Modern polymer materials face a fundamental challenge: they must remain strong and durable during use, yet ideally degrade ...

Such low overpotential values place them among highly competitive catalysts, potentially reducing the cost and energy intensity of hydrogen production.

As electronics demand higher energy density, one component has proved challenging to shrink: the capacitor. Making a smaller ...

The words on this page mean something because they are assembled in a particular order and follow the complex rules of ...

Polymeric materials exhibit a rich array of mechanical behaviours that are intimately linked to their microstructure and processing history. At their core, properties such as elasticity, yield ...

Modern portable and wearable electronic devices increasingly integrate high-performance components and wireless communication technologies. While this integration enhances functionality, it also ...

Go from analyzing thermomechanical properties to using that data to design new kinds of polymeric materials, including next gen self-healing polymers. First learn the basics of thermal analysis with ...

When designing polymers to achieve desired characteristics, such as toughness, elasticity, and resilience, you must not only consider the type of polymer, but also the mechanics of its macromolecular ...

Two teams are exploring scaling up processes that could tackle the 800,000 tonnes of glove waste created every year ...

Climate change, population growth, conflict and humanitarian crises are putting increasing pressure on the world's water ...