As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnological devices. We report a new method for guiding microtubule shuttles on multi-walled carbon nanotube tracks, aligned by dielectrophoresis on a functionalized surface. In the absence of electric field and in fluid flow, alignment is maintained. The directed translocation of kinesin propelled microtubules has been investigated using fluorescence microscopy. To our knowledge, this is the first demonstration of microtubules gliding along carbon nanotubes
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
ABSTRACT: Biomolecular motor systems are attractive for future nanotechnological devices because the...
Biomolecular motor systems are attractive for future nanotechnological devices because they can repl...
Molecular motors, highly efficient biological nanomachines, hold the potential to be employed for a ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
As a complementary tool to nanofluidics, biomolecular-based transport is envisioned for nanotechnolo...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
Kinesin-driven microtubules have been focused on to serve as molecular transporters, called “molecul...
ABSTRACT: Biomolecular motor systems are attractive for future nanotechnological devices because the...
Biomolecular motor systems are attractive for future nanotechnological devices because they can repl...
Molecular motors, highly efficient biological nanomachines, hold the potential to be employed for a ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...
Recent developments in optical microscopy and nanometer tracking have facilitated our understanding ...