A novel method developed in Professor Ted Sargent’s lab addresses perovskite solar cell durability challenges, bringing the ...

Research from Professor Daniel Abrams highlights the different ways that in-person events foster community building and ...

New research from the Center for Physical Genomics and Engineering uncovers how 3D genome structures generate cellular memories, paving the way for advances in medicine and longevity through cellular ...

This course will provide the students with an in-depth study of plastic deformation and fracture of materials. With emphasis on structure/properties relations. The role of imperfections, state of ...

This course provides and overview of solid state physics including free electron theory, phonons, energy bands, charge transport, semiconductors, optical properties, dielectric properties, ...

For the best chance of admission, ALL application materials should be submitted before recommended submission deadline. We will review all applications received before the recommended deadline and ...

Example-oriented survey of nonlinear dynamical systems, including chaos. Combines numerical exploration of differential equations describing physical problems with analytic methods and geometric ...

Finite Element Methods for solving problems with material and geometric nonlinearities; transient dynamics analysis with explicit and implicit time integration, partitioned methods, and stability; ...

The success of the MBP depends upon the collaboration of a diverse team of faculty. MBP instructors create a supportive yet challenging environment for their students, one that engages their cognitive ...

Applications of ceramic materials, with emphasis on structure (bond, crystal, glass, defect, micro-); properties (thermal, electrical, optical, magnetic, mechanical ...