As global energy storage demand grows, the need for safer, more powerful, and longer-lasting batteries is rising. The key to battery performance, safety, and longevity lies in the materials used. From ...

A Johns Hopkins materials science and engineering professor is leading a multi-university team of researchers with a mission to expedite the process by which new and important materials are created ...

Traditionally, analyzing materials involved techniques tailored for specific scales, which made integrating data from these different methods quite challenging. However, recent advancements in ...

What is Electron Energy Loss Spectroscopy? Electron energy loss spectroscopy (EELS) is a powerful analytical technique used to study the chemical composition, electronic structure, and local bonding ...

Nanomaterials are used in various fields due to their distinct size-dependent properties, and accurate characterization is essential to optimize and design them for specific applications. 1 For ...

The objective of this course is to develop broad knowledge of the most commonly used techniques for characterizing soft and hard materials, with a strong focus on microscopy techniques. This is a ...

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 ...

Materials science and engineering continues to advance through research at the intersection of chemistry, physics, biology, and engineering. This ...

Πάντα ῥεῖ, 'everything flows' (attributed to Heraclitus). Processing and applications of materials, from food to plastics, involve fluid flows with complex characteristics. Rheology finds the answers ...

In-situ atomic imaging captures how MoS2 moves from disordered clusters to ordered 2D crystals, pointing toward growth ...