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| Arizona State University | Arizona State University Materials Research Science and Engineering Center (MRSEC) - Research in exploratory synthesis of new materials including materials prepared at high pressure, low density porous solids, new amorphous materials and in studies ofthe epitaxial growth of thin film group III nitrides [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Center for Engineering Science Advanced Research (CESAR) | Conducts fundamental theoretical, experimental, and computational research in intelligent systems [Department of Energy (DOE), Oak Ridge National Laboratory (ORNL)] | 0 |
| Center for Lasers and Plasmas for Advanced Manufacturing (LAMPMC) | Developing a science, engineering, and technology base for laser and plasma processing of materials, devices, and systems [National Science Foundation (NSF), Industry/University Cooperative Research Centers (IUCRC)] | 0 |
| Center for Nanoscopic Materials Design | Defines broad new directions in the nanoscale design and control of self-assembled epitaxial semiconductor quantum dots [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Center for X-Ray Optics (CXRO) | Demonstrates the scientific capabilities and usefulness of the x-rayand extreme ultraviolet regions of the spectrum and developing equipment and techniques to make these capabilities available [Department of Energy (DOE), Lawrence Berkeley National Laboratory (LBNL)] | 0 |
| Chemical Science and Technology Laboratory (CSTL) | Resource for chemical, biomolecular, and chemical engineering measurements, data, models, and reference standards [Department of Commerce (DOC), National Institutes of Standards and Technology (NIST)] | 0 |
| Collective Phenomena in Restricted Geometries (CPRG) | Research on the collective dynamics of photons, fluids, and electrons within ordered nanostructured matter [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Cornell Center for Materials Research (CCMR) | [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Ecole Polytechnique Federale de Lausanne | Nanomechanics: Spectroscopy and Imaging | 0 |
| ESONN | Courses cover the fundamentals of selected fields that were chosen as being important aspects of Nanosciences and Nanotechnologies in Physics, Biology or Chemistry. The session A is oriented towards nanoelectronics as all fields (magnetism, optics, mechanics…) could not be covered in 7 days. | 0 |
| Ferroelectric Liquid Crystal Materials Research Center (FLC MRC) | A principal center covering basic LC science to the development of materials and devices with enhanced capabilities for electro-optic, nonlinear optic, and other novel applications[National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Harvard University Materials Research Science and Engineering Center (MRSEC) | Research focuses on micromechanical systems, engineering interfaces between synthetic and biological systems, and electronic microsystems [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Hungarian Academy of Sciences Research, Institute for Materials Science | The Research Institute for Materials Science - ATKI was founded in 1992 as an institution of the research network of the Hungarian Academy of Sciences. ATKI is one of the successor institutes of the Central Research Institute for Physics - KFKI, once the largest research establishment of Hungary with a staff of 2200. KFKI, founded in 1950 at the Csillebérc campus site in Budapest, now houses six independent research institutes of the Academy and a number of private enterprises active in R&D. The unique scientific infrastructure of the campus, the accessibility of a variety of special analytical and technical methods, including semiconductor processing, nuclear and ion beam techniques, skills and services, as well as the availability of specialists for consultations, offer a fertile environment for research. | 0 |
| Idaho National Laboratory | Conducts applied research to develop measurement systems, often with emphasis on hardened, noncontact sensors for field measurements, industrial process control, or insitu use [Department of Energy (DOE), Idaho National Engineering and Environmental laboratory (INEEL)] | 0 |
| Institute of Semiconductor Electronics II, Aachen, Germany | The Semiconductor Technology research is hosted in modern clean room facilities over 350 m² with 6" CMOS compatible equipment. In the area of nanolithography, research on Interference Lithography is carried out for high throughput and highly periodic structures. Electron-Beam lithography, down to sub 10 nm features, is the chosen method for direct writing and master fabrication for Nanoimprint, which itself is a promising low-cost replication technology for arbitrary structures at the e-beam resolution limit. Basic research in these fields is underway to improve all methods in terms of resolution, precision and reliability. | 0 |
| Johns Hopkins University Materials Research Science and Engineering Center (MRSEC) | Focuses on nanostructures made from novel materials that exhibit enhanced magneto-electronic properties [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Laboratory for Molecular Robotics | The Laboratory for Molecular Robotics (LMR) was founded in 1994 with the primary goal of studying manipulation of molecular-sized components with Scanning Probe Microscopes (SPMs). As we became increasingly proficient at nanomanipulation, our goals were broadened to include most of the emerging area of nanorobotics, which encompasses: | 0 |
| Loyola College in Maryland | This site was sponsored by a grant from the National Science Foundation from 1999 until 2002. This site is no longer being maintained. | 0 |
