The aim of this European research project is to study nanoscale self-assembly in two systems. Both use surfactant micelles as a template structure to hierarchically order polyelectrolytes on several length scales.
The Sri Lanka Institute of Nanotechnology envisions being the leading Research and Innovation platform for Sustainable Nanotechnology in Asia. Thereby transforming Sri Lanka into a strong Nanotechnology-focused nation.
Part of the EU 'New Emerging Science and Technology' Programme, SIBMAR aims at high resolution structural information of individual biological molecules by employing coherent low energy electron waves.
The EU funded STREP project SUBTLE is associated with nanoelectronic devices in which quantum-confined electron channels are so closely spaced to each other that tailored feedback action exists. The approach of SUBTLE is based on the application of two effects in miniaturized electronics, which one usually tries to avoid in device design: back-action of the channel on the gate and noise induced switching.
The Sustainable Nanotechnology Organization (SNO) is a non-profit, worldwide professional society comprised of individuals and institutions that are engaged in: Research and development of sustainable nanotechnology; Implications of nanotechnology for Environment, Health, and Safety; Advances in nanoscience, methods, protocols and metrology; Education and understanding of sustainable nanotechnology; Applications of nanotechnology for sustainability. SNO's purpose is to provide a professional society forum to advance knowledge in all aspects of sustainable nanotechnology, including both applications and implications.
SustainComp is a large scale collaborative project financed by the European Commission. The project aims at developing new types of sustainable composite materials for a wide range of applications and has the ambition to integrate today's large enterprises on the raw material and end-use sides. (e.g. pulp mills and packaging manufacturers) and small and medium sized enterprises on the composite processing side (e.g. compounders and composite manufacturers).
SustainPack is the biggest and most important packaging research project ever undertaken. The purpose of SustainPack is to establish fibre-based packaging as the dominant player in the packaging area within a decade. It will achieve this by applying nanotechnology solutions to deliver lean and added value fibre-based packaging options for users and consumers.
SwedNanoTech is Sweden’s first umbrella organization for the Swedish nanotechnology actors. The association was formed in 2010 to profile Sweden as a prominent nanotechnology country in research and products, but also as a land of investment opportunities.
Swiss Nano-Cube is a new interactive knowledge and education platform for micro and nanotechnology. It aims to spark interest in nanotechnology and engineering among students and young professionals. It is addressed to teachers and students of vocational schools, secondary schools as well as higher professional schools.
Technology Research Association for Single Wall Carbon Nanotubes (TASC), a consortium of nine companies and a public research institution, was founded on May 24, 2010. TASC is engaging in research and development on Single-Wall Carbon Nanotubes and Graphene and aiming to establish a new industry on their composite materials.
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.
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.
nanoBridge is a pan-Alberta funding initiative administered by the Faculty of Engineering and supported by Alberta Innovates - Technology Futures. Through a competitive application and review process, nanoBridge provides grant based funding in support of early-stage commercialization activities in microsystems and nanotechnology (MNT) to Alberta's academic, institutional and industrial communities. The primary mandate of nanoBridge is to support the continued development and generation of regional economic activity within the MNT industry.
CAMCOR is a full-service, comprehensive materials characterization center available to research institutions and private industry. The CAMCOR facilities provide enabling infrastructure for research in chemistry, nanoscience, materials science, bioscience, and optics.
Nanotechnology has both applications and implications for the environment. EPA is supporting research in this technology while evaluating its regulatory responsibility to protect the environment and human health. This site highlights EPA's research in nanotechnology and provides useful information on related research at EPA and in other organizations.
Variability-aware software for efficient computing with nanoscale devices. The Variability Expedition envisions a computing world where system components – led by proactive software – routinely monitor, predict and adapt to the variability of manufactured systems. Changing the way software interacts with hardware offers the best hope for perpetuating the fundamental gains in computing performance at lower cost of the past 40 years.
The goal of the European FP7 VascuBone project is to develop a 'tool box' for bone regeneration, which on one hand fulfils basic requirements and on the other hand is freely combinable with what is needed in the respective patient's situation. The tool box will include a variation of biocompatible biomaterials and cell types, FDA approved growth factors, material modification technologies, simulation and analytical tools like molecular imaging based in vivo diagnostics which can be combined for the specific medical need. This tool box will be used to develop translational approaches for regenerative therapies of three different types of bone defects.