RSS feed source: National Science Foundation

The U.S. National Science Foundation, in partnership with Capital One and Intel, today announced a $100 million investment to support five National Artificial Intelligence Research Institutes and a central community hub. These institutes will drive breakthroughs in high-impact areas such as mental health, materials discovery, science, technology, engineering and mathematics education, human-AI collaboration and drug development.

This public-private investment aligns with the White House AI Action Plan, a national initiative to sustain and enhance America’s global AI dominance.

“Artificial intelligence is key to strengthening our workforce and boosting U.S. competitiveness,” said Brian Stone, performing the duties of the NSF director. “Through the National AI Research Institutes, we are turning cutting-edge ideas and research into real-world solutions and preparing Americans to lead in the technologies and jobs of the future.”

While headlines often focus on the newest chatbot, AI is quietly powering advances across nearly every sector, helping doctors detect diseases, enabling smarter manufacturing and supporting resilient agriculture and financial security. The AI Institutes are designed to translate cutting-edge research into scalable, practical solutions that improve lives.

The institutes will also help build a national infrastructure for AI education and workforce development, training the next generation of researchers and practitioners, empowering educators and reaching into communities.

This effort directly supports the goals outlined in Executive Order 14277, “Advancing Artificial Intelligence Education for American Youth,” which calls for expanding

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RSS feed source: National Science Foundation

Researchers are exploring AI-powered digital twins as a game-changing tool to accelerate the clean energy transition. These digital models simulate and optimize real-world energy systems like wind, solar, geothermal, hydro, and biomass. But while they hold immense promise for improving efficiency and sustainability, the technology is still riddled with challenges—from environmental variability and degraded equipment modeling to data scarcity and complex biological processes.

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RSS feed source: National Science Foundation

On July 10, 2025, NSF issued an Important Notice providing updates to the agency’s research security policies, including a research security training requirement, Malign Foreign Talent Recruitment Program annual certification requirement, prohibition on Confucius institutes and an updated FFDR reporting and submission timeline.

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Scientists have cracked open a mysterious layer inside batteries, using cutting-edge 3D atomic force microscopy to capture the dynamic molecular structures at their solid-liquid interfaces. These once-invisible electrical double layers (EDLs) twist, break, and reform in response to surface irregularities phenomena never seen before in real-world battery systems. The findings don t just refine our understanding of how batteries work at the microscopic level they could fundamentally change how we build and design next-generation energy storage.

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