| Massachusetts Institute of Technology Center for Materials Science and Engineering | Research covers microphotonic materials, nanostructured polymers, electronic transport in mesoscopic semiconductors, microstructure and mechanical performance of polymeric materials, and doped mott insulators [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Master Nanotech | International Master's Degree in Micro and Nano Technologies for integrated systems | 0 |
| Materials Process and Sciences Center | Research encompass work on polymers, ceramics, metals, and advanced analytical techniques, and span the range from the atomic level to the macroscale [Department of Energy (DOE), Sandia National Laboratories] | 0 |
| Materials Research Science and Engineering Center on Nanostructured Materials and Interfaces | Carries out research in the formation, characterization, and exploitation of materials at the nanoscale - the scale of individual atoms [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Materials Research Science and Engineering Centers (MRSEC) | Investigating how nanoparticles can be combined to form useful films [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Michigan State University | The NanoTube Site | 0 |
| MIGAS | MIGAS, International summer school on advanced microelectronics
"Emerging silicon devices for the end of the roadmap" | 0 |
| Nano Science, Engineering, and Technology (NSET) | Fundamental sciences work in soft materials interfaces; synthesis and characterization; nanoscale biological processes; and theory, modeling and simulation [Department of Energy (DOE), Pacific Northwest National Laboratory (PNNL)] | 0 |
| Nanobiotechnology Center (NBTC) | Applies the tools and processes of nano-microfabrication to build devices for studying biosystems [National Science Foundation (NSF), Science and Technology Centers (STC)] | 0 |
| Nanoscale Science Research Group | We are a conglomoration of various groups studying nanoscale science primarily associated with the University of North Carolina at Chapel Hill. To the left you'll find a list of the various Research Topics associated with our group, as well as a number of Project Groups either a part of or associated with NSRG. | 0 |
| Nanoscience & Nanotechnology at Sandia National Laboratories | Expertise in nanochemistry, nanomechanics, nanooptics, and self-assembled monolayers [Department of Energy (DOE), Sandia National Laboratories] | 0 |
| Nanotechnology Programs at NIST | Nanotechnology is the new frontier of science and engineering. [Department of Commerce (DOC), National Institutes of Standards and Technology (NIST)] | 0 |
| National Nanotechnology Initiative (NNI) | Links to information about research, centers, meetings, industry, publications, conferences, professional societies, and courses [National Science Foundation (NSF)] | 0 |
| Near Field Optics for Nanotechnology | The goal of this network is the improvement of ultra high resolution optical microscopy. One of possibility to extend the resolution of optical microscopes is to use point by point imaging by an ultra small light source or detector. Near field optical microscopes based on this principle have been operated with super resolution. Although this tool is routinely used in laboratories and although many types of technologically important experiments have been carried out it is generally recognised that additional technological advances and conceptual improvements are needed. It is desirable to train researchers at universities (who will be the future development leaders in companies) and in industrial laboratories to be able to exploit to the fullest the capabilities of those microscopes and to be able to assess the information contained in the images. | 0 |
| North Carolina Center for Nanoscale Materials | North Carolina Center for Nanoscale Materials | 0 |
| Physical and Chemical Sciences Center | Expertise in nanoscale structures and devices, the science base for predictive materials performance and reliability, advanced sensing science, and the science of semiconductor technologies [Department of Energy (DOE), Sandia National Laboratories] | 0 |
| Physics Laboratory | Providing measurement services and research for electronic, optical and radiation technology [Department of Commerce (DOC), National Institutes of Standards and Technology (NIST)] | 0 |
| Princeton Center for Complex Materials (PCCM) | Studies unusual phases and excitations in low-dimensional electronic materials, organic thin films and quantum structures, amphiphilic polymers-functional materials through self assembly, and bioinspired composites [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| Princeton University | The Princeton Nanostructures Laboratory in the Department of Electrical Engineering | 0 |
| Pulse Radiolysis Facility | An 8 MeV linear electron accelerator is the experimental centerpiece of a radiation chemistry user facility [Department of Energy (DOE); Notre Dame Radiation Laboratory (NDRL)] | 0 |
| Purdue University | The nanophysics lab uses innovative experimental techniques to examine the physical properties of objects in the nanoscale size range, that is, a bit larger than the size of individual atoms. Some interesting physical properties that we measure include the electronic conductivity of small numbers of atoms and molecules, the forces arising between nanoscale objects, and the transition between the quantum behavior exhibited by a few atoms and the bulk properties of a large number of atoms. | 0 |
| Rice University | The Center for Nanoscale Science and Technology at Rice University is devoted to nurturing science and technology at the nanometer scale. | 0 |
