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Scientists used iridium hydride catalysts photoactivated by blue light, which ultimately synthesized ammonia - all at room temperature.
Researchers found that defects in two-dimensional transition metal dichalcogenides contained the atomic properties conducive to make qubits.
Recent research demonstrates how a new class of polymers can produce small, precise patterns on the nanometer scale.
Students tackle real-world cybersecurity and learn more about the work performed at national laboratories.
Scientists found a new way to “see” inside the simplest atomic nuclei to better understand the “glue” that holds building blocks of matter together.
The nation’s path toward a clean energy future, environmental sustainability, and U.S. competitiveness and national security depends on discovery science.
Xipeng Shen is accelerating supercomputing results and obtaining finer-grained, more accurate scientific simulations.
After discovering a groundbreaking way to create an elastic light-emitting polymer, engineers developed high-brightness, stretchy color displays.
LLE Director Michael Campbell joined stakeholders to discuss the development and commercialization of fusion as a safe, clean, reliable energy source.
Researchers at MIT have developed a technique for making quantum computing more resilient to noise, which boosts performance.