Nanotechnology Research – Universities
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Cluster Research Group in the department of physics at the University of Hawaii
The group of Christoph Cremer focuses on the biophysics/analysis of the nuclear nanostructure, mainly of mamalian cell nuclei. For this, a combination of biocomputing simulations and experimental approaches is used.
The primary goal of INE is to develop breakthrough technologies in energy storage and generation (solar and wind) by developing organic based nano-photonic, nano-phononic and nanomechanical composites that are manufactured by means of sophisticated material control mechanisms. This is achieved through the use of a variety of techniques including electron and optical microscopy, spectroscopy, nanofabrication and self-assembly. The ability to design, assemble and engineer nanostructures will rely predominately on understanding and controlling the interactions between the nanostructures.
A dedicated laboratory offers nanotechnology services.
The programme provides opportunities for students to develop and demonstrate knowledge, understanding, skills, qualities and other attributes in chemistry with a nanotechnology focus.
Theoretical and Computational Biophysics Group center on the structure and function of supramolecular systems in the living cell, and on the development of new algorithms and efficient computing tools for structural biology.
The group is focused on the study of energy transfer in semiconductor nanocrystals (NCs). They are interested in (1) constructing novel semiconductor nanocrystal material systems to engineer energy transfer processes, (2) developing imaging agents based on their NC constructs and (3) bandgap engineering of multilayered nanocrystalline materials.
University of Illinois at Urbana-Champaign - Beckman Institute for Advanced Science and Technology (USA)
The general goal of the Molecular & Electronic Nanostructures (M&ENS) Research Initiative at the Beckman Institute is to develop a fundamental understanding of chemical and physical processes involving structures on the nanometer scale.
University of Illinois at Urbana-Champaign - Center for Nanoscale Science and Technology (CNST) (USA)
CNST envisions seamless integration of the research from materials to devices to systems and applications
The FS-MRL brings together world-class faculty and students in condensed matter physics, materials chemistry, and materials science in a highly collaborative research environment.
Granick's research group at the University of Illinois conducts multi-disciplinary research on fundamental materials processes. They specialize in the field of soft materials.
The Lu group's research interests, at the University of Illinois at Urbana-Champaign, are right at the interface between chemistry and biology.
Integrative Bio-Nano-Info Technology Innovation for Transformative Applications.
The lab is one of the nation's largest and most sophisticated university-based facilities for semiconductor, nanotechnology, and biotechnology research.
The group of Prof William King designs, fabricates, and uses tools for thermal and thermomechanical processing at micrometer and nanometer length scales. Their research involves the use of atomic force microscopy (AFM) and nanoimprint lithography for thermal and thermomechanical modification of surfaces.
University of Illinois at Urbana-Champaign - Theoretical and Computational Research at the Interface of Physics, Biology, and Nanotechnology (USA)
The group is pioneering CAD for nanoscale machines made using DNA nanotechnology.
The Nanoscience and Nanotechnology Institute at The University of Iowa focuses on issues related to applications and implications of nanoscience and nanotechnology in environmental processes and human health, as well as the fundamental properties of nanomaterials.
Multidisciplinary research in nanoscience with state-of-the-art laboratories and clean room environment.
Nano-biotechnology is to a considerable degree an interdisciplinary science: It combines physical laws, chemical procedures and biological principles on the nano-scale. That is exactly the goal of the ZFUW with this two-semester online programme. This unique offer in Germany combines the most modern educational devices and makes it possible to acquire high-level scientific knowledge.
The target group of this program is first and foremost professionals who are already working in industry, research institutes, universities and clinics, both nationally as well as abroad. The requirement for being admitted to this 3-year master program is a completed undergraduate course of studies in either engineering, science or medicine, taken at a university or polytechnic / university of applied science. Relevant working experience of at least one year has to be proven when applying for admission.
The REN group works on the forefront of Material Nanochemistry and Nanotechnology, including chemical design, synthesis and self-assembly of low-dimensional nanomaterials based on the bottom-up paradigm, with an emphasis on novel photonic, electronic, magnetic and excitonic properties for applications in efficient solar energy harvesting and magnetic energy storage.
The CFN (Center for Functional Nanostructures), located at the University of Karlsruhe (TH) and the Forschungszentrum Karlsruhe GmbH (Research Center Karlsruhe), is an interdisciplinary research center dedicated to fundamental and applied research in some of the most fascinating fields in nanotechnology.
Zum Wintersemester 2009/10 startet der Studiengang Bachelor of Science Nanostrukturwissenschaften.
University of Kassel - Center for Interdisciplinary Nanostructure Science and Technology CiNSaT (Germany)
One of CINSaT's main characteristics is the broad interdisciplinary scope, participating disciplines ranging from physics, chemistry, biology and philosophy to mechanical, civil, and electrical engineering, including the Institute of Nanostructure Technology and Analytics (INA). Research of the center is accompanied by an interdisciplinary diploma course of studies Nanostructure and Molecular Science.
Within the Institute, a modern cleanroom up to class 1 exists, enabling the application of various modern nanostructure technologies, for example molecular beam epitaxy (MBE), ion beam deposition (IBD). Different other deposition technologies and etching processes in combination with optical and electron beam lithogrophy provide a key feature for the development of optoelectronic devices and nanosystem applications.