Add to ORKGHighly ordered two-dimensional self-organized nanochannel networks as well as free-standing nanomembranes are produced on rigid substrates by means of III-V semiconductor compressively strained layers grown on top of an etchant-sensitive material. The releasing process is controlled by regularly spaced pits obtained from photolithography and a subsequent wet chemical etching. By tuning basic film parameters such as strain and thickness, one obtains periodic arrays of two-dimensional nanochannel networks with symmetries defined by the shape and periodicity of the photolithographic starting pits. Such nanochannel networks with a submicroscale lateral feature size exhibit a surprising flexibility with respect to the crystal lattice symmetry, r...
Large-scale highly ordered microchannels were spontaneously and rapidly created by simply drying the...
Self-assembled multilayers, composed of alternating layers of α,ω-mercaptoalkanoic acids and Cu2+ io...
We made uniform arrays of nanometer scale structures using nanoimprint lithography over large areas ...
Highly ordered two-dimensional self-organized nanochannel networks as well as free-standing nanomemb...
A theoretical study has been conducted to explore the mechanics of self-organizing channel networks ...
In this paper we theoretically analyze the mechanism of nanochannel formation by an evolutionary etc...
Buckling of thin films on a rigid substrate during use or fabrication is a well-known but unwanted p...
Buckling of thin films on a rigid substrate during use or fabrication is a well-known but unwanted p...
KEY WORDS self-assembly; STM; strained metallic interfaces; ultrathin films; misfit dislocation netw...
We propose a generic, simple, and parallel nanofabrication technique to obtain three-dimensional mul...
Self-ordering growth of nanoarrays on strained metallic interfaces is an attractive option for prepa...
A simple method for the fabrication of self-aligned nanogaps and fluidic nanochannels by using conve...
Two new methods have been developed to fabricate nanochannels by conventional micromachining. We suc...
International audienceSelf-ordering at crystal surfaces has been the subject of intense efforts duri...
Semiconductor nanomembranes are single-crystal sheets with thickness ranging from 5 to 500nm. They a...
Large-scale highly ordered microchannels were spontaneously and rapidly created by simply drying the...
Self-assembled multilayers, composed of alternating layers of α,ω-mercaptoalkanoic acids and Cu2+ io...
We made uniform arrays of nanometer scale structures using nanoimprint lithography over large areas ...
Highly ordered two-dimensional self-organized nanochannel networks as well as free-standing nanomemb...
A theoretical study has been conducted to explore the mechanics of self-organizing channel networks ...
In this paper we theoretically analyze the mechanism of nanochannel formation by an evolutionary etc...
Buckling of thin films on a rigid substrate during use or fabrication is a well-known but unwanted p...
Buckling of thin films on a rigid substrate during use or fabrication is a well-known but unwanted p...
KEY WORDS self-assembly; STM; strained metallic interfaces; ultrathin films; misfit dislocation netw...
We propose a generic, simple, and parallel nanofabrication technique to obtain three-dimensional mul...
Self-ordering growth of nanoarrays on strained metallic interfaces is an attractive option for prepa...
A simple method for the fabrication of self-aligned nanogaps and fluidic nanochannels by using conve...
Two new methods have been developed to fabricate nanochannels by conventional micromachining. We suc...
International audienceSelf-ordering at crystal surfaces has been the subject of intense efforts duri...
Semiconductor nanomembranes are single-crystal sheets with thickness ranging from 5 to 500nm. They a...
Large-scale highly ordered microchannels were spontaneously and rapidly created by simply drying the...
Self-assembled multilayers, composed of alternating layers of α,ω-mercaptoalkanoic acids and Cu2+ io...
We made uniform arrays of nanometer scale structures using nanoimprint lithography over large areas ...