UConn Tech Park strategic partners support IPB’s research centers in fields of expertise ranging from cybersecurity to materials testing to clean energy. For more information on these strategic partnerships or to discuss collaborative opportunities, contact one of our research center directors listed below.
Thermo Fisher Scientific Center for Advanced Microscopy and Materials Analysis
Est. November 2014
Thermo Fisher Scientific Center for Advanced Microscopy and Materials Analysis (CAMMA) is one of the world’s foremost facilities for electron microscopy. Its nine microscopy instruments include the Titan Themis for sub-angstrom analysis of materials and the Talos TEM for simultaneous quantitative energy dispersive spectroscopy and analysis of the chemical composition of materials. CAMMA equipment will be available for collaborative research with industry partners, including applications for clean energy materials and the testing of additively-manufactured components such as those found in medical devices and polymeric materials for biomedical applications.
Pratt & Whitney Additive Manufacturing Center
Est. April 2013
The Pratt & Whitney Additive Manufacturing Center (PW AMC) is a premier facility for metal additive manufacturing. The range of equipment available includes electron beam melting and laser sintering technologies and a suite of thermophysical measurement instruments. PW AMC is focused on the underlying physics of additive manufacturing with emphasis on rapid solidification, powder spreading, and metal-atmosphere interactions. Experiments as well as ab-initio calculations are used to develop new insight into the additive manufacturing process. PW AMC has also addressed control theory with the goal of improving current machine technologies and supports the generation of data for manufacturing simulations.
Institute for Advanced Systems Engineering
Est. October 2013
The Institute for Advanced Systems Engineering (IASE) produces, disseminates, and commercializes new science and technology in the field of cyber-physical systems engineering through transformative research, education, and workforce development. The Institute serves as a hub for world-class research, project-based learning by globally-distributed teams of students, and industrial outreach activities focused on model-based systems engineering (MBSE) of complex systems that are built from and are dependent on the synergy of computational and physical components. Research applications are broad, and include, eg, smart buildings and cities, aerospace systems, manufacturing and energy industries, robotics and cybersecurity.
Collins Aerospace Center for Advanced Materials
Est. April 2016
Collins Aerospace Center for Advanced Materials offers educational funding to graduate and undergraduate students as well as post-doctoral fellows. It provides an opportunity for firsthand interactions with an industrial partner whose focus is on advanced aerospace and defense products. The center has three main research thrusts: (1) design and development of custom aerospace alloys that lend themselves to additive manufacturing using computational and experimental tools, (2) processing of high temperature ceramic composites for extreme environments and (3) quasicrystal-strengthened alloys for structural applications.
Eversource Energy Center
Est. October 2015
The Eversource Energy Center leads the utility industry in innovating and developing new technologies and science-based solutions to ensure the delivery of reliable power and enhanced risk management associated with cyber and physical infrastructure security. Through research and teaching, the Center is advancing the next generation of storm outage forecasting, best practices for healthy and storm-resistant forest design, and new technologies to proactively pinpoint electric grid operational efficiencies and storm resiliency improvements.
Connecticut Center for Applied Separations Technology
Est. July 2013 (Fraunhofer Center), relaunched spring 2020 (CCAST)
The Connecticut Center for Applied Separations Technology (CCAST) provides contract R&D services that identify energy and cost-efficient solutions for separations needs through thoughtful consideration of innovative materials, differentiating techniques & robust process design.
Connecticut Advanced Computing Center
Connecticut Advanced Computing Center (CACC) and its member centers, Comcast Center for Security Innovation (CSI), Center for Hardware and Embedded Systems Security and Trust (CHEST), Synchrony Center of Excellence in Cybersecurity and Voter carry out research in cybersecurity and cryptography. Their mission is to expand theoretical models and the boundary of cybersecurity technology to enable organizations to protect and safe keep the digital assets under their purview as well as enable safe, private, reliable and trustworthy computing in adversarial settings.
Center for Hardware and Embedded Systems Security and Trust (CHEST) is an industry-supported consortium tackling research issues in hardware security.
DIRECTOR: John Chandy, Ph.D.
Comcast Center for Security Innovation (CSI) focuses on networking products deployed in businesses and homes.
Synchrony Center of Excellence in Cybersecurity addresses threats to financial organizations.
Est. October 2016
DIRECTOR: Laurent Michel, Ph.D.
Enterprise Solution Center
is an innovation hub that connects small and medium manufacturing enterprises (SMMEs) to science and engineering resources at UConn and to major original equipment manufacturers (OEMs).
Proof of Concept Center (POCC) offers state-of-the-art prototyping and fabrication equipment that facilitate new product development for a wide range of industries.
Est. March 2016
DIRECTOR: Joe Luciani
Quiet Corner Innovation Cluster (QCIC) partners with SMMEs to promote business growth through innovation, enhanced R&D, and updated business capabilities.
