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, ...

From creating lightweight yet durable prosthetics to designing new types of solar panels and batteries, materials engineers combine their expertise in physics, chemistry, biology, and engineering to ...

Now is an exciting time to be a materials engineer—almost every technology we rely on in the modern world relies on materials, whether automotive, biomedical, electronic, or those related to energy ...

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 ...

The field of regenerative medicine is entering an era of unprecedented convergence, bringing together intelligent biomaterials, biomedical hydrogels, and ...

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

Material science and engineering involves the design and discovery of novel materials. This discipline integrates the work of chemistry, physics, engineering with ceramics, metallurgy, nanotechnology, ...

Choose one of three program options that best suits your needs: accelerated MS, professional MS or research MS. In the one-year accelerated program, you’ll focus on data science and analytics—other in ...

Meet NASA Materials Engineer, Erick Ordoñez. Meet Materials Engineer, Erick Ordoñez. NASA materials engineer Erick Ordoñez explains how he makes sure that the materials NASA sends into space are ...