The DNI coordinates and develops efforts at Drexel University in the broad and interdisciplinary area of nanoscale science and engineering, including research, undergraduate and graduate education, technology transfer, outreach, and dissemination.
The Center plans to combine a wide range of areas of expertise to create a) innovative nanotechnology capable of measuring large populations of neurons and their interconnections and b) new computational methods based on modern bayesian inference and information theory.
The Arizona Institute for Nano-Electronics (AINE) is a coordinated network of research centers focused on ASU research in nanoelectronics, including nanophotonics, molecular electronics, nanoionics and computational nanoscience. AINE's goal is to strongly impact future technology areas related to ultra-low power/ultra-high speed electronics, and hybrid biomolecular electronics at the interface between the biological and electronics worlds.
The Biodesign Institute at ASU addresses today’s critical global challenges in healthcare, sustainability and security by developing solutions inspired from natural systems and translating those solutions into commercially viable products and clinical practices.
The primary aim of the Center for Bioelectronics and Biosensors is to create powerful bioassays for point-of-care diagnostics and a variety of advanced handheld, environmental field microanalyzers. By interfacing three advanced technologies - nanomaterials, biomaterials and electronic transducers - the researchers have the ability to create enhanced biosensors and nanobioelectronics.
Designed as a boundary organization at the interface of science and society, CNS-ASU provides an operational model for a new way to organize research through improved reflexiveness and social learning which can signal emerging problems, enable anticipatory governance, and, through improved contextual awareness, guide trajectories of NSE knowledge and innovation toward socially desirable outcomes, and away from undesirable ones.
The purpose of this program is to examine ethical challenges posed by emerging technologies, including nanotechnology, neurotechnology, biotechnology, robotics and advanced information and communication technology.
The main research interest of Prof. Ning's group is the study and development of nano-scale electronic and optoelectronic materials and devices. The research activities are focused on theory, modelling, simulation (TMS), semiconductor nanowires, and semiconductor nanophotonics.
The P.S.M. in nanoscience is a cohesive program of interdisciplinary courses that provide the knowledge base required for research and innovation in nanoscience. The program incorporates courses in physics, chemistry and biochemistry, materials science and electrical engineering.