Nanotechnology Research Laboratories
(Links listed alphabetically)
A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | All
Showing results 76 - 100 of 111 for research and community organizations starting with C:
The M.S. Program in Nanoscience is ideal for students who want to enter the workforce in nanoscience and its related energy, biomedical, electronics, telecommunications, and materials science fields, as well as for students who wish to expand their knowledge and skills in preparation for doctoral programs in chemistry, physics or materials science.
The group's research interests span over a broad range of technical areas, including applied electromagnetics, nano-optics and nanophotonics, microwave, THz, infrared, optical and acoustic metamaterials and metasurfaces, plasmonics, nonlinearities and nonreciprocity, cloaking and scattering, acoustics, optical nanocircuits and nanoantennas.
The Graduate School offers a program of study leading to the Ph.D. degree in Chemistry. As one of seven sub-disciplines, students may specialize in nanotechnology and materials.
Nanotechnology Minor program at Clarion University's Physics Department.
CAMP's mission is to perform innovative research and conduct educational efforts on the synthesis and processing of advanced materials of interest to industry.
The research interests of nano-bio lab lie at the interface of physics, biology, and nanoscience. This lab aims to seamlessly integrate the principles of condensed matter physics, optical spectroscopy, and physiological chemistry to elucidate biophysics at the nanoscale.
The Nanoscale Electronics and Sensor Laboratory (NESL) is currently focused on five major research areas: Epitaxial Graphene based Sensors; MEMS sensors; Nanowire based MEMS sensors and electronics; Implantable sensors for biomedical application; Scanning probe characterization.
The initiative's expertise is to connect nanotechnology competences from different sectors, in particular science, politics and education. With a focus on small and medium-sized companies they primarily support networking among SMEs, but also include universities, colleges and research institutes. They support the efficient transfer of R&D&I results into marketable products and promote cooperation activities between the different stakeholders.
The Cluster of Excellence Engineering of Advanced Materials ? Hierarchical Structure Formation for Functional Devices (EAM) is the only interdisciplinary research collaboration of its type in Germany to focus on materials science and process technology. Its research centers on the fundamental and applied aspects of designing and creating novel high-performance materials.
CMC Microsystems provides microsystems researchers with industry-calibre design resources, access to state-of-the-art prototyping technologies, tools for test and support services to accelerate Canadian competitiveness through nano- and microelectronics.
Research at S3 is structured along the following lines: Nanobiosystems; Nanomagnetism: Control of magnetization dynamics in nanomagnets; Nanofabrication and surface/interface phenomena at the nanoscale; Theory and simulations of nanostructured materials.
Co-Pilot aims to assist business in the execution of pilot production of nanomaterials. Co-Pilot is developing an open access infrastructure for companies interested in the production of high quality (multi-)functional nano-composites on a pilot scale.
Research into interfaces, surfaces, and thin films is one of the most active areas of research.
The research of the Brus group is in the physical chemistry of materials, interfaces, nanocrystals, and nanotubes, especially in relation to optical and electronic properties.
The CNI Shared Facilities are open to student and faculty researchers, as well as those from government, start-ups, and industry. The Clean Room offers a comprehensive set of tools for microfabrication and nanofabrication. The Materials Characterization Laboratory and the Electron Microscopy Laboratory offer state-of-the-art instruments for chemical and structural characterization of materials.
Main research interests include Raman Scattering and other Optical Spectroscopy of Nanocrystals and Electric-field Assisted Assembly of Nanomaterial Films.
The Center aims to advance understanding of cellular mechanical biology in order to develop technologies for regenerative medicine and advance immunotherapy.
Responsible for developing Australia's National Nanotechnology Strategy. Houses a National Research Flagship for Niche Manufacturing that includes nanomanufacturing.
(Site in German) The Center of Competence in Nano-Scale Analysis is a nationwide network created to link core competences in the fields of particle and surface analysis in order to develop improved mechanisms for transferring basic research into products, manufacturing processes and services.
Consortium for Research of Nanostructured and Crosslinked Polymeric Materials (CRNCPM) (Czech Republic)
The CRNCPM links several research groups engaged in the research of nanostructured and crosslinked polymeric materials in the Czech Republic.
The goal of the European CONTACT project is to establish a tailored supply chain of new CNT-filled composites with enhanced mechanical and electrical properties for applications including electrodes, structural materials and windblades.
An n independent, national platform pooling the scientific and regulatory knowledge and expertise available in Switzerland on the safe handling of synthetic nanomaterials - from production to use and disposal - and conveying it efficiently and in a generally understandable form to companies (start-ups, SMEs, and established firms).
Subjects of research encompass physical sciences, life sciences, and engineering, particularly with inter-disciplinary emphasis
The Craighead research group at Cornell focuses on creating nanoscale devices using established and newly-developed techniques. A major motivation is to develop methods to pattern, sort, and analyze biological materials.
KIC creates new techniques to image and dynamically control nanoscale systems and uses these techniques to push the frontiers of nanoscale science. KIC's measurement-oriented mission complements existing strengths at Cornell in nanofabrication.