The Department of Materials Science and Engineering at Penn State is an international leader in materials education and research. As a top-ranked program, the department thrives on a rich collaboration between faculty, staff, students, and researchers to promote a well-rounded academic experience and innovative research opportunities. Our department offers ABET accredited degree programs at both the undergraduate and graduate levels. View the information below to learn more.
Penn State is the largest Materials Research Institution in the United States. Its faculty and research centers are world renowned for contributing breakthrough research in their respective fields. Anchored by the renovation of its state-of-the-art Steidle Building, the Department of Materials Science and Engineering includes laboratories devoted to computational research, material processing, and characterization, in addition to outstanding spaces for meetings, group work and information interactions.
Steidle Building added another honor to its arsenal after the Master Builders' Association (MBA) of Western Pennsylvania awarded it a 2017 Building Excellence Award in the category of Renovation Construction over $10 million.
A new understanding of why synthetic 2-D materials often perform orders of magnitude worse than predicted was reached by teams of researchers led by Penn State. They searched for ways to improve these materials' performance in future electronics, photonics, and memory storage applications.
The 2017-18 Institutes of Energy and the Environment (IEE) seed grant recipients have recently been awarded to 16 groups of interdisciplinary researchers at Penn State. This year nearly $350,000 have been awarded to more than 40 researchers in five colleges at University Park as well as at four campuses.
Since the discovery of the remarkable properties of graphene, scientists have increasingly focused research on the many other two-dimensional materials possible, both those found in nature and those concocted in the lab. However, growing high-quality, crystalline 2-D materials at scale has proven a significant challenge.
Medical devices powered by synthetic proteins created from repeated sequences of proteins may be possible, according to materials science and biotechnology experts, who looked at material inspired by the proteins in squid ring teeth.