Nanotechnology Research - Universities
Showing results 81 - 90 of 507 of university labs in USA:
COPE is a premier national research and educational resource center that creates flexible organic photonic and electronic materials and devices that serve the information technology, telecommunications, energy, and defense sectors. COPE creates the opportunity for disruptive technologies by developing new materials with emergent properties and by providing new paradigms for device design and fabrication.
Since 2001 and the invention of graphene electronics the Georgia Tech epitaxial graphene research team led by Walt de Heer and its collaborators are developing the new field of epitaxial graphene electronics.
Dr. Filler's research group works at the interface of chemical engineering and materials science, emphasizing the atomic-level engineering of nanoscale semiconductors for applications in energy conversion, electronics, and photonics.
The Institute for Electronics and Nanotechnology (IEN) at Georgia Tech was established as an Interdisciplinary Research Institute (IRI) with the goals of providing a central entry point and a central organization to enable interdisciplinary E&N related training, education, and research at Georgia Tech in partnership with outside entities.
The mission of the group is to advance the science and engineering of organic and hybrid nanostructured materials and enable technological innovations for applications in communications, sensing, displays, energy efficient solid-state lighting, and power generation.
The group's research focuses on nanostructured functional materials (NanoFM), including polymer-based nanocomposites, block copolymers, polymer blends, conjugated polymers, quantum dots (rods, tetrapods, wires), magnetic nanocrystals, metallic nanocrystals, semiconductor metal oxide nanocrystals, ferroelectric nanocrystals, multiferroic nanocrystals, upconversion nanocrystals, thermoelectric nancrystals, core/shell nanocrystals, hollow nanocrystals, Janus nanocrystals, nanopores, nanotubes, hierarchically structured and assembled materials, and semiconductor organic-inorganic nanohybrids. The goal of the research is to understand the fundamentals of these nanostructured materials.
The mission of Prof. Gleb Yushin's group is to develop innovative nanotechnology-driven solutions that would facilitate a cleaner environment, decreased energy consumption, safer and healthier lives for people around the globe, and other benefits to society. The group's current focus is directed towards the synthesis of innovative nanostructured materials for supercapacitors, fuel cells and batteries.
The Xia group is pursuing cutting-edge research in three major frontiers: nanotechnology, materials chemistry, and photonic devices. Recently, the group starts to move into cell biology by harnessing the power of nanomaterials to develop novel tools for studying complex biological systems.
Zhong L. Wang's research group at Georgia Institute of Technology focuses on the fundamental science in the physical and chemical processes in nanomaterials growth, unique properties of nanosystems, novel in-situ measurement techniques, and new applications of nano-scale objects.
Shiladitya Sengupta's laboratory is focused on developing engineering solutions for complex disease. The team's research lies at the interfaces of fundamental biology, medical applications and nanoscale engineering, where basic understanding of biology inspires the development of novel technology or medical applications.