Add to ORKGWe present a high-confinement approach to capillarity-assisted particle assembly (CAPA) enabling both high-precision and high-yield assembly of single nanoparticles and of multi-particle clusters into silicon and glass substrates.info:eu-repo/semantics/publishe
We report a facile method for reproducibly fabricating large-scale device arrays, suitable for nanoe...
HypothesisControlled particle assembly from a dilute suspension droplet is challenging yet important...
The self-assembly of colloids is an alternative to top-down processing that enables the fabrication ...
New developments in nanoparticle synthesis is opening new opportunities in bottom-up assembly. Indee...
Signicant progress has been made to synthesis colloidal particles capable of controlling shape , dim...
Capillary-assisted particle assembly (CAPA) in predefined topographical templates is a scalable meth...
International audienceThe fabrication of high quality nanophotonic surfaces for integration in optoe...
© 2018 Dr. Tim MappersonNano-assembly promises powerful technological advances, yet there is a persi...
The resonant excitation of free electrons in metallic nanostructures enables extreme near field inte...
Predetermined and selective placement of nanoparticles onto large-area substrates with nanometre-sca...
Capillarity assisted particle assembly (CAPA), is a powerful technique which is gaining in importanc...
Hybrid nanoparticle clusters (often metallic) are interesting plasmonic materials with tunable reson...
International audienceCapillary force assembly (CFA) of colloidal particles usually results in close...
Directed self-assembly of nanoparticles (DSA-n) holds great potential for device miniaturization in ...
A method for the cascaded capillary assembly of different particle populations in a single assembly ...
We report a facile method for reproducibly fabricating large-scale device arrays, suitable for nanoe...
HypothesisControlled particle assembly from a dilute suspension droplet is challenging yet important...
The self-assembly of colloids is an alternative to top-down processing that enables the fabrication ...
New developments in nanoparticle synthesis is opening new opportunities in bottom-up assembly. Indee...
Signicant progress has been made to synthesis colloidal particles capable of controlling shape , dim...
Capillary-assisted particle assembly (CAPA) in predefined topographical templates is a scalable meth...
International audienceThe fabrication of high quality nanophotonic surfaces for integration in optoe...
© 2018 Dr. Tim MappersonNano-assembly promises powerful technological advances, yet there is a persi...
The resonant excitation of free electrons in metallic nanostructures enables extreme near field inte...
Predetermined and selective placement of nanoparticles onto large-area substrates with nanometre-sca...
Capillarity assisted particle assembly (CAPA), is a powerful technique which is gaining in importanc...
Hybrid nanoparticle clusters (often metallic) are interesting plasmonic materials with tunable reson...
International audienceCapillary force assembly (CFA) of colloidal particles usually results in close...
Directed self-assembly of nanoparticles (DSA-n) holds great potential for device miniaturization in ...
A method for the cascaded capillary assembly of different particle populations in a single assembly ...
We report a facile method for reproducibly fabricating large-scale device arrays, suitable for nanoe...
HypothesisControlled particle assembly from a dilute suspension droplet is challenging yet important...
The self-assembly of colloids is an alternative to top-down processing that enables the fabrication ...