We experimentally demonstrate the optical trapping and transport of a single 100 nm polystyrene nanosphere across an array of silicon nanoantennas. Our device is all silicon and produces negligible local heating
Plasmon-enhanced optical trapping is being actively studied to provide efficient manipulation of nan...
© 2016 American Chemical Society. We demonstrate that silicon (Si) nanoparticles with scattering pro...
Heat generation and its impact on transport of polystyrene beads in the proximity of an optofluidic ...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
© 2019 Dr. Zhe XuThis dissertation demonstrates the optical trapping and direct tracking of single n...
We demonstrate, for the first time, the trapping and manipulation of individual Si nanowires by ligh...
ABSTRACT Optical tweezers1 have enabled a number of microscale processes such as single cell handlin...
International audienceSubstituting noble metals for high-index dielectrics has recently been propose...
Optical trapping has widely affected both the physical and life sciences. Past approaches to optical...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
Optical trapping using plasmonic nanoapertures has proven to be an effective means for the contactle...
We demonstrate that silicon (Si) nanoparticles with scattering properties exhibiting strong dielectr...
Interaction of electromagnetic waves with small particles has been extensively investigated for dete...
International audienceFourteen years ago, optical lattices and holographic tweezers were considered ...
Plasmon-enhanced optical trapping is being actively studied to provide efficient manipulation of nan...
© 2016 American Chemical Society. We demonstrate that silicon (Si) nanoparticles with scattering pro...
Heat generation and its impact on transport of polystyrene beads in the proximity of an optofluidic ...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
The ability to optically trap nanoscale particles in a reliable and noninvasive manner is emerging a...
© 2019 Dr. Zhe XuThis dissertation demonstrates the optical trapping and direct tracking of single n...
We demonstrate, for the first time, the trapping and manipulation of individual Si nanowires by ligh...
ABSTRACT Optical tweezers1 have enabled a number of microscale processes such as single cell handlin...
International audienceSubstituting noble metals for high-index dielectrics has recently been propose...
Optical trapping has widely affected both the physical and life sciences. Past approaches to optical...
Optically trapped nanoparticles can be used as efficient mobile probes of nanoscopic forces and temp...
Optical trapping using plasmonic nanoapertures has proven to be an effective means for the contactle...
We demonstrate that silicon (Si) nanoparticles with scattering properties exhibiting strong dielectr...
Interaction of electromagnetic waves with small particles has been extensively investigated for dete...
International audienceFourteen years ago, optical lattices and holographic tweezers were considered ...
Plasmon-enhanced optical trapping is being actively studied to provide efficient manipulation of nan...
© 2016 American Chemical Society. We demonstrate that silicon (Si) nanoparticles with scattering pro...
Heat generation and its impact on transport of polystyrene beads in the proximity of an optofluidic ...
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