An international collaboration that includes a College of Science astrophysicist has identified a phenomenon, likened to the quick-footed movements of an iconic cartoon predator, that proves a 19-year-old theory regarding how solar flares are created.
Algal physiologist James Fox is a co-investigator on a $1 million study examining the impact of adding seaweed to the diets of beef cattle as a way to reduce greenhouse gas emissions.
As the world held its breath, Oregon State alumnus Steve Bjornson waited for results. The VP and COO of Pfizer’s vaccine research and development organization, he successfully led a team of hundreds of scientists in an unprecedented effort to develop a COVID-19 vaccine.
The College of Science is proud to announce that Xavier Siemens, a distinguished astrophysicist and renowned leader in the field of gravitational wave research, has been elected a 2024 Fellow of the American Physical Society.
In the pursuit of large-scale, reliable, safe, environmentally sustainable and affordable electricity storage, chemist Xiulei “David” Ji is part of a collaborative, interdisciplinary team funded by the U.S. Department of Energy.
Faculty, staff and graduate students from the College of Science won nine awards at University Day, the celebratory kickoff to the academic year featuring an annual awards ceremony. These awards highlight excellence in teaching, advising, research and diversity advocacy, showing the College as a leader across the university.
Physicist Ethan Minot and his laboratory are unlocking the potential of quantum materials to revolutionize technology. Their groundbreaking research is not only pushing the boundaries of science but also paving the way for student careers in the tech industry.
Researchers from the College of Science, including graduate students, have developed a material that shows a remarkable ability to convert sunlight and water into clean energy.
For billions of years, all life on Earth, from tadpoles to humans, have relied on the same 20 amino acids to build proteins — the fundamental building blocks of life. But what if that list of fundamental amino acids was expanded to include any chemical ability of our choosing? What new potential could be unlocked?
Cities are like organisms — they need immune systems. Viruses can reproduce rapidly, taking over cells and turning them into viral factories within hours. Individuals' immune systems need to rise to the challenge, but what happens when they can't, and a whole population gets sick?
