Materials engineering involves the development, production, modification, and application of engineering materials to meet the specific needs of society. It is based on an understanding of the ...

Associate Dean for Academic Affairs and Graduate Programs and Professor This email address is being protected from spambots. You need JavaScript enabled to view it. B ...

Editor’s note: First-year students, prospective students (and some of their parents) wonder and worry how they will handle the academic transition from high school to college. In a series of stories, ...

AI is on track to more than double datacenter electricity demands by 2030. If we want large-scale intelligence and a livable planet, every tera-operation of compute must consume far fewer joules. For ...

The undergraduate minor in materials science and engineering provides students with a foundation of engineering, science and mathematics to address challenges that impact public health, safety and ...

Researchers have revisited a long-known material and uncovered a way to dramatically enhance its performance by altering its structure at the nanoscale.

Materials engineers work with metals, ceramics, polymers, semiconductors and composites to improve existing materials, develop new ones, and solve engineering challenges in industries like ...

Materials engineering spans the design, synthesis and deployment of substances whose structures and interfaces are tailored to specific functions. From atomic-scale lattice control in advanced ...

Materials engineers are at the forefront of nanotechnology, biomaterials and microelectronics, as well as traditional technical fields. A degree in this discipline equips you to analyze the structure ...

Composites is an emerging field of high-performance materials that are increasingly being used in many applications throughout society, including aerospace, marine (boats), infrastructure (bridge ...