Add to ORKGABSTRACT The fabrication of nanoscale devices would be greatly enhanced by “nanomanipulators ” that can position single and few objects rapidly with nanometer precision and without mechanical damage. Here, we demonstrate the feasibility and precision of an optical laser tweezer, or optical trap, approach to place single gold (Au) nanoparticles on surfaces with high precision (approximately 100 nm standard deviation). The error in the deposition process is rather small but is determined to be larger than the thermal fluctuations of single nanoparticles within the optical trap. Furthermore, areas of tens of square micrometers could be patterned in a matter of minutes. Since the method does not rely on lithography, scanning probes or a special...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...
We have used a gold nanohole array to trap single polystyrene nanoparticles, with a mean diameter of...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
A novel laser beam guided patterning technique for deposition of nanoparticle clusters of various ma...
Most progress on optical nanoparticle control has been in liquids, while optical control in air has ...
Narrow nanogaps formed between nanostructures act as hot spots, where the plasmonic properties are s...
Current colloidal synthesis is able to produce an extensive spectrum of nanoparticles with unique op...
We report on trapping of single and multiple spherical gold nanoparticles with 60 to 250 nm diameter...
We report on the deposition of individual gold nanorods from an optical trap using two different las...
Recent advances in nanotechnologies have prompted the need for tools to accurately and non-invasivel...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
The feasibility of using gold nano-rings as plasmonic nano-optical tweezers is investigated. We foun...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
Aerosol trapping has proven challenging and was only recently demonstrated. 1 This was accomplished ...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...
We have used a gold nanohole array to trap single polystyrene nanoparticles, with a mean diameter of...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
A novel laser beam guided patterning technique for deposition of nanoparticle clusters of various ma...
Most progress on optical nanoparticle control has been in liquids, while optical control in air has ...
Narrow nanogaps formed between nanostructures act as hot spots, where the plasmonic properties are s...
Current colloidal synthesis is able to produce an extensive spectrum of nanoparticles with unique op...
We report on trapping of single and multiple spherical gold nanoparticles with 60 to 250 nm diameter...
We report on the deposition of individual gold nanorods from an optical trap using two different las...
Recent advances in nanotechnologies have prompted the need for tools to accurately and non-invasivel...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
The simultaneous positioning of multiple colloidal particles using optical tweezers is described her...
The feasibility of using gold nano-rings as plasmonic nano-optical tweezers is investigated. We foun...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
Aerosol trapping has proven challenging and was only recently demonstrated. 1 This was accomplished ...
International audienceOptical tweezers have paved the way towards the manipulation of particles and ...
We have used a gold nanohole array to trap single polystyrene nanoparticles, with a mean diameter of...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...