Add to ORKGWe report the use of metastable Ar(3P0,2) atoms and a physical mask to pattern octadecylsiloxane self-assembled monolayers grown directly on silicon surfaces. The damage to the monolayer is confirmed using lateral force microscopy, changes in hydrophilicity, and x-ray photoelectron spectroscopy analysis. Metastable atom exposures sufficient to uniformly damage the monolayer should allow pattern transfer to the underlying Si(100) substrate following chemical and plasma etching. With optical manipulation of the incident metastable atoms, this technique could provide the basis for massively parallel nanoscale fabrication on silicon
Cs atom beams, transversely collimated and cooled, passing through material masks in the form of arr...
Although a molecular monolayer is only a few nanometers thick it can completely change the propertie...
A general concept for parallel near-field photochemical and radiation-induced chemical processes for...
We report the use of metastable Ar(3P0,2) atoms and a physical mask to pattern octadecylsiloxane sel...
The design and characterization of an intense source of metastable Ar(3P0,2) atoms is described toge...
AbstractWe utilized a beam of helium atoms in a metastable excited state to expose an improved ultra...
By combining atom lithography and plasma etching technology in a two-step process, we demonstrate th...
This paper describes an innovative and simple technique for analyzing defects in silane-based self-a...
We report on the fabrication of planar surfaces bearing nanoscale chemical patterns, obtained by com...
The formation mechanism of a self-assembled monolayer (SAM) of octadecyltrimethoxysilane on a silico...
We demonstrate a use of self-assembled monolayer (SAM) as a template to deposit in-situ Si nanoparti...
We report on the fabrication of planar surfaces bearing nanoscale chemical patterns, obtained by com...
Chemical self-assembly has garnered tremendous interest as a tool for generating nanometer-scale str...
We show that a trimethylsilyl (TMS) self-assembled monolayer on a silicon surface is a self-developi...
Micrometer-scale monolayer patterns of a phosphorus-containing molecular precursor are fabricated on...
Cs atom beams, transversely collimated and cooled, passing through material masks in the form of arr...
Although a molecular monolayer is only a few nanometers thick it can completely change the propertie...
A general concept for parallel near-field photochemical and radiation-induced chemical processes for...
We report the use of metastable Ar(3P0,2) atoms and a physical mask to pattern octadecylsiloxane sel...
The design and characterization of an intense source of metastable Ar(3P0,2) atoms is described toge...
AbstractWe utilized a beam of helium atoms in a metastable excited state to expose an improved ultra...
By combining atom lithography and plasma etching technology in a two-step process, we demonstrate th...
This paper describes an innovative and simple technique for analyzing defects in silane-based self-a...
We report on the fabrication of planar surfaces bearing nanoscale chemical patterns, obtained by com...
The formation mechanism of a self-assembled monolayer (SAM) of octadecyltrimethoxysilane on a silico...
We demonstrate a use of self-assembled monolayer (SAM) as a template to deposit in-situ Si nanoparti...
We report on the fabrication of planar surfaces bearing nanoscale chemical patterns, obtained by com...
Chemical self-assembly has garnered tremendous interest as a tool for generating nanometer-scale str...
We show that a trimethylsilyl (TMS) self-assembled monolayer on a silicon surface is a self-developi...
Micrometer-scale monolayer patterns of a phosphorus-containing molecular precursor are fabricated on...
Cs atom beams, transversely collimated and cooled, passing through material masks in the form of arr...
Although a molecular monolayer is only a few nanometers thick it can completely change the propertie...
A general concept for parallel near-field photochemical and radiation-induced chemical processes for...