CMU-RC is a not-for-profit organization established to facilitate innovative research and development opportunities between the university and high technology companies. CMU-RC is dedicated to establishing and operating a national center of excellence in the research fields of business intelligence and nanoscale sciences.
'Bringing intelligence into micro-nano-systems' - The focus of this research group is integration of adaptive and machine learning techniques with micro-systems to achieve ultra-low power and robust operation.
The MOE lab focuses on inorganic and organic excitonic materials for solar energy production and utilization. They look to exploit oriented, crystalline, nanostructured and excitonic films through organic-inorganic and organic-organic interactions while studying fundamental relationships between structure and photophysical properties.
The Graduate Certificate in Nanotechnology recognizes advanced study of scientific, technological, and engineering topics in nanotechnology, including aspects of 1) characterization; 2) micro- to nano-scale fabrication and control; and 3) devices, systems and integration. The certificate also requires study of the societal and ethical implications of emerging technologies.
The minor in Nanoscale Science and Engineering (Nanotechnology) is deliberately designed to introduce students to the basic issues and overall scope of this field, encourage students to pursue interdisciplinary coursework outside their major, develop an understanding of the importance of flexibility in terms of careers, research, and education, and be flexible to allow for participation by students in diverse majors.
Research in the Glotzer group focuses on understanding why and how ordered structures emerge in otherwise disordered soft materials and nanoscale systems -- and how to design and control novel, functional structures from nanoscale building blocks using unconventional methods. Our tools for discovery include molecular, mesoscale, and multiscale computer simulations.
The LNF is available, on a fee basis, for use by research groups from government, industry and universities. Equipment and processes are available for research on silicon integrated circuits, MEMS, III-V compound devices, organic devices and nanoimprint technology.
The group's research deals with nanostructures and nanostructured materials. They seek to expand the science of how to synthesize these materials and engineer their fundamental properties; to create new technology to realize the related chemical, mechanical, and thermal assembly processes; and to pioneer applications which harness the unique properties of nanostructures at small and large scales.
The MNF is one of the leading centers worldwide on micro electromechanical systems (MEMS) and microsystems. It provides facilities and processes for the integration of Si integrated circuits and MEMS with nanotechnology, with applications in biology, medical systems, chemistry, and environmental monitoring.
Ivan Avrutsky's group designs, fabricates, tests, and simulates optoelectronic devices employing waveguide gratings and nanostructured materials. They study physics of light interaction with such objects. Practical applications are mostly in the areas of optical communication and optical sensors.