Nanotechnology Research Laboratories
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The convergence of multiple disciplines creates a synergy capable of overcoming persistent barriers and filling knowledge gaps to allow for transformational, revolutionary, and embryonic opportunities with many technological applications. The Institute's tools and research methodologies include in-depth analysis using convergence of multi/trans-disciplinary S&T fields, focused on nanotechnology, biotechnology, information technology, cognitive sciences, artificial intelligence, robotics, and genetics.
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.
NSF Nanosystems Engineering Research Center for Nanomanufacturing Systems for Mobile Computing and Mobile Energy Technologies (NASCENT)
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.
The Center for Nanophase Materials Sciences at Oak Ridge National Laboratory is a collaborative nanoscience user research facility for the synthesis, characterization, theory, modeling, simulation, and design of nanoscale materials. It is one of five Nanoscale Science Research Centers currently being established by the Office of Science, U.S. Department of Energy.
The Center for Nanophase Materials Sciences (CNMS) integrates nanoscale science with neutron science; synthesis science; and theory, modeling, and simulation. Operating as a national user facility, the CNMS supports a multidisciplinary environment for research to understand nanoscale materials and phenomena.
EMNLAB is a group within the physical electronics branch of Electrical Engineering at The Ohio State University. The group focuses on using a wide array of analysis, processing, and growth techniques to investigate the surface, interface, and ultrathin film properties of semiconductors.
A fundamental question to be addressed in the group's research is how we can learn from biological systems in nature, especially at the micro/nano-scale, in order to engineer biocompatible nanomaterials and further develop innovative robotic systems that are capable of interfacing with molecular and cellular systems for advanced therapeutics and tissue engineering applications, and for swimming efficiently in fluidic environment.
The goal of the center is to create devices that will make diagnosing, treating and managing diseases easier, less expensive and more effective.
The group's research is focused on the computational analysis of the flow, heat and mass transfer in micro and nano fluidic systerms. Current research projects include modeling of an implantable artifical kidney, DNA translocation in nanopores and fundamental issues associated with bio-sensing.
A major nanoprobe laboratory with a focus on bio/nanotechnology and biomimetics was organized in July 1991 with the initial financial support from the state of Ohio and The Ohio State University. More than 5700 square feet of laboratory space was made available for this purpose. The laboratory is populated with the modern scientific equipment needed to conduct state-of-the-art research.