News Release 21-015
EPSCoR jurisdictions receive NSF investment to build R&D capacity and education
September 17, 2021
The U.S. National Science Foundation has invested nearly $40 million in nine projects that fund collaborative networks, spanning a total of 20 institutions in 15 jurisdictions, through NSF's Established Program to Stimulate Competitive Research RII Track-2. EPSCoR is designed to build research and development capacity in states that demonstrate a commitment to research but have not received the levels of investment seen in other parts of the country. These grants focus on building interjurisdictional collaborative teams of investigators in scientific focus areas consistent with NSF and national priorities.
This year’s projects were focused on “Advancing research towards Industries of the Future to ensure economic growth for EPSCoR jurisdictions.” These projects will integrate researchers across EPSCoR jurisdictions to combine expertise for a sustained, effective research and education partnership.
"EPSCoR is exemplary of federal-state-private sector partnerships for catalyzing research and education opportunities,” said NSF director Sethuraman Panchanathan. “These projects advance curiosity-driven research and focus on important issues such as STEM education and career opportunities in their communities by establishing regional partnerships with higher education and industry.”
The EPSCoR program is designed to fulfill NSF's mission to promote scientific progress nationwide. Currently, 25 states, the Commonwealth of Puerto Rico, the U.S. Virgin Islands and Guam are eligible to compete for EPSCoR investments. Through this program, NSF establishes strategic partnerships with state and federal government, institutions of higher education and private industries to create long-term improvements in scientific research, infrastructures, research and development capacity and national competitiveness.
An overarching goal of the new projects is to promote productive, balanced collaborations across multiple jurisdictions that are sustainable and competitive in their scientific fields and thus contribute greatly to the U.S. scientific enterprise.
The institutions and a summary of each award are provided below.
- KANSAS, Advanced Manufacturing of Renewable and Recyclable Polymers - The team from the University of Kansas, University of Delaware and Pittsburg State University aims to develop processes to transform biomass feedstocks into commercially relevant plastic materials and deconstruct recycled plastics efficiently into precursors for reuse. This project focuses on establishing a partnership to develop the knowledge base needed to transition from non-renewable plastics to renewable and recyclable bio-based polymers.
- IOWA, Critical Resource Availability for the Future of the Renewable Energy Industry: Critical Minerals and Ground Water Resources in Iowa and Kansas - The team from the University of Iowa and the University of Kansas aim to form a consortium that will focus on critical mineral, particularly rare earth elements, and groundwater resources for the renewable energy industry in both states. This project will produce data and resources that support private sector growth by providing the technical capacity and information required for sustainable growth and development of the renewable energy sector in both jurisdictions.
- HAWAI’I, Genome Engineering to Sustain Crop Improvement (GETSCI) - The team from the University of Hawai'i and Iowa State University intends to address the problem of decreasing genetic diversity in maize by taking advantage of new germplasm present in tropical lines. Their goals are to establish a rapid and efficient genetic transformation platform and to develop improved genome editing tools to reprogram the flowering behavior of high-yielding tropical maize lines, allowing their incorporation into any maize breeding program. Both states will gain a valuable new capability in genetic transformation and genome engineering which will transform the types of crop research possible at both institutions.
- VERMONT, Advancing Research Towards Industries of the Future to Ensure Economic Growth for EPSCoR Jurisdictions - Advanced Wireless - Integration with Infrastructure System - The team from the University of Vermont, Vermont Technical College and the University of Maine will seek to integrate advanced wireless systems with infrastructure using the "Internet of Things" and microrobots in order to transform the construction, maintenance and use of engineered infrastructure. Their goal is to develop the use cases into engineering infrastructure testbeds that support research and implementation of advanced wireless methods. They will also support workforce development and outreach that integrates stakeholders, students at K-12 up through postdoc levels, and junior faculty.
- SOUTH CAROLINA, Enabling Factory to Factory (F2F) Networking for Future Manufacturing – The team from the University of South Carolina and West Virginia University focuses on developing cyberinfrastructure to support advanced manufacturing and enable data exchange across the manufacturing ecosystem to increase operational efficiency. This project will adapt, enhance and integrate informational technologies and operational technologies such as real-time secured sensing, high performance computing, wireless communications and artificial intelligence to support process optimization among distributed smart manufacturing systems for factory-to-factory networking.
- Tri-state Research Institute of Manufacturing for Managing CO2 (TRIMMing CO2) - The team from the University of Louisiana at Lafayette, The University of New Mexico, New Mexico State University and West Virginia University will focus on the development of innovative manufacturing processes to advance carbon capture and utilization. The team expect to develop three cutting-edge technologies that will capture CO2 while producing electricity, utilize CO2 while storing electric energy, and convert CO2 to high-value chemicals.
- Fundamental Insights into the Durability and Efficiencies of CO2 Electrolyzers - The team from Louisiana State University and the University of Delaware will focus on sustainable chemical manufacturing that could potentially advance the manufacture of carbon products in a more consciously environmental manner. They seek to understand critical parameters that control durability and efficiencies of CO2 electrolyzers, including the underlying science that governs failures. This project will advance electrolytic production of ethanol and ethylene from CO2 and H2O.
- IDAHO, Developing a Circular Bio-based Framework for Architecture, Engineering and Construction Through Additive Manufacturing - The team from the University of Idaho and Auburn University in Alabama aim to develop new bio-based resins that can be used as an additive material for construction materials.
- NORTH DAKOTA, Artificial Intelligence on Sustainable Energy Infrastructure Network (AI SUSTEIN) and Beyond towards Industries of the Future - The team from North Dakota State University, Nueta Hidatsa Sahnish College, the University of Arkansas Fayetteville and the University of Nevada, Las Vegas aims to develop a collaborative research and workforce development and education program for investigating the potential impact of artificial intelligence on critical industries and infrastructures related to energy networks.
Related to the EPSCoR program, NSF also awarded nearly $10 million in supplemental funding to 19 existing RII Track-2 awards to support individuals and institutions that are adversely affected by the COVID-19 pandemic. The supplements are specifically focused on further building networks by providing support to broaden the engagement of researchers from minority-serving institutions. Through this funding, NSF EPSCoR offers opportunities that can help bolster early-career researchers, students and others in the science and engineering enterprise in EPSCoR jurisdictions whose research and research training activities may have been impacted by the pandemic.
Media Affairs, NSF, (703) 292-4439, email: email@example.com
The U.S. National Science Foundation propels the nation forward by advancing fundamental research in all fields of science and engineering. NSF supports research and people by providing facilities, instruments and funding to support their ingenuity and sustain the U.S. as a global leader in research and innovation. With a fiscal year 2021 budget of $8.5 billion, NSF funds reach all 50 states through grants to nearly 2,000 colleges, universities and institutions. Each year, NSF receives more than 40,000 competitive proposals and makes about 11,000 new awards. Those awards include support for cooperative research with industry, Arctic and Antarctic research and operations, and U.S. participation in international scientific efforts.