The Network for Computational Nanotechnology (7 universities) has a mission to connect theory, experiment, and computation in a way that makes a difference to the future of nanotechnology. While addressing challenges in nanotechnology NCN researchers produce new algorithms, approaches, and software tools with capabilities not yet available commercially.
The main objective of the project, which ran from 08/2004 until 07/2006, was to mobilize human and material resources in the field of nanostructured materials in New Member States of the EU, to consolidate, strengthen, and enhance the dispersed research/technological potential in this field of research, to promote and use the results of 5th FP and 6th FP, and to improve the knowledge based application oriented nanoscience and nanotechnology in Europe.
The NEURONANO network major aim is to integrate carbon nanotubes (CNT) with multielectrode array (MEA) technology to develop a new generation biochips to help repair damaged central nervous system (CNS) tissues.
The New Mexico EPSCoR program is a statewide collaborative partnership of colleges and universities, national laboratories, industry, and state government united in an effort to promote research, increase opportunities for training the workforce of scientists and engineers and, ultimately, to promote the economic development of the state of New Mexico. The goal of the NM EPSCoR program is to increase the competitiveness of NM researchers within targeted science and technology fields through sustainable infrastructure improvements.
The project focuses on the research and development of a new bioactive non-resorbable fibre-reinforced composite (FRC) material for load-bearing bone and joint implants in skeletal reconstruction of orthopaedic and trauma patients. A special emphasis will be placed on the development of bioactive and antibacterial surface treatments of the implants. Another objective is to produce novel composite-based bioactive resorbable fixation devices for ligament repairs of the knee and shoulder.
Within the NILaustria project cluster the consortium will use Nanoimprint Lithography (NIL) to provide a versatile and cost efficient solution to achieve ultra high quality, large area nanostructures. The consortium brings together all Austrian research institutions using NIL and the two NIL-related companies in Austria, i.e. NIL equipment manufacturer EVG and IMS developing a novel method for NIL template fabrication.
The NIMIC consortium (Nano-IMaging under Industrial Conditions) is aimed at making a wide variety of physical, chemical and biological processes visible that take place on the scale of atoms and molecules. The powerful, new microscopes that NIMIC develops are being applied to catalysis, breast cancer research and nanotechnology.
This EU FP6 project aims at developing a nonviral vector for gene delivery, able of a) gene transfection in vivo and on a large amount of cells, b) local and non invasive therapy, c) frequent and easy medication. This nano-device will be based on a carbon nanotube.
This EU FP6 project focuses on an innovative bottom-up approach to fabrication and integration of nanoelectronic devices, based on self-assembling semiconductor nanowires. The primary target is to deliver replacement and add-on technologies to silicon CMOS, such as FET devices for logics and III-V bipolar transistors for RF applications.
The Northern California Nanotechnology Initiative, NCnano, is an economic development initiative focused on developing the nanotechnology and the nano-bio-IT convergence technology economy of Northern California.