
Optical microscopy and multi-particle tracking are used to investigate the cross-correlated diffusio...
Using optical trapping, we have measured anisotropic and distance-dependent mobility of a colloidal ...
Heterogeneity among particles is an inherent feature that allows nondeterministic prediction of the ...
By combining optical tweezers with polarization microscopy, the hydrodynamic coupling between positi...
We have developed an in situ method to calibrate optical tweezers experiments and simultaneously mea...
We demonstrate a method to determine the Brownian motion and the diffusion coefficient of a nanopart...
Whensuspended colloidal particles move in the ultimate vicinity of a flat solid interface, their mob...
We study the dynamics of a spherical colloidal particle pulled along the fluid-fluid interface using...
Interest in microfluidics is rapidly expanding and the use of microchips as miniature chemical react...
A tightly focused light beam can stably trap small objects in three dimensions. Using spatial light ...
Beyond their original capability to grab and hold tiny objects, optical tweezers have emerged as a p...
The viscosity of a fluid can be measured by tracking the motion of a suspended micron-sized particle...
A new technique is developed to analyze in-line Digital Holographic Microscopy images, making it pos...
International audienceDespite the relevance to environmental, biological and industrial processes, t...
We measure interaction forces between pairs of charged PMMA colloidal particles suspended in a relat...
Optical microscopy and multi-particle tracking are used to investigate the cross-correlated diffusio...