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.
This EU FP6 project focuses on an innovative bottom-up approach to fabrication and integration of nanoelectronic devices, based on self-assembling semiconductor nanowires. The primary target is to deliver replacement and add-on technologies to silicon CMOS, such as FET devices for logics and III-V bipolar transistors for RF applications.
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 NC Center of Innovation for Nanobiotechnology (COIN) is a non-profit organization with the goal of increasing commercialization of nanobiotechnologies in North Carolina. COIN's goal is to create synergy among existing statewide resources and bridge any gaps that are potential barriers to growth. This will bolster state-wide nanobiotech infrastructure and economic growth, delivering quality of life benefits to mankind.
The Center for Advanced Materials and Smart Structures seeks to create cross-disciplinary infrastructure that transcends departmental, institutional, industrial and governmental barriers and lends itself to the integration of research and education in the vital field of smart and advanced materials. Research includes nanophysics, nanochemistry, nanocomposites
The degree program will hold classes on campus, but will also be the first master's degree program in nanoengineering that is offered via online distance education - making the program available to students who are already in the workforce. The program will also offer concentrations in biomedical science in nanoengineering, materials science in nanoengineering, and nanoelectronics and nanophotonics.
The Nanoscience Technology program is a collaborative effort between North Dakota State College of Science and Minnesota State Community and Technical College-Moorhead. Students may enroll and earn a degree through either college.
Located at North Dakota State University, Fargo, in the NDSU Research & Technology Park, CNSE has grown from five to approximately 65 scientists, engineers and support staff since its founding in 2002. More than 80 NDSU students and faculty work with these professionals on research with federal and state agencies, companies, universities and government laboratories. We currently expend about $18 million annually on our research and development programs.
The Materials and Nanotechnology Program at North Dakota State University is an interdisciplinary Graduate Program spanning several Colleges and Centers, but sustained primarily by the College of Science and Mathematics, the College of Engineering and Architecture, and the Center for Nanoscale Science and Engineering. Both PhD and Masterís degrees are offered.
Cross disciplinary in nature, the AAS-T degree combines elements of materials science, chemistry, biology and physics, electronics and engineering. Students will be exposed to clean room procedures including an understanding and maintenance of nano/micro fabrication and characterization equipment.
The George J. Kostas Nanoscale Technology and Manufacturing Research Center is the primary facility for micro and nanofabrication at Northeastern University. The Kostas facility also serves as the main facility for the new NSF Nanoscale Science and Engineering Center for High-rate Nanomanufacturing (CHN) at Northeastern University, in partnership with the University of Massachusetts Lowell, and the University of New Hampshire.
IGERT Nanomedicine Science and Technology program at Northeastern University is a new integrated doctoral education program in the emerging field of Nanomedicine, created with support from the National Cancer Institute and the National Science Foundation.
Research in Prof. Matteo Rinaldi's lab deals with nicro/nano electromechanical systems (MEMS/NEMS) devices; micro and nano fabrication; MEMS/NEMS sensors for physical, chemical and biological detection; radio frequency (RF) MEMS/NEMS devices and systems; integration of MEMS/NEMS devices with electronics; piezoelectric materials; MEMS/NEMS metamaterials; nanomaterials and nanostructures.
The Northern California Nanotechnology Initiative, NCnano, is an economic development initiative focused on developing the nanotechnology and the nano-bio-IT convergence technology economy of Northern California.
The Level One Certificate in Nanobiotechnology will prepare students to work on the interface between nanotechnology and biotechnology that involves synthesis and fabrication of materials and devices, surface and molecular engineering. The students will complete16 credits in materials and nanotechnology courses and will complete 7 credits specializing in Biotechnology as it applies to nanotechnology.
The Advanced Technical Certificate is designed for the student who wishes to transition into the Nanotechnology field from a traditional science education background. To be admitted to the Advanced Technical Certificate, the student must hold an Associate or Baccalaureate degree with a concentration in a Physical or Natural Science discipline of either Physics, Chemistry, Biology or Engineering. A minimum of 8 credits in Physics coursework including laboratory training is required. The Certificate will prepare students to transition into careers in emerging nanotechnology industries as nanotechnicians in research and development corporations, fabrication, biology/agriculture, medicine, electronics, and material science.
NUANCE Center integrates three existing complementary instrumentation facilities at NU: EPIC, NIFTI, and Keck-II under a unified management umbrella, and consolidated into contiguous space. These three facilities are a unique, centralized, resource for the NU community and beyond.
The area of concentration in nanoscale physics prepares students to investigate structures and systems at the interface of classical and quantum physics at nanometer length scales. It provides a hands-on, inter-disciplinary introduction to the cutting-edge science and technologies associated with exploring nanoscale phenomena. This area of concentration is especially well-suited for physics majors with inter-disciplinary career interests in biology, chemistry, and/or engineering.
The Bio-inspired Sensors and Optoelectronics Lab (BISOL) has a general goal of producing novel photonics and optoelectronic devices inspired by nature. Current research is focused on infrared detectors and vision systems, nano-scale lasers, visible to terahertz plasmonics, and novel nano-processing.