Graduated Centers (Self-sustaining)
Graduated Centers (Self-sustaining)
The vision of ASSIST is to harness nanotechnology to improve global health by enabling correlation between personal health and personal environment and by empowering patients and doctors to manage wellness and improve quality of life
VaNTH is engaged in efforts to transform bioengineering education by developing, implementing, and assessing educational processes, materials, and learning technologies.
Inspired by fundamental discoveries about microbial communities on surfaces, the CBE develops solutions to industrially relevant biofilm problems and engineers uses for beneficial microbial biofilms
Develop surgical systems that integrate novel computer and human/machine interface technologies that will revolutionize surgical procedures, extending the surgeon's abilities to achieve better outcomes at lower costs
Integrate engineering technologies, biological discoveries, and clinical expertise and infrastructure so as to fundamentally transform the treatment of human diseases and injuries through the development and translation of new technologies that enhance the body’s ability to heal itself
UWEB brings together a cross-disciplinary team of scientists, biologists, engineers, researchers and physicians, as well as industry leaders, to exploit specific biological mechanisms in the development of medical innovations.
The CNT will seek to identify the engineering principles of neural movement control and sensory processing to enable a new generation of robust, adaptive, closed loop, sensorimotor devices that interact with human nervous systems.
BMES is developing transformative neural prostheses using novel biomimetic microelectronic systems based on fundamental principles of biology and engineering.
RMB is developing the fundamental knowledge and technology needed to advance biocompatible and biodegradable metal-based, implantable systems with feedback control for reconstruction and regeneration.
Graduated Centers (Self-sustaining)
CURENT is developing a nation-wide transmission grid that is fully monitored and dynamically controlled for high efficiency, high reliability, low cost, better accommodation of renewable sources, full utilization of storage, and responsive load.
Develop methodologies and application tools for quantifying and mitigating the effects of earthquakes, especially in the central USA, and other low-probability, high-consequence earthquakes. Establish global alliances for assessment and intervention at both the systems and societal levels to protect communities vulnerable to earthquake effects
Provide technology, expertise and services needed for the development of drilling, production and transportation systems that enable the safe and economically viable exploitation of hydrocarbon resources in deep and ultra-deep water
Research and develop the technologies required to support sustainable infrastructure systems by addressing engineering opportunities in critical areas, including resistance to deterioration and resiliency to extreme events
PEER's mission is to develop, validate, and disseminate performance-based seismic design technologies for buildings and infrastructure to meet the diverse economic and safety needs of owners and society. PEER's research defines appropriate performance targets, and develops engineering tools and criteria that can be used by practicing professionals to achieve those targets, such as safety, cost, and post-earthquake functionality.
Dedicated to the discovery and development of new knowledge, tools, and technologies that equip communities to become more disaster-resilient in the face of earthquakes and other extreme events
Develop, apply, and transfer advanced combustion technology to industry through fundamental engineering research and educational programs aimed at the solution of critical combustion problems
FREEDM is developing an electric energy distribution infrastructure system with plug and play capabilities for renewable sources and energy storage systems—i.e., develop a "Smart Grid."
QESST seeks to transform the existing electricity generation system, making it sustainable, ubiquitous, and multifunctional, by developing photovoltaic and quantum energy converters, which fundamentally alter how energy is used.
Graduated Centers (Self-sustaining)
TANMS works to engineer a revolution in miniature electromagnetic electronics through development of a new class of nanoscale multiferroic materials.
Advance the design, fabrication, and breadth of the applications for sensor-driven microsensors and systems through research, education, and interactions with industry
Revolutionize existing technology for detecting and imaging biomedical and environmental-civil objects or conditions that are underground, underwater, or embedded in the human body to solve important real-world problems such as non-invasive breast cancer detection, underground pollution assessment, and explosives threat detection
Provide leadership through global collaborative research and education for creating electric processing systems of the highest value to society
The mission of IMSC is to realize "Geo-Immersion," a new computing paradigm that enables humans to capture, model, and integrate real-world BIG data into a geo-realistic virtual replica of the world for immersive data access, querying, and analysis
Advancing the state-of-the-art in computational science and engineering using high performance computing; a common approach to research that embraces a multi-disciplinary, team-oriented concept; and a commitment to a full partnership between education, research, and service
Provide advanced equipment to create, support, and sustain an environment that facilitates advanced research in nanophotonics, micro and nanoelectronics, MEMS and NEMS, and biomedical applications of nanotechnology
Exploratory research by faculty and graduate students with particular focus on: 1) leading-edge electronic and bio-electronic systems research, 2) cross-discipline education of students, and 3) industry collaborations with global companies focusing on a transformative systems technology called System-On-Package, pioneered by the Center
Developing innovative technologies for the next generation of hard disk drives and nonvolatile memory systems
MIRTHE develops knowledge, technologies, and engineered systems based on mid-infrared (mid-IR) trace-gas spectroscopy that will provide unprecedented optical and chemical sensing capabilities for environmental monitoring, homeland security and medical diagnostics.
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Graduated Centers (Self-sustaining)
With eighteen years of experience in the research, development and facilitated commercialization of particulate based systems, PERC is now looking forward to an exciting future, innovating and transforming particle science and technology advances into useful applications for sustained societal well-being.
Engage scientists and engineers in a pre-competitive, non-proprietary and collaborative industry-university partnership environment enabling member companies to delve into the fundamental science behind their products and processes
Develop methods and technological tools needed to enhance enterprise responsiveness to global markets, by introducing cost-effective changeable manufacturing systems with in-line product quality evaluation
Pursue systems research, with an emphasis on advanced strategies for high-level synthesis and analysis of complex, multidisciplinary engineering systems, using model-based systems engineering techniques
Provide an integrated research and education environment for the systems-oriented study of high performance fibers, films, and composites for applications ranging from military to medical uses
Identify, seed, and grow new areas of multidisciplinary research in complex engineered materials, devices, processes, and systems
Develop a methodology for incorporating Environmental, Safety & Health (ESH) factors as design parameters in the development of new processes, tools, and protocols for semiconductor manufacturing
NASCENT intends to create high throughput, reliable, and versatile nanomanufacturing systems that will revolutionize future-generation mobile computing and energy devices.
C-SOPS is designing the future of pharmaceutical products and processes.