For a long time, finding new materials felt a bit like being a lone artisan. You’d spend ages tinkering, trying things out ...

The top image shows the forces generated by an external magnetic field on particles embedded in the material. These interactions are simulated by a computational model that is able to guide the ...

Responsive polymers and smart materials adapt to stimuli, providing solutions to drug delivery, tissue engineering, and even ...

Over the past few decades, food packaging markets have captured the attention of researchers due to their direct impact on human health. Both metallic and nonmetallic materials find use in the food ...

Machine-learning models can speed up the discovery of new materials by making predictions and suggesting experiments. But most models today only consider a few specific types of data or variables.

Smart or intelligent materials possess unique capabilities, such as self-adaptability, memory, self-sensing, and multi-functionality, making them attractive across many industries, including aerospace ...