The group is interested in developing new molecular and nanoscale approaches to both understanding chemical and physical properties of materials (inorganic, organic and biological) as well as to the production and assembly of new materials and devices exhibiting interesting phenomena and useful applications. Their research emphasizes the role of intermolecular forces in chemistry, as the basis for both molecular recognition and molecular assembly.
The group of Dan Oron is concerned with nonlinear optical properties of plasmonic nanostructures, dynamics of multiply excited multicomponent semiconductor quantum dots, development of far-field sub-diffraction-limited imaging techniques, and nanoparticle-based nonlinear microscopy techniques.
The group studies nanostructured magnetic materials, striving to understand their fundamental properties, as well as potential applications such as MRI contrast agents, drug delivery and hyperthermia for cancer treatment.
Nanoscale science is an interdisciplinary endeavor and at WVU the physics department is an integral part of the WVNano Initiative. In the department we have research programs on nanoscale magnetic and spin devices, nanophotonic materials, novel quantum phenomena of films and interfaces, energy and bionanotechnology.
The acquisition of the Large Chamber Scanning Electron Microscope (LC-SEM) has positioned WKU as the only university in North America with an instrument of this type. As envisioned, the NOVA Center will be a national focal point for nondestructive measurements and is crosscutting in the five priority research areas of the Commonwealth's New Economy Strategy. In particular, Materials and Advanced Manufacturing will be significantly impacted as a result of the Centers founding.
In BEI's seven multidisciplinary centers, scientists, engineers, and clinicians address important research challenges in several major areas of medical technology and healthcare, including bioprocessing, imaging, nanotechnology, remote diagnostics and treatment, sensing, and water quality.
Current research and education carried out in this laboratory focus upon the experimental and conceptual study of nanoscaled materials fabricated by Non-lithography process assisted with anodized aluminum oxide (AAO) template.
Elimelech's group at Yale focuses on problems involving physiochemical and biophysical processes in engineered and natural environmental systems. The lab's work is at the interface of several disciplines, including colloid/surface science, molecular biology, nanotechnology, and separation science.
This research group studies condensed matter systems, often in the solid state, using first principles or ab initio methods. Topics include properties of nanostructures, especially nanowires and nanotubes.
The Mark A. Reed Group at Yale University focuses on research in semiconductor nanowires and devices, quantum electron devices, transport phenomena in semiconductor heterojunction and nanostructured systems, reduced dimensionality effects, resonant tunneling transistors and circuits, novel heterojunction devices, molecular electronics, MEMS, bioMEMS, and nanotechnology.
Quantronics Laboratory (Qlab) explores the world of mesoscopic electronics. Using superconducting electrical circuits and microwave measurement techniques, the group coaxes typically classical degrees of freedom like currents and voltages into quantum mechanical behavior. The present focus is on applications to Quantum Computation.
The research of the lab interfaces with condensed matter physics, materials science, and biophysics. Current research projects involve the development of synthesis and crystal growth of novel carbon materials such as carbon nanotubes and fullerenes.
(site in German) Im Fokus der Fachgruppe Funktionelle Materialien und Nanotechnologie liegen die Modifizierung und Analytik von Oberflächen sowie die Entwicklung von Anwendungen im Bereich der Chemie und Biologie: Funktions- und Biomaterialien; Nanotechnik; Oberflächenanalytik; Filtrationsmethoden in der industriellen Chemie.