NASA’s Transformational Tools and Technologies project integrates AI, advanced materials, and computational methods to ...

Found in knee replacements and bone plates, aircraft components, and catalytic converters, the exceptionally strong metals known as multiple principal element alloys (MPEA) are about to get even ...

You’ll tackle projects in computational materials design (from high-throughput modeling and phase-diagram simulations to training machine-learning models on experimental signals such as UV–Vis/IR) ...

Professor Toshiaki Taniike is pioneering the integration of data science and materials chemistry to accelerate the discovery of advanced materials. His research in materials informatics uses machine ...

The successful implementation of the specialized iQCC algorithm on a single NVIDIA Blackwell GPU establishes a new standard ...

Materials informatics sits at the intersection of experimental science, computation, and data analytics. The aim is simple: use data and models to make discovering, designing, and deploying new ...

Predictive modeling and atomic-scale control are reducing development time for advanced materials, also increasing precision, functionality, and efficiency.

This Research Topic is organized in collaboration with the Second Workshop Peptides in Biology and Materials: Bridging Simulation and Experimental Data, ...

In November, architects, designers, digital fabricators, and innovators gathered in Calgary, Canada, for the 2024 Association for Computer Aided Design in Architecture (ACADIA) conference. This year’s ...