Add to ORKGA new technology called capillary forming enables transformation of vertically aligned nanoscale filaments into complex three-dimensional microarchitectures. We demonstrate capillary forming of carbon nanotubes into diverse forms having intricate bends, twists, and multidirectional textures. In addition to their novel geometries, these structures have mechanical stiffness exceeding that of microfabrication polymers, and can be used as masters for replica moldin
We present a scalable process for the fabrication of slanted carbon nanotube micropillar arrays by i...
In this paper we describe the fabrication of threedimensional microstructures by means of capillary ...
We report a mechanism by which nanoscale filaments self-assemble into asymmetric aggregates by elast...
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...
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78216/1/4384_ftp.pd
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78233/1/4333_ftp.pd
The introduction of new materials and processes to microfabrication has, in large part, enabled many...
Scalable and cost effective patterning of polymer structures and their surface textures is essential...
Deterministic organization of nanostructures into microscale geometries is essential for the develop...
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
ABSTRACT: Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-di...
We demonstrate the fabrication of horizontally aligned carbon nanotube (HA-CNT) networks by spatiall...
The skins of many plants and animals have intricate microscale surface features that give rise to pr...
We present a scalable process for the fabrication of slanted carbon nanotube micropillar arrays by i...
In this paper we describe the fabrication of threedimensional microstructures by means of capillary ...
We report a mechanism by which nanoscale filaments self-assemble into asymmetric aggregates by elast...
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...
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78216/1/4384_ftp.pd
No AbstractPeer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/78233/1/4333_ftp.pd
The introduction of new materials and processes to microfabrication has, in large part, enabled many...
Scalable and cost effective patterning of polymer structures and their surface textures is essential...
Deterministic organization of nanostructures into microscale geometries is essential for the develop...
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-dimensional ...
ABSTRACT: Elastocapillary self-assembly is emerging as a versatile technique to manufacture three-di...
We demonstrate the fabrication of horizontally aligned carbon nanotube (HA-CNT) networks by spatiall...
The skins of many plants and animals have intricate microscale surface features that give rise to pr...
We present a scalable process for the fabrication of slanted carbon nanotube micropillar arrays by i...
In this paper we describe the fabrication of threedimensional microstructures by means of capillary ...
We report a mechanism by which nanoscale filaments self-assemble into asymmetric aggregates by elast...