Est. March 2016
DIRECTOR: Joe Luciani
Connecticut Manufacturing Simulation Center (CMSC) provides SMMEs with affordable technical assistance for computer-based design, finite element modeling and simulation, testing, and validation, with capabilities in modeling a variety of manufacturing processes, including machining, forming, forging, and casting.
Est. October 2016
DIRECTOR: Jeongho Kim, Ph.D.
Connecticut Manufacturing Resource Center (CMRC) helps manufacturers establish contingency plans for maintaining operations remotely during a crisis. In the face of a pandemic or other emergency, these strategies enable more effective management of setbacks such as disruptions to production and supply chains and disproportionate decreases in product demand.
Est. October 2020
Reverse Engineering Fabrication Inspection & Non-Destructive Evaluation
Reverse Engineering Fabrication Inspection & Non-Destructive Evaluation (REFINE) lab houses state-of-the-art light, X-ray, electron and ion microscopes. The lab focuses on “correlative microscopy” where information from multiple imaging modalities can be integrated in order to reach a much deeper understanding of imaged samples. REFINE lab's instruments can “talk” to each other, enabling researchers to gain a multi-dimensional, multi-resolution and multi-scale perspective about the studied sample. REFINE is working closely with industries in areas of electronics and hardware security, biomedical devices, batteries and energy storage, aerospace, advanced coatings and additive manufacturing.
Center for Science of Heterogeneous Additive Printing of 3D Materials
Est. July 2018
The Center for Science of Heterogeneous Additive Printing of 3D Materials (SHAP3D) is a named National Science Foundation (NSF) industry/university cooperative research center (I/UCRC) dedicated to additive manufacturing. Co-founded by UConn, UMass Lowell and Georgia Tech, the center strives to develop critical insight into the fundamental structure-processing-property relationships to control the integration of diverse materials, decrease cost and increase reliability at all stages of additive manufacturing. SHAP3D provides a platform in which companies and federal agencies may cost-effectively collaborate on shared, pre-competitive research topics by leveraging R&D investment to access world class facilities, faculty and graduate students.
National Institute for Undersea Vehicle Technology (NIUVT)
Est. January 2018
The National Institute for Undersea Vehicle Technology (NIUVT) is a collaborative partnership between government, academia, and industry charged with performing research, developing workforce, and transitioning technology in the undersea domain. The original partners of UConn, the University of Rhode Island (URI) and General Dynamics Electric Boat (EB) founded the institute to enhance performance and reduce costs of the shipbuilding process while ensuring that advanced technologies are implemented into the next generation and future undersea vehicles and platforms. NIUVT combines the talents, equipment, facilities, and experience of its partners to align resources from across sectors for the benefit of national security and economic imperatives. Through its activities, NIUVT will develop the personnel and knowledge needed to accelerate critical research and enhance U.S. superiority in the manned and unmanned undersea domain.
Project Daedalus – Air Force Advanced Manufacturing Initiative
Est. August 2018
Project Daedalus is an ongoing collaboration supported by the Air Force Research Laboratory, with industry partners Pratt & Whitney, Aero Gear, GKN Aerospace, Collins Aerospace and Sikorsky. This effort leverages UConn expertise in machining, casting, heat treating, composites, ceramics, additive manufacturing, state-of-the-art sensing, uncertainty quantification, multiscale modeling, and systems engineering. Our mission is to provide transformative capabilities on manufacturing technologies to the AFRL, OEMs and supply chain to reduce scrap rates and increase yield/performance.
UConn DENSsolutions Center for IN-siTu/Operando Electron Microscopy (InToEM)
Est. May 2019
The IN-siTu/Operando Electron Microscopy (InToEM) center is a partnership between UConn and DENSsolutions, an international leading supplier of state-of-the-art MEMS-based In Situ systems. These advanced systems bring stimuli like heating, biasing, gas and liquid into transmission electron microscopes. The InToEM center leverages these technologies to transform transmission electron microscopes from an imaging instrument into a comprehensive research laboratory, at the frontier of materials dynamics research. These new in-situ/operando microscopy capabilities provide promising potential for transformative research in nanomaterials synthesis, heterogeneous catalysis, corrosion and alloy degradation, fuel cells and many other important material systems to our every life.
Center for Materials Processing Data (CMPD)
Est. October 2019
The Center for Materials Processing Data (CMPD) is a research center dedicated to producing and collecting pre-competitive transient material property data used in materials process simulations. It is a multi-university consortium with industry founded by academic members from UConn, Worcester Polytechnic Institute (WPI), and the Research Foundation for the State University of New York on behalf of the University at Buffalo (RF), along with ASM International, a non-profit materials science and engineering society (ASM). CMPD is dedicated to the stewardship of materials data for modeling of materials and process design via integrated computational materials engineering. CMPD will serve the needs of the membership organizations by educating future leaders of the industry and disseminating experimentally obtained and verified data to industry.