| San Diego Supercomputer Center (SDSC) | The San Diego Supercomputer Center (SDSC) -- a campus research unit of the University of California, San Diego -- is the focus of computational activities for the National Partnership for Advanced Computational Infrastructure (NPACI). In operation since 1986, SDSC has provided the national research community with access to the highest-performance computers available; conducted applications and technology research/development projects; trained researchers, educators, and students; and facilitated technology transfer to industry and government. Within NPACI, SDSC will broaden its focus to include partnership with 37 other academic and research institutions. This partnership will develop the nation's next-generation computational infrastructure by
implementing | 0 |
| Swiss Federal Institute of Technology Institute of Robotics | The Institute of Robotics and Intelligent Systems pursues a dynamic research program that maintains a strong robotics research focus on several emerging areas of science and technology. A major component of IRIS research leverages advanced robotics for creating intelligent machines that operate at micron and nanometer scales. IRIS research develops the tools and processes required to fabricate and assemble micron sized robots and nanometer scale robotic components. Many of these systems are used for robotic exploration within biological domains, such as in the investigation of molecular structures, cellular systems, and complex organism behavior, an emerging field the institute refers to as BioMicroRobotics. | 0 |
| Technical University of Gdansk, Department of Chemistry | Publishes TASK Quarterly-with a volume dedicated to Computational Nanotechnology. | 0 |
| The Beckman Institute for Advanced Science and Technology at the University of Illinois | The Beckman Institute for Advanced Science and Technology at the University of Illinois at Urbana-Champaign cultivates leading-edge, interdisciplinary research of the highest quality. Research at the Institute is focused around three scientific and technologically relevant research initiatives: Biological Intelligence; Human-Computer Intelligent Interaction; and Molecular and Electronic Nanostructures. | 0 |
| The Cornell Nanofabrication Facility (CNF) | Provides nanofabrication services to over 600 research projects on the Cornell University campus. | 0 |
| THE ELECTRO-OPTICS RESEARCH INSTITUTE | The ElectroOptics Laboratory is set up for the experimental study and characterization of spatial light modulators, and the experimental breadboard evaluation of optical processor concepts. Various purchased and donated modulators include an analog nematic liquid crystal spatial light modulator from Boulder Nonlinear Inc., Meadowlark optics birefringent liquid crystal spatial light modulators, liquid crystal projectors and TV panels, liquid crystal light valve (Hughes), BSO photorefractive breadboard (Newport) and S-SEED (AT&T). The S-SEED was the first donation of this optical logic array to any research organization. Lasers covering 352 to 1100 nanometers are present along with three 10'x4' optical tables, breadboarding capabilities, video cameras, and computers containing frame grabbers for image generation and capture. A system for photoresist direct write of diffractive optics using computer controlled x-y stages has also been developed. | 0 |
| The Manufacturing Research Group's | Notwithstanding any language to the contrary, nothing contained herein constitutes nor is intended to constitute an offer, inducement, promise, or contract of any kind. The data contained herein is for informational purposes only and is not represented to be error free. Any links to non-Georgia Tech information are provided as a courtesy. They are not intended to nor do they constitute an endorsement by the Georgia Institute of Technology of the linked materials. | 0 |
| The Materials and Process Simulation Center (MSC) | Directed by William A. Goddard lll, Charles and Mary Ferkel Appled physics at Caltech. | 0 |
| UC Santa Barbara | Nanotech Nanofabrication Facility | 0 |
| University of Florida | The Center for Structural Biology is a research and teaching unit of the University of Florida within the College of Medicine, with a mission to study biological structure in order to gain a greater understanding of the relationship between structure and function. The Center is an integral part of the University of Florida Brain Institute and is jointly developing programs with the National High Magnetic Field Laboratory. The University of Florida is located in the north central Florida city of Gainesville. | 0 |
| University of Florida | The Center for Structural Biology of the University of Florida within the College of Medicine, with a mission to study biological structure in order to gain greater understanding of the relationship between structure and function. | 0 |
| University of Maryland/Rutgers Materials Research Science and Engineering Center (MRSEC) | Research focuses on polarization dynamics in ferroelectric thin films, surface nanostructures: from fluctuations to driven systems, and metal oxides with high spinpolarization [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| University of Nebraska - Lincoln | Dept. of Electrical Engineering, Quantum Device Laboratory. | 0 |
| University of Pennsylvania Materials Research Science and Engineering Center (MRSEC) | Focuses on functional biomolecular materials, carbon nanotube-derived materials, microscale soft materials, and multifunctional complex oxides [National Science Foundation (NSF), Materials Research Science and Engineering Centers (MRSEC)] | 0 |
| university of Sussex | Sussex Fullerene Research Centre | 0 |
| University of Texas | Nanopage | 0 |
| University of Wien | Solid-state spectroscopy provides direct information on the electronic and dynamical structure of solids. Such structures determine the basic electronic, optical, but also mechanical properties of the materials. Therefore, solid-state spectroscopy rates among the most important methods to obtain the requested information. Spectroscopic techniques have a long tradition but are still further developing today. | 0 |
