Pär Omling
Titel
Gästprofessor
Organisation
+46708229839
+46708229839
Par [dot] Omling [at] rektor [dot] lu [dot] se
Publikationer (hämtat ur Lunds universitets publikationsdatabas)
författare
- 2006
- 2005
- Actin-based molecular motors for cargo transportation in nanotechnology - Potentials and challenges
- Guiding molecular motors with nano-imprinted structures
- Guiding motor-propelled molecules with nanoscale precision through silanized bi-channel structures
- Nanoimprint lithography and life science applications
- Nanometer-scale two-terminal semiconductor memory operating at room temperature
- Preserved symmetries in nonlinear electric conduction
- 2004
- In vitro sliding of actin filaments labelled with single quantum dots
- Nanotechnology and actomyosin motility in vitro on different surface chemistries
- Novel nanoelectronic triodes and logic devices with TBJs
- Room-temperature nanoelectronic logic devices with ballistic junctions
- Symmetry of Two-Terminal Nonlinear Electric Conduction
- 2003
- Actomyosin motility on nanostructured surfaces
- Quantum behavior in nanoscale ballistic rectifiers and artificial materials
- Silanized surfaces for in vitro studies of actomyosin function and nanotechnology applications
- Surviving conduction symmetries in non-linear response
- Towards a 'nano-traffic' system powered by molecular motors
- Tunable nonlinear current-voltage characteristics of three-terminal ballistic nanojunctions
- Unidirectional electron flow in a nanometer-scale semiconductor channel: A self-switching device
- 2002
- A novel device principle for nanoelectronics
- A novel frequency-doubling device based on three-terminal ballistic junction
- A novel frequency-multiplication device based on three-terminal ballistic junction
- Quantum behavior as well as room-temperature and 50 GHz operations of novel nonlinear devices and nanomaterials
- Quantum ratchets and quantum heat pumps
- Resonant tunneling via donor X states in the AlAs barrier and binding energies of donors bound to X-XY and X-Z valleys
- Three-terminal ballistic junctions: new building blocks for functional devices in nanoelectronics
