A pivotal Oregon State chemistry project – funded by a $493K grant from the M.J. Murdock Charitable Trust – will create a distinctive collaboration center for academic and industrial researchers that will bring synthetic chemistry into the digital age.
The College of Science awarded two interdisciplinary teams funding to pursue promising leads in mental health and cancer research. One team will investigate the role of the gut-brain axis on sex differences in anxiety, and another will explore ways to develop an synthetic version of HHT-- a rare plant alkaloid that is showing great promise in the development of new medicines for multiple forms of cancer.
Five faculty and scholars from the College of Science are among this year’s award recipients at University Day, OSU’s most prestigious annual awards for research mentoring, scholarship, teamwork, teaching and service.
The vibrant blue discovered by Oregon State University researcher Mas Subramanian has cleared its final regulatory hurdle: The Environmental Protection Agency has approved its use for commercial purposes, including in paint for the artists who have long coveted it.
An international research collaboration, led by Kyriakos Stylianou, an assistant professor of chemistry at Oregon State University, has taken an important step toward the commercially viable manufacture of biobutanol, an alcohol whose strong potential as a fuel for gasoline-powered engines could pave the path away from fossil fuels. The researchers are now looking to partner with industry to try to scale up the separation method using the new metal organic framework, says Stylianou, the study’s corresponding author. If it scales well, it could be an important milestone on the road toward non-reliance on fossil fuels.
Mas Subramanian, distinguished professor of chemistry at Oregon State University, has received a special $200,000 grant from the National Science Foundation to pursue the holy grail of color research: an inorganic red pigment that’s vivid, safe and durable.
How are devastating plant diseases spread? Is there a better way to predict HIV prevalence in a city? How can we detect toxic algae blooms before they occur? And which of the thousands of metal-organic frameworks can be used for storing and separating gases, like CO2 from industrial plants? Four faculty members received College of Science Research and Innovation Seed (SciRIS-II) awards this February to pursue answers to these questions over the course of the next year.
The Science Research and Innovation Seed awards were given to four multidisciplinary research teams working on cancer diagnostics and materials science.