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 ...

In this interview, Robert Bellinger, Product Applications Manager from Evident talks to AZoM about the Smart Experiment Manager software that was designed as an add-on feature to guide users through ...

From ultra-sensitive sensors to shape-shifting implants, stimuli-responsive smart materials react reversibly to heat, light, stress, or pH. They could transform devices and therapies once issues in ...

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.

A new leap in lab automation is shaking up how scientists discover materials. By switching from slow, traditional methods to real-time, dynamic chemical experiments, researchers have created a ...

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 ...