Nanotechnology Research in
Showing results of 18 for research and community organizations in Maryland:
The research facility of the US Army.
The Center consists of a Research Program and the Nanofab, a shared-use facility providing economical access to state-of-the-art nanofabrication and nano-measurement tools.
Professor Bowen's research interests are centered around clusters and nanoparticles. A major objective of Dr. Bowen's research is to provide a molecule's eye view of many-body, condensed phase interactions. The study of size-specific and composition-specific clusters provides an incisive means of addressing this fundamental and longstanding problem in physical chemistry.
The Institute for Nanobiotechnology has been established at Hopkins to bring together expertise from the fields of nanotechnology, biotechnology, biology, medicine, and engineering to enable the creation of new knowledge and new technologies.
Johns Hopkins University - Nanotechnology Option for the Master of Materials Science and Engineering program
The School's Engineering Programs for Professionals offers the Nanotechnology Option with the Master of Materials Science and Engineering program. Within the option, students can pursue a concentration in nanomaterials or biotechnology.
Maryland NanoCenter has been established as a partnership among three University of Maryland colleges: The A. James Clark School of Engineering, the College of Computer, Math, and Physical Sciences (CMPS), and the College of Chemical and Life Sciences, with sustaining support from all three and the campus.
To meet the rapidly growing interest of students in nano, and to create the nano workforce of the future, Maryland NanoCenter offers an innovative undergraduate program, the Interdisciplinary Minor Program in Nanoscale Science and Technology, drawing faculty and courses from multiple departments of the A. James Clark School of Engineering, the College of Computer, Math, and Physical Sciences, and the College of Chemical and Life Sciences. The program is open to any student majoring in Engineering, Physics, or Chemistry.
JILA is an institute for interdisciplinary research and graduate education in the physical sciences, operated jointly by the National Institute of Standards and Technology and the University of Colorado at Boulder, and involving NIST Quantum Physics Division 848 researchers. These NIST scientists participate in a variety of nanotechnology activities, several of which are summarized here
The NCL serves as a national resource and knowledge base for all cancer researchers to facilitate the regulatory review of nanotechnologies intended for cancer therapies and diagnostics.
The NCI Alliance for Nanotechnology in Cancer is a comprehensive, systematized initiative encompassing the public and private sectors, designed to accelerate the application of the best capabilities of nanotechnology to cancer.
NIH participates in the National Nanotechnology Initiative and this page contains information on (1) currently active NIH and BECON research and training opportunities and (2) listings of funded grants for NIH and BECON program announcements related to nanotechnology and nanoscience.
The AML is designed to be the world's best measurement laboratory. NIST and its partners will be able to produce the measurements and standards needed to move key 21st-century technologies from the research horizon on to the factory floor.
The Mission of the Center for Nanomedicine and Cellular Delivery (CNCD) at the University of Maryland is to create a multidisciplinary research environment that will provide expertise and foster collaborations for the design, development and translation into clinic of nanosystems for therapeutic and diagnostic purposes.
The Center for Superconductivity Research has been merged with Condensed Matter Physics to create a new collaborative entity known as the Center for Nanophysics and Advanced Materials (CNAM). The CNAM is dedicated to advancing science and technology in the important areas of nanophysics and novel electronic materials.
The group seeks to understand how molecules and nanoparticles assemble spontaneously at the nano-micro scales. The work gives insights into the design and function of biomolecular structures. Moreover, they develop rules for the design of new types of fluids and materials that could be useful in consumer products, oil recovery, drug delivery and nanotechnology.