Revising climate models with new CSU field data
Aerosol particles play a large role in how much heat is absorbed or deflected by the atmosphere. Understanding how long they stay aloft can improve both human health and global climate modeling.
Aerosol particles play a large role in how much heat is absorbed or deflected by the atmosphere. Understanding how long they stay aloft can improve both human health and global climate modeling.
Mariel Price received the Graduate Women in Science Fellowship to aid in research toward transforming plastics using light-driven methods
The first such professorship within the department, the endowment provides research operations funds for an incoming faculty member.
New experiments and computational models reveal in single-molecule detail how viruses initiate translation of genetic material into proteins.
While SACNAS was initially meant to bring representation to a few minority groups, it has evolved to become inclusive of all minoritized groups in STEM.
Making the in-demand drug remdesivir is costly, inefficient and can be hazardous. Garret Miyake's lab has a “radical” technology that might be able to streamline the process.
Student success in precalculus math has long been the mission of the PACe center (Paced Algebra to Calculus electronically.) Now, with a new name – the Precalculus Center – an updated physical space, and programming built on the latest research in the science of learning, this mission will continue with full force.
Ross Beveridge, a professor in the Department of Computer Sciences, will focus on bringing sight capabilities to AI partners for application in K-12 education.
Ozone layer researchers identify potential steps for the further success of a three-decade long treaty, the Montreal Protocol.
CSU researchers built an artificial drought to explore the "Dust Bowl paradox."