The following Technion academic units participate in this interdisciplinary program: Mechanical Engineering, Electrical Engineering, Chemical Engineering, Biotechnology and Food Engineering, Physics, Chemistry, Biology, Medicine, Materials Engineering and Bio-medical Engineering.
Technitex is a Centre of Excellence for Technical Textiles. The new promise of technical and performance textiles is an emerging generation of products combining the latest developments in advanced flexible materials with advances in computing and communications technology, biomaterials, nanotechnology and novel process technologies such as plasma treatment.
CTC manages and performs innovative R&D projects in the fields of Aerospace, Automotive, and Energy (Nuclear and Renewable), in addition to a technological line of Advanced Materials (which is working in different reasearch lines about nanomaterials: Polymeric nanocomposites and graphene synthesis), while incorporating environmental criteria to assess the impact on the environment.
TEKNIKER is a technological center set up as a private not-for-profit foundation to help the industrial sector to increase its innovative capacity by means of generating and applying technology and knowledge in order to be more competitive. Expertise includes nanoimprint lithography for fabric engineering, vapor-phase deposition coatings, and nanostructuring of coatings.
Tel Aviv University has launched the first interdisciplinary university research institute for nanoscience and nanotechnology in Israel, with a multimillion investment. Over 40 groups actively conduct leading research in electronics, physics, chemistry, biotech and medicine, developing more than 85 specific and interdisciplinary projects.
The main focus of the group is single-molecule genomics but they have activity also in development of new optical detection schemes and novel imaging techniques. They explore genomes utilizing tools and reagents from the realm of nano-technology. The team try learning new things about these systems by zooming in on individuals - single cells, single chromosomes and single molecules.
The mission of the Tennessee Nanotech Alliance (TNA) is to create a collaborative effort across the State of Tennessee to identify the emerging opportunities and address the challenges of nanotechnology.
Terasem Movement is a not-for-profit charity endowed for the purpose of educating the public on the practicality and necessity of greatly extending human life, consistent with diversity and unity, via geoethical nanotechnology and personal cyberconsciousness.
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 NanoTechnology Group Inc., a Texas non-profit corporation, operates as a Foundation to support the Global Consortium of members, which consistantly looks for solutions to facilitate and develop Global Nano Science Education as Virtual Classrooms online for student access as distance learning anywhere in the world.
NTI is a collaboration led by Ben Franklin Technology Partners of Southeastern Pennsylvania, Drexel University and The University of Pennsylvania. It is the first comprehensive model of its kind designed to facilitate the research, development and commercialization of nanotechnology's real world applications.
THREADMILL is a new Marie Curie Research Training Network (RTN) devoted to cross-disciplinary training and research at the interface between Supramolecular Chemistry, Electrical Engineering, Physics, and Nanoscience.
The center is supported by school of precision instrument and optoelectronics engineering, national key laboratory of precision measurement technology and instrument, research institute of micro and nano measurement and equipment and it mainly specialize in industrialized work like micro electromechanical system, Ultra-precision micro-nano processing as well as micro and nano measurement and equipment.
The Samukawa Lab conducts research on ways to generate charged particles (positive and negative ions, electrons) and neutral particles (atoms/molecules) and associated acceleration technologies (including beam technologies), as well as research on particle flow and the latest bio-nano processes.
MNTC encompasses all fields from molecular level mechanism analysis to medical application. Specifically, MNTC's research focuses on functional ultra-thin polymer films (films with thickness of under 100 nm). The cooperative medical, physics, and engineering organization utilizes the features unique to the 'structure of the plane' created when polymers are formed into ultra-thin films, and applies these to medical technologies.