Your second and third years have distinctive course requirements and electives. Here we can compare four related majors through select second and third year courses. MSE 2110 - Introduction to ...

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

The global modern industry is a massive operation that works on a scale almost impossible to comprehend. At every stage, it ...

Floquet control uses time-periodic drives to engineer quantum systems, creating dynamic changes in material properties ...

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 ...

A breakthrough development in nanofabrication could help support the development of new wireless, flexible, high-performance transparent electronic devices. Researchers from the University of ...

As product development teams face increasingly complex challenges — including the need for greater sustainability — there’s a growing awareness of the critical contributions made by materials. Many of ...

Materials engineering is a multidisciplinary field that integrates principles of chemistry, physics and engineering to design, process and characterise materials for advanced applications. The field ...

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 ...