Read the latest news about research conducted by investigators in the College of Earth and Mineral Sciences. Our faculty and students are continually advancing technology, creating solutions and expanding knowledge with new and innovative research.
A fast, non-destructive test for two-dimensional materials
Thinning a material down to a single-atom thickness can dramatically change that material's physical properties. For example, graphene, the best-known 2D material, has unparalleled strength and electrical conductivity, unlike its bulk form, graphite. Researchers have begun to study hundreds of other 2D materials for the purposes of electronics, sensing, early cancer diagnosis, water desalination and a host of other applications. Now, a team of Penn State researchers in the Department of Physics and the Center for Two-Dimensional and Layered Materials (2DLM) has developed a fast, nondestructive optical method for analyzing defects in 2D materials.
Outstanding faculty and students honored at annual College of EMS awards banquet
The possibilities for the new field of two-dimensional, one-atomic-layer-thick materials, including but not limited to graphene, appear almost limitless. In new research, Penn State material scientists report two discoveries that will provide a simple and effective way to "stencil" high-quality 2D materials in precise locations and overcome a barrier to their use in next-generation electronics.
Stenciling with atoms in two-dimensional materials possible
The possibilities for the new field of two-dimensional, one-atomic-layer-thick materials, including but not limited to graphene, appear almost limitless. In new research, Penn State material scientists report two discoveries that will provide a simple and effective way to "stencil" high-quality 2D materials in precise locations and overcome a barrier to their use in next-generation electronics.
Recent Penn State graduates earn wings in airborne research project
Two recent Penn State graduates are taking part in the $30 million, NASA-funded Atmospheric Carbon and Transport-America. The project is led by Penn State professor Ken Davis.
Measuring 'rhythms of Penn State' gives students preview of earthquake science
A simple electronic device found in nearly every smartphone today is helping students learn about the science of earthquakes in one general education geosciences course, GEOSC 109, Earthquakes and Society. Taught by Charles Ammon, professor of geosciences, the course was designed to give students insight into how geoscientists understand earthquakes — and, more generally, what's involved in conducting science.