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 STS Initiative's Nanoscience and Society Research Group at the University of Massachusetts Amherst brings together faculty from five research centers and seven degree-granting departments and programs within SBS engaged with several dimensions of the societal implications of nanotechnology.
The SMA programme in AMM&NS provides a unique and innovative educational opportunity for graduate students interested in careers in industry and research. Through a combination of cutting-edge research and a sound understanding of the principles of materials, graduates are poised to accept high-level positions as leaders in development of electronic, electromechanical, magnetic, photonic, and biomedical devices and systems, especially those based on integrated systems of micro- and nano-scale devices.
MIT's Center for Bits and Atoms is an ambitious interdisciplinary initiative that is looking beyond the end of the Digital Revolution to ask how a functional description of a system can be embodied in, and abstracted from, a physical form.
The UMass Amherst's Center for Fueling the Future carries out research that addresses several fundamental aspects of proton transport, the molecular level process that underlies the functioning of a central component of fuel cells. The Center focuses on the chemistry of proton conduction via site-to-site jumps on well-defined scaffolds. An important application of this research is the design of better membranes for fuel cells.
MassNanoTech, the research institute for nanotechnology at the University of Massachusetts Amherst, coordinates research on nanoscale materials, devices and systems, collaborates with industry, advances nanotechnology commercialization, educates students, and fosters outreach activities.
The research of Rotello's group at the University of Massachusetts focuses on the area of supramolecular chemistry: the study and application of non-covalent interactions. These interactions include hydrogen bonding, aromatic stacking and other electrostatic attractions and repulsions. We are currently employing these concepts of molecular recognition to explore a wide range of important questions in areas of biology to materials chemistry.
CHN focuses on generating knowledge and innovations in the area of template-directed assembly at high-rate, high yield nanomanufacturing. CHN represents a unique center structure, with three universities -- UMass Lowell, Northeastern University, and University of New Hampshire -- forming an equal partnership.
Mission: To lead the research effort in high throughput, environmentally-friendly processing of polymeric materials, devices, and structures and integration of other materials and devices with polymers with nanoscale control; To serve as a focal point and resource for transfer of nanoscience and nanotechnology to industrial application; To facilitate educational and outreach efforts related to nanotechnology and specifically nanomanufacturing.