An introductory course focused on the new and existing materials that are crucial for mitigating worldwide anthropogenic CO2 emissions and associated greenhouse gases. Emphasis will be placed on how ...

The development of next-generation metallic materials is entering a transformative era driven by data-driven methodologies. Traditional trial-and-error ...

The study of elasticity and constitutive relations forms a cornerstone in materials science, providing essential insights into how materials respond under various loading conditions. This domain ...

Depth profiling techniques constitute a fundamental analytical approach in material science, enabling researchers to characterise the composition, structure and interfacial properties of complex ...

The field of soft electronics has seen remarkable progress, with conductive hydrogels standing out as pivotal materials for stretchable electronic devices.

For a long time, material development has focused on enhancing performance and reducing costs. Efforts have been directed toward making products lighter, tougher, better insulated, more beautiful, ...

New research fills a longstanding gap in carbon material science, potentially opening brand-new possibilities for electronics, optics and semiconducting material research. For over a decade, ...

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 ...

Materials are a necessity for all engineering applications. Materials science and engineering seeks to understand the fundamental physical origins of material behavior in order to optimize properties ...

Since establishment as the world’s first materials science academic department, Northwestern Engineering has led and defined the frontier of material research, enabling transformative technologies ...