Nanotechnology Research - Universities
Showing results 291 - 300 of 550 of university labs in USA:
The research of the Dai Laboratory at Stanford interfaces with chemistry, physics, materials science and biophysics. Ongoing projects include developing new synthetic routes to ordered nanomaterial architectures; electrical, mechanical, electromechanical and electrochemical characterizations at the nanoscale; and probing the real-space structures and functions of biological molecules.
The group is interested in the theoretical and computational research of photonic crystals, micro-photonic and nano-photonic structures, as well as solid state devices.
A biophysics lab that investigates biological spatial organization on the mesoscale (10 nm - 10 microns) and the role of mechanical cues in cellular decision-making. Current research directions include tissue mechanobiology, the organization of the DNA inside the nucleus, and single-molecule measurements of transport through biological pores and channels.
The group's research is at the intersection of experimental condensed matter physics and nanoscale science and technology. Their efforts involve local probes, nanoassembly, collective phenomena, spin/charge manipulation, reduced-dimensional systems, and single quanta physics.
The Micro/Nano Systems and Technology Graduate Certificate offers a plan of study that focuses on the miniaturization technologies that have important roles in materials, mechanical, and biomedical engineering practice, in addition to being the foundation for information technology.
Single-molecule nanophotonics at Stanford University
The Molecular Imaging Program at Stanford (MIPS) was established as an inter-disciplinary program to bring together scientists and physicians who share a common interest in developing and using state-of-the-art imaging technology and developing molecular imaging assays for studying intact biological systems.
The Stanford Nanoelectronics Group was founded in September 2004 by Professor H.-S. Philip Wong. The group's research interests are in nanoscale science and technology, semiconductor technology, solid state devices, and electronic imaging.
The objective of this project is to develop optimized nanocomposite materials for high-density H2 reversible storage applications.
Research areas: nanophotonics, quantum optics, nonlinear optics, optoelectronics