S3IP coalesces some of Binghamton University’s vast resources, including the Integrated Electronics Engineering Center (IEEC), a NYS Center of Advanced Technology, internationally renowned for its leading edge research in electronics packaging; the Center for Advanced Microelectronics Manufacturing (CAMM), a national roll-to-roll (R2R) manufacturing R&D center; the Center for Advanced Sensors and Environmental Systems (CASE), an interdisciplinary center focused on sensors, sensor systems and environmental technologies; and the Institute for Materials Research (IMR); a center focused on research on new materials and new synthetic approaches to materials and their characterization. In addition, the Cornell Center for Materials Research is collaborating on research on fundamentals of materials and device technologies.
The CAMM is a national roll-to-roll manufacturing research and development center, established in 2005, when the United States Display Consortium selected Binghamton University, a global leader in electronics packaging and small scale systems integration, to spearhead development of next generation roll-to-roll (R2R) electronics manufacturing capabilities. A unique collaborative effort, the CAMM brings together partners from government, industry and academia to tackle the myriad challenges of this emergent technology. The CAMM’s goals are to: map emerging flexible electronic technologies; validate the design of flexible electronic manufacturing capabilities; develop essential process technologies and manufacturing know-how; and demonstrate specific technologies and products through test-bed projects and low-volume device manufacturing. For further information, http://camm.binghamton.edu
The IEEC is a New York State Center for Advanced Technology, in its second decade, supplying electronics packaging research to industry across New York State, the nation, and the world. For further information, go to http://www.ieec.binghamton.edu/ieec
CASE brings together a broad multidisciplinary team with a diverse set of skills in sensors, sensor systems and environmental technologies. Developing today's sensors for biomedical, security and environmental applications requires multidisciplinary approach. In last two decades, advances in materials science, bioelectronics, biotechnology and engineering have remarkably influenced the design of analytical sensors and biosensors devices. Recent progress in sensor technologies involves interdisciplinary studies that include physics, chemistry biology, biochemistry, material science, nanotechnology, and computer science. Due to the need for faster, cheaper and easier-to-use methods, biochemical sensors have emerged as a dynamic technique for qualitative and quantitative determination of different analyses that are important to many areas of environmental, clinical, agricultural, food or military investigations. For further information, go to: http://chemistry.binghamton.edu/CASE/
IMR brings together a multidisciplinary team from Binghamton University departments of Physics, Chemistry, Geology and the Watson School of Engineering to explore basic research on the fundamentals of materials. http://imr.chem.binghamton.edu/