Advancing Materials Research for a Better Future
Explore the World of Materials Research
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Research
MRSECs lead cutting-edge research in materials science, pushing the boundaries of innovation. Our interdisciplinary teams explore new materials and phenomena to address global challenges in technology, energy, and sustainability. -
Education
Our education initiatives foster the next generation of scientists and engineers. Through hands-on learning, outreach programs, and academic partnerships, we empower students at all levels to excel in materials science and related fields. -
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Industry
We bridge the gap between academia and industry by collaborating with leading companies to translate our research into real-world applications. Our industry partnerships drive innovation and contribute to economic growth through the development of new materials and technologies. -
Collaboration
MRSECs foster collaboration between academia and industry, enabling interdisciplinary teams to address complex materials challenges. They strengthen knowledge transfer, build partnerships across institutions and sectors, and encourage international cooperation to advance materials research and education.
UTK-MRSEC’s PI Elected as a New SHUG Executive Committee Member
Yishu Wang has been elected as one of three new general members to the SNS-HFIR User Group (SHUG) Executive Committee (EC) starting January 1, 2026. SHUG consists of all persons interested in using the neutron scattering facilities at Oak Ridge. It provides input to the management on user concerns, provides a forum for keeping the entire community informed of issues and progress at these facilities, and serves as an advocacy group for neutron scattering science at these facilities.
Spray-on Antibacterial Coating Offers New Protection for Plants Against Disease and Drought
By Liezel Labios/UC San Diego
Engineers at the University of California San Diego have developed a spray-on polymer coating that could help plants resist harmful bacterial infections and survive drought. The advance, published in ACS Materials Letters, could help strengthen global food security as increased environmental stresses continue to intensify plant disease pressures.
Pushing the Limits of Ionic Control of Materials: University of Minnesota’s MRSEC Makes Breakthroughs in Electrolyte Gating
By MRSEC Web Team
Unlocking the Potential of Bottlebrush Polymers: A New Frontier in Self-Assembly
By Divya Abhat
In the world of materials science, researchers are constantly seeking new ways to create more efficient, durable, and adaptable materials. One promising avenue is the study of bottlebrush block polymers, a unique class of macromolecules that self-assemble into intricate nanostructures. Researchers at the University of Minnesota have been at the forefront of this research, uncovering new possibilities for these polymers and their applications.
