PHOREMOST is the result of a decision to establish a Network of Excellence in the area of Nanophotonics and Molecular Photonics to address the near- and long term needs of photonic functional components.
This joint effort gathers a number of leading German research institutions from the Max Planck Society, the Helmholtz Society, and the Fraunhofer Society together with partners from Germany's Photonics industry. The PhoNa consortium conducts research on a broad spectrum of linear and nonlinear Photonic Nanomaterials, as e.g. metamaterials, photonic crystals, plasmonics, diffractive structures, and their application in fields such as biology, chemistry and material sciences.
Quantum mechanics lies at the core of many of today's technologies as well as ongoing scientific discoveries and future innovations. The Pittsburgh Quantum Institute was established in 2012 to help unify and promote research in quantum science and engineering in the Pittsburgh area. PQI members have faculty appointments from Carnegie Mellon University, Duquesne University and the University of Pittsburgh in physics, chemistry and engineering disciplines. On this site you can find research profiles of PQI members, read about the latest research achievements, learn about PQI seminars and other events, and find connections to related centers in the Pittsburgh area.
PneumoNP is a collaborative research program aiming at the development of a nanotheragnostic system for the treatment of Gram-negative bacterial infections of the lung, with focus on Klebsiella pneumoniae caused infections.
Established in April 2005 as a partnership between the Woodrow Wilson International Center for Scholars and the Pew Charitable Trusts. The Project is dedicated to helping ensure that as nanotechnologies advance, possible risks are minimized, public and consumer engagement remains strong, and the potential benefits of these new technologies are realized.
It is the aim of the FP6 program PRONANO that the new massively parallel scanning probe nanotools with VLSI ASNEMS (application specific nanoelectromechanical systems) chips inside should empower nanotechnologists and drive the rapid development of nanoscience, leading to new nanotechnology processes and their industrial exploitation. They will secure the future of nanotechnology with economic throughputs leading to new manufacturing industries.
ProTeM (Probe-based Terabit Memory) is an EU FP6 Integrated Project funded by the IST Micro-and Nanosystems programme. Aim of the project is to develop Probe Storage micro-nano techniques and systems for ultra-high capacity, low power, small form-factor memories, with a particular focus on archival and backup applications.
PULLNANO is a 30-month Integrated Project from the 6th Framework Programme proposal for a powerful project focused on advanced Research and Technological Development activities to push forward the limits of CMOS technologies. PULLNANO focuses on the development of 32 and 22nm CMOS technology nodes opening the way to the long term future of these technologies.
The Institute for Nanoelectronics Discovery and Exploration (INDEX) - one of just four such nanoelectronics research institutes in the country ? is located at CNSE's Albany NanoTech complex. The INDEX institute focuses on cutting-edge research in the field of nanotechnology, including the development of nanomaterials, fabrication technologies, nanochip designs and architectural integration schemes for realizing the computer nanochip designs of the future.
The RADSAS project aims at developing efficient strategies for parallel, two-dimensional molecular self-assembly on surfaces, which we consider an indispensable prerequisite for the technical realization of supra-molecular design and engineering.
RECEPTRONICS is a research project funded by the European Commission within the VIth Work Program under the Nanotechnologies and Nanosciences priority. The goal of this project is to develop low-cost, label-free biomolecular detectors/sentinels by integrating concepts and methods from bionanotechnology and micro-/nanoelectronics. More specifically, the project aims to design, fabricate, test and validate a biomorphic hybrid technology by which biological self-assembling structures are interfaced with advanced electronic circuits for signal detection, amplification and conditioning.
The specific targeted research project RIMANA (Radical Innovation Maskless Nanolithography) aims to research and develop a key maskless nanolithography technology for low to medium volume production, essential for the semiconductor industry and emerging nanotechnology industry.
The Russian Corporation of Nanotechnology (RCNT) was established to address the growing challenge that arises with the rapid development of new technologies in the nanoscale. The key directions of RCNT's activity are: 1) provide assistance to the state policies in the sphere of nanotechnology; 2) development of the innovative infrastructure for nanotechnologies; 3) achievement of projects aimed at creating innovative nanotechnologies and nanoindustries.