The advanced characterization and measurement technologies responding to the material needs are indispensable for the innovation. The group is aiming at is state-of-the-art analytical technologies to clarify the comprehensive characteristics of materials.
The Quantum Dot Research Center is promoting research on these semiconductor nano structures and aiming at further development of basic nano technologies by advancing and fusing nano fabrication technologies which NIMS has been cultivating.
The National Institute for Nanotechnology is an integrated, multi-disciplinary institution involving researchers in physics, chemistry, engineering, biology, informatics, pharmacy and medicine. Established in 2001, it is operated as a partnership between the National Research Council and the University of Alberta, and is jointly funded by the Government of Canada, the Government of Alberta and the university.
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.
LOMIN specializes in synthesizing molecular imaging probes for positron emission tomography (PET), single-photon emission computed tomography (SPECT), magnetic resonance imaging (MRI), optical (bioluminescence, fluorescence and Raman), contrast enhanced ultrasound, photoacoustic imaging, as well as multimodality imaging. This research group aims to develop a molecular imaging toolbox for better understanding of biology, early diagnosis of disease, monitoring therapy response, and guiding drug discovery/development.
Nanotec's missions are to establish, support and promote the nanotechnological development of the country through research innovations, technology transfer, human resource development, and infrastructure.
The Carbon Nanoscience Group seeks to understand the chemical, physical, and optoelectronic properties of a variety of nanosystems and nanomaterials. The end goal is to develop and apply design principles to fabricate new molecules and materials for application in several important renewable energy technologies.
NREL's specialists in chemical science and nanoscience are helping to provide the nation with clean sources of energy by studying and developing novel and efficient ways to convert the energy in sunlight into chemical energy (such as hydrogen) and light-generated electricity. Their research focuses on the basic, fundamental science that underpins many aspects of renewable energy.
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 world's first government-sponsored organization dedicated to developing the biotechnology industry (including bionanotechnology). The center's mission is to provide long-term economic and societal benefits to North Carolina through support of biotechnology research, business and education statewide.
The mission of the Center, housed within the Rensselaer Nanotechnology Center (RNC), is to integrate research, education, and technology dissemination, and serve as a national resource for fundamental knowledge and applications, in directed assembly of nanostructures.
The center's mission is to create high throughput, reliable and versatile nanomanufacturing systems and associated processes through transformative research, education of leaders and global and industrial engagement that will revolutionize future generations of mobile computing and energy devices.