The Institute for Nanotechnology was established as an umbrella organization for the multimillion dollar nanotechnology research efforts at Northwestern University. The role of the Institute is to support meaningful efforts in nanotechnology, house state-of-the-art nanomaterials characterization facilities, and nucleate individual and group efforts aimed at addressing and solving key problems in nanotechnology.
The MEMS and Nanomechanics group is focused on characterizing mechanical behavior and properties of materials at small scale, biomaterials and artificial bio-inspired materials, materials at high strain rates, and on developing the expertise and tools to address micro and nanoscale fabrication and testing.
The research of the Mirkin Research Group at Northwestern focuses on developing methods for controlling the architecture of molecules and materials on the 1-100 nm length scale, and utilizing such structures in the development of analytical tools that can be used in the areas of chemical and biological sensing, lithography, catalysis, and optics.
The group's vision is to develop innovative technologies that harness biomolecular activity perfected by nature towards applications in cellular interrogation, bio-energetic/functional materials development, and next-generation medicine.
The Nanoscale Science and Engineering Center (NSEC) for Integrated Nanopatterning and Detection Technologies is driven by a vision to develop innovative biological and chemical detection systems capable of revolutionizing a variety of fields.
The goal of the Seideman groups work at Northwestern is to understand, control and utilize molecular dynamics in different environments. To that end we develop and apply quantum mechanical, semiclassical and classical methods in both time and energy domains.
The 5-year programme is supported on a solid foundation of courses within physics, chemistry and mathematics. These are combined with courses in electronics and materials science that are oriented towards technology to give a good grounding for further studies in nanotechnology. The programme provides the theoretical basis and knowledge of experimental methods and technological applications of nanotechnology. The social implications of nanotechnology pertaining to ethical and environmental issues are also addressed. The first two years are common for all students in the programme. In the last three years, students choose their main profile from key areas relating to research, business and industry.
The aim of NTNU NanoLab is to establish a cross-disciplinary research environment for researchers within the fields of physics, chemistry, biology, electrical engineering, materials technology and medical research.
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.
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.