Add to ORKGFast, low-cost, reliable, and multi-component nanopatterning techniques for functional colloidal nanoparticles have been dreamed about by scientists and engineers for decades. Although countless efforts have been made, it is still a daunting challenge to organize different nanocomponents into a predefined structure with nanometer precision over the millimeter and even larger scale. To meet the challenge, we report a nanoprinting technique that can print various functional colloidal nanoparticles into arbitrarily defined patterns with a 200 nm (or smaller) pitch (>125,000 DPI), 30 nm (or larger) pixel size/linewidth, 10 nm position accuracy and 50 nm overlay precision. The nanopatterning technique combines dielectrophoretic enri...
The ability to design, pattern, and process materials at the nanoscale has enabled vast research opp...
Creating a device where cell reactions to nanoscale topographies and a control (usually planar) surf...
Applications that range from electronics to biotechnology will greatly benefit from low-cost, scalab...
Herein, we describe a novel colloidal lithographic strategy for the stepwise patterning of planar su...
Nanopatterns of functional materials have successfully led innovations in a wide range of fields, bu...
Surface-patterning colloidal matter in the sub-10 nm regime generates exceptional functionality in b...
Micro- and nanoscale patterned monolayers of plasmonic nanoparticles were fabricated by combining co...
International audienceThe fabrication of high quality nanophotonic surfaces for integration in optoe...
This Account describes a new paradigm for large-area nanoscale patterning that combines bottom-up an...
Within the past years there has been much effort in developing and improving new techniques for the ...
Patterning of many types of biomolecules over length scales ranging from micrometers to nanometers i...
ABSTRACT: Surface patterns with prescribed structures and properties are highly desirable for a vari...
The production of micrometer-sized structures comprised of nanoparticles in defined patterns and den...
The recent decade has seen a rapid expansion in the ability to create and study nanometer scale obje...
We introduce NanoPen, a novel technique for low optical power intensity, flexible, real-time reconfi...
The ability to design, pattern, and process materials at the nanoscale has enabled vast research opp...
Creating a device where cell reactions to nanoscale topographies and a control (usually planar) surf...
Applications that range from electronics to biotechnology will greatly benefit from low-cost, scalab...
Herein, we describe a novel colloidal lithographic strategy for the stepwise patterning of planar su...
Nanopatterns of functional materials have successfully led innovations in a wide range of fields, bu...
Surface-patterning colloidal matter in the sub-10 nm regime generates exceptional functionality in b...
Micro- and nanoscale patterned monolayers of plasmonic nanoparticles were fabricated by combining co...
International audienceThe fabrication of high quality nanophotonic surfaces for integration in optoe...
This Account describes a new paradigm for large-area nanoscale patterning that combines bottom-up an...
Within the past years there has been much effort in developing and improving new techniques for the ...
Patterning of many types of biomolecules over length scales ranging from micrometers to nanometers i...
ABSTRACT: Surface patterns with prescribed structures and properties are highly desirable for a vari...
The production of micrometer-sized structures comprised of nanoparticles in defined patterns and den...
The recent decade has seen a rapid expansion in the ability to create and study nanometer scale obje...
We introduce NanoPen, a novel technique for low optical power intensity, flexible, real-time reconfi...
The ability to design, pattern, and process materials at the nanoscale has enabled vast research opp...
Creating a device where cell reactions to nanoscale topographies and a control (usually planar) surf...
Applications that range from electronics to biotechnology will greatly benefit from low-cost, scalab...