Add to ORKGWe present a scalable process for the fabrication of slanted carbon nanotube micropillar arrays by inclined metal deposition and capillary self-assembly. Local control of the micropillar angle from vertical to nearly horizontal is achieved, and is explained using a finite element model. These structures may be useful for microscale contacts and anisotropic smart surfaces
The introduction of new materials and processes to microfabrication has, in large part, enabled many...
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78216/1/4384_ftp.pd
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
A new technology called capillary forming enables transformation of vertically aligned nanoscale fil...
Deterministic organization of nanostructures into microscale geometries is essential for the develop...
Capillary forming of carbon nanotubes (CNTs) enables the fabrication of unique 3D microstructures ov...
Capillary forming of carbon nanotubes (CNTs) enables the fabrication of unique 3D microstructures ov...
We report a mechanism by which nanoscale filaments self-assemble into asymmetric aggregates by elast...
State-of-the art microfabrication techniques enable new understanding of surface phenomena such as l...
Vertically aligned carbon nanotube (CNT) 'forest' microstructures fabricated by chemical vapor depos...
We demonstrate the fabrication of horizontally aligned carbon nanotube (HA-CNT) networks by spatiall...
We present a novel method for controlling the growth orientation of individual carbon nanotube (CNT)...
We present a novel method for controlling the growth orientation of individual carbon nanotube (CNT)...
Ordered arrays of carbon nanotubes in bent and straight states were prepared using "wet" deposition ...
The fabrication of ordered arrays of oriented and bent carbon nanotube on a patterned silicon surfac...
The introduction of new materials and processes to microfabrication has, in large part, enabled many...
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78216/1/4384_ftp.pd
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
A new technology called capillary forming enables transformation of vertically aligned nanoscale fil...
Deterministic organization of nanostructures into microscale geometries is essential for the develop...
Capillary forming of carbon nanotubes (CNTs) enables the fabrication of unique 3D microstructures ov...
Capillary forming of carbon nanotubes (CNTs) enables the fabrication of unique 3D microstructures ov...
We report a mechanism by which nanoscale filaments self-assemble into asymmetric aggregates by elast...
State-of-the art microfabrication techniques enable new understanding of surface phenomena such as l...
Vertically aligned carbon nanotube (CNT) 'forest' microstructures fabricated by chemical vapor depos...
We demonstrate the fabrication of horizontally aligned carbon nanotube (HA-CNT) networks by spatiall...
We present a novel method for controlling the growth orientation of individual carbon nanotube (CNT)...
We present a novel method for controlling the growth orientation of individual carbon nanotube (CNT)...
Ordered arrays of carbon nanotubes in bent and straight states were prepared using "wet" deposition ...
The fabrication of ordered arrays of oriented and bent carbon nanotube on a patterned silicon surfac...
The introduction of new materials and processes to microfabrication has, in large part, enabled many...
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78216/1/4384_ftp.pd
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...