Although time is an enemy for some, Janet Tate used it to leave a lasting mark on physics curriculum, students, and the field of thin-film semiconductors, earning her the 2024 Lifetime Achievement in Science Award from the College of Science.
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.
The American Chemical Society has announced that Mas Subramanian, a university distinguished professor of chemistry and Milton Harris chair of materials science, will receive the 2025 American Chemical Society National Award in Inorganic Chemistry.
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?
Wei Kong enjoys taking the road less traveled, and she is not timid in making bold decisions to get oriented and reoriented. On May 13, 2024, she will present the 2024 F.A. Gilfillan Memorial Lecture, titled “Which way up: Using field orientation to see the unseen.”
Mas Subramanian made color history in 2009 with a vivid blue pigment and has developed durable, reddish magentas inspired by lunar mineralogy and ancient Egyptian chemistry.
Scientists led by an Oregon State University chemistry researcher are closing in on a new tool for tackling the global problem of weedkiller-tainted groundwater.
Kyriakos Stylianou of the OSU College of Science led an international team that identified a material known as a metal-organic framework, or MOF, that showed an ability to completely remove, and also break down, the oft-used herbicide glyphosate.
Thanks to the efforts of College of Science faculty, nearly 800 Oregon State students can now cross expensive anatomy textbooks off their to-buy list each year. Incredibly, so can the rest of the world.
One project keeps chemist Wei Kong awake at night, and it started as an idea nearly two decades ago. Now, after being awarded nearly $2 million for four years by the National Institutes of Health, the goal is to create a groundbreaking new tool with the potential to revolutionize drug development and enhance our understanding of disease mechanisms.
