The U.S. National Science Foundation is investing approximately $30 million in institutions across Montana, Idaho and Louisiana to establish NSF EPSCoR Centers of Research Excellence in Science and Technology (NSF EPSCoR CREST Centers). These centers aim to expand STEM knowledge, enhance research productivity and attract more students from those regions into STEM fields.

Montana

Montana Technological University will establish the Center for Energy Technologies, a research hub focusing on energy systems. The researchers aim to develop tools that can be deployed locally to convert biomass, like beetle-killed trees, into biochar and renewable energy, such as heat and electricity.

Idaho

Boise State University will launch the Center for Advancing Workforce Experience through Semiconductors, Outreach, and Mentoring Excellence. The center aims to transform education at the university by integrating semiconductor science into classroom experiences.

Louisiana

Louisiana State University (LSU) Health Sciences Center New Orleans will establish the Center for Adaptive Nanomotor Development, combining nanomotor research with workforce development to encourage the development of critical technologies in molecular design, energy transduction and motor proteins.

Additionally, LSU Health Sciences Center Shreveport will establish the Center for Post-Transcriptional Regulation — an innovative, interdisciplinary research center focusing on how cells regulate metabolism through post-transcriptional processes. The work will explore the role of RNA molecules and protein modifications in metabolic control, potentially paving the way for biotechnological innovations and translational applications.

“These new centers are an important way to

The U.S. National Science Foundation and United Kingdom Research and Innovation (UKRI) are investing in eight joint research projects that could open the door to breakthroughs in quantum computing, ultra-precise navigation and secure communications. The effort is supported by $4.7 million from NSF and £4.2 million from UKRI’s Engineering and Physical Sciences Research Council (EPSRC). Each project brings together U.S. and U.K. researchers to tackle an underexplored area in science: how quantum information affects chemical reactions and molecular systems, and how that knowledge can be put to use.

By harnessing the inherent complexity of chemical systems, the teams aim to surpass today’s quantum technologies, which primarily rely on atoms and photons. The partnership underscores the growing international momentum in quantum research, with the potential to create new and different types of molecular-based qubits and other fundamental components useful for quantum computing, quantum sensing and quantum communications.

“Through a dynamic partnership, the U.S. National Science Foundation and UKRI are uniting top researchers to unravel the mysteries of quantum in chemical systems,” said White House Office of Science and Technology Policy Director Michael Kratsios. “Building upon the President’s U.S.-UK Technology Prosperity Deal, this visionary partnership will reshape our knowledge of quantum mechanics and open new frontiers in quantum computing, sensing, and communicating.”

“By supporting bold, collaborative science, this partnership lays the foundation for advances that can transform