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 1 - 25 of 42 for research and community organizations starting with B:

 
Primary goal of the center is to transfer the technology of validated theory and computational tools from the academic-based Center to the practitioners' development environment which is nanotechnology-based industry.
This course teaches numerate graduates knowledge and skills in the field of nanotechnology and microfabrication. The course takes an immersive approach to learning both the principles and practices of nanotechnology and microfabrication with much of the material based around examples and practical exercises. Students completing this course will have a firm grasp of the current practices and directions in this exciting area and will have the knowledge and skills to enable them to design and build microscale devices.
BICAMN includes focus areas in 'Nanodevices' and in 'Nanomaterials' that explore the basic science of nanoscale magnetism and optics and the structural details of novel nanoparticles and nanoscale thin films.
The mission of the Institute is to play a dominant role in the materials science and technology innovation chain, first of all in the field of laser technology, metal technology and simulation, polymer technology and nanotechnology.
BCMaterials is an autonomous research center that covers all aspects of research in Functional Materials with advanced Electric, Magnetic and Optical properties; from basic aspects to applications. Special activity is devoted to thin films materials and characterization techniques involving Large International Facilities, like neutron and synchrotron radiation sources.
Inspired by the natural biological materials, such as the spider silk, lotus root silk, shells, Professor Cheng's group is focused on bioinspired polymer nanocomposites, including assembly, design and physical properties investigation. Different nanomaterials, such as montmorillonite, carbon nanotubes and graphene oxide, are utilized as building blocks for constructing polymer nanocomposites.
The Institute's aim is to develop green and mass production techniques to make low-cost graphene powders of different qualities, and to investigate properties of such graphene powders in electrical/thermal conductivity, anti-corrosion coating and mechanical reinforcement in strength and flexibility.
The institute conducts research in the areas of piezoelectronics, photonics and nanopiezoelectric generators and other related areas of basic and applied basic research.
The research directions of BNLMS include: (1) structure and transformation of matter; (2) materials chemistry; (3) nanoscience and nanotechnology; (4) polymer science and engineering; (5) chemistry in life science; (6) environmental and energy chemistry.
The center is doing research in the areas of quantum computing, scanning probe nanotechnology, silicon-based optoelectronics, silicon quantum well devices, silicon and germanium structures.
The institute deals with nanotechnologies and photonic crystal research.
The scientific community grouped under the Ilse Katz Center aims to develop excellent, innovative fundamental research in the field of nano-scaled materials, that will lead to the opening of new technological horizons.
The group focuses on the development of a new classes of nanomaterials for optical, electrical and energy related applications.
The Molecular Foundry at Berkeley Lab is a user facility for the design, synthesis and characterization of nanoscale materials.
Berkeley is transitioning the Berkeley Microlab into the Marvell Nanolab.
Nanoscale mineral particles -- nanoparticles -- are naturally formed and removed from the environment by numerous chemical and biological processes. The Center's mission is to uncover the numerous roles played by nanoparticles in geochemical and biogeochemical processes.
The Berkeley Nanosciences and Nanoengineering Institute (BNNI) is the umbrella organization for expanding and coordinating Berkeley research and educational activities in nanoscale science and engineering.
BSAC is the National Science Foundation Industry/University Cooperative Research Center for Microsensors and Microactuators, conducting industry-relevant, interdisciplinary research on micro- and nano-scale sensors, moving mechanical elements, microfluidics, materials, and processes that take advantage of progress made in integrated-circuit, bio, and polymer technologies.
BINAS combines the activities of the University of Bielefeld in nanosciences and biophysics.
UNAM-Institute of Materials Science and Nanotechnology has emerged from a project of Bilkent University aiming at establishing a national nanotechnology research center in Turkey. Research facilities are expanding rapidly in order to host 100 professional researchers with Ph.D. degrees and at least 300 graduate students. UNAM is growing as a center of excellence in nanotechnology and is operating as a high level national research facility that serves to all interested researchers and users from universities, state enterprises and private sector all over Turkey.
Nanotechnology Research Center at Bilkent University is dedicated to research on theoretical and experimental nanoscience and nanotechnology with strong emphasis on education and training.
The vision of BIODOT is a hybrid bio-organic technology for transduction of dynamical phenomena of biosystems in-vitro. The device that will be developed is based on organic ultra thin film transistors integrated with microfluidics.
BioNanoNet Forschungsgesellschaft mbH (BioNanoNet) is an Austrian scientific network that specializes in the Key Enabling Technologies nanotechnology and biotechnology on a national and international basis, with the emphasis on (1) nanotoxicology, (2) sensortechnologies, as well as (3) health, safety, (nano-)medicine and additionally supports projects in coordination, management, dissemination and communication. BioNanoNet is a European key player in the field of nanosafety, specialised in developing nano-safety-by-design strategies together with researchers and industry.
The BIOTEX project aims at developing dedicated biochemical-sensing techniques compatible with integration into textile. The consortium includes two research institutes in the field of micro and nanotechnology.
The mission of the group is to provide a rewarding and nourishing atmosphere of hands-on cutting edge research for students to develop and grow professionally and technically and use as an opportunity to springboard to a professional career that will benefit them and society.