Add to ORKGLong nanotubes of fluid-lipid bilayers can be used to create templates for photochemical polymerization into solid-phase conduits and networks. Each nanotube is pulled from a micropipette-held feeder vesicle by mechanical retraction of the vesicle after molecular bonding to a rigid substrate. The caliber of the tube is controlled precisely in a range from 20 to 200 nanometers merely by setting the suction pressure in the micropipette. Branched conduits can be formed by coalescing separate nanotubes drawn serially from the feeder vesicle surface. Single nanotubes and nanotube junctions can be linked together between bonding sites on a surface to create a functionalized network. After assembly, the templates can be stabilized by photoinitiate...
A wide range of nano-objects are synthesized by combining template synthesis, using polycarbonate me...
We demonstrate here that nanotube-vesicle networks can be constructed directly from plasma membranes...
Nanotube-vesicle networks (NVNs) are simplified models of cell membrane tubular systems which are dy...
Long nanotubes of fluid-lipid bilayers can be used to create templates for photochemical polymerizat...
Long nanotubes of fluid-bilayers were used to create templates for photochemical polymerization into...
We describe a novel micropipet-assisted technique for the construction of complex, surface-immobiliz...
Methods for construction of geometrically complex, fully connected surface-immobilized microscopic n...
We present a micropipet-assisted writing technique for formation of two-dimensional networks of phos...
Networks of nanotubes and vesicles offer a platform for construction of nanofluidic devicesoperating...
We describe micromanipulation and microinjection procedures for the fabrication of soft-matter netwo...
We create long polymer nanotubes by directly pulling on the membrane of polymersomes using either op...
Surfactant lipids are an essential element of living cells. They are the basis for the biomembranes ...
Conducting polypyrrole-coated structures with lengths of several hundreds of micrometers and diamete...
We present a microelectrofusion method for construction of fluid-state lipid bilayer networks of hig...
Methods based on self-assembly and self-organization for construction of lipid bilayer networks, con...
A wide range of nano-objects are synthesized by combining template synthesis, using polycarbonate me...
We demonstrate here that nanotube-vesicle networks can be constructed directly from plasma membranes...
Nanotube-vesicle networks (NVNs) are simplified models of cell membrane tubular systems which are dy...
Long nanotubes of fluid-lipid bilayers can be used to create templates for photochemical polymerizat...
Long nanotubes of fluid-bilayers were used to create templates for photochemical polymerization into...
We describe a novel micropipet-assisted technique for the construction of complex, surface-immobiliz...
Methods for construction of geometrically complex, fully connected surface-immobilized microscopic n...
We present a micropipet-assisted writing technique for formation of two-dimensional networks of phos...
Networks of nanotubes and vesicles offer a platform for construction of nanofluidic devicesoperating...
We describe micromanipulation and microinjection procedures for the fabrication of soft-matter netwo...
We create long polymer nanotubes by directly pulling on the membrane of polymersomes using either op...
Surfactant lipids are an essential element of living cells. They are the basis for the biomembranes ...
Conducting polypyrrole-coated structures with lengths of several hundreds of micrometers and diamete...
We present a microelectrofusion method for construction of fluid-state lipid bilayer networks of hig...
Methods based on self-assembly and self-organization for construction of lipid bilayer networks, con...
A wide range of nano-objects are synthesized by combining template synthesis, using polycarbonate me...
We demonstrate here that nanotube-vesicle networks can be constructed directly from plasma membranes...
Nanotube-vesicle networks (NVNs) are simplified models of cell membrane tubular systems which are dy...