A chemical engineer is being recognized for his achievements in changing the way scientists approach complex molecular systems through multiscale modeling. UC Santa Barbara chemical engineering ...

A new study published in AI Materials presents a comprehensive multi-scale computational framework capable of predicting the ...

The advancement of heterogeneous catalysis is limited by our understanding of the synergy between the different components of a reaction in progress. Multiscale modelling promises to address the need ...

Surface modification of micro-nanoparticles at the atomic and close-to-atomic scales is of great importance to their applications in a variety of fields, such as energy storage, catalysis, sensors, ...

A UC Santa Barbara chemical engineer is being recognized for his achievements in changing the way scientists approach complex molecular systems through multiscale modeling. Professor M. Scott Shell ...

As product development teams face increasingly complex challenges — including the need for greater sustainability — there’s a growing awareness of the critical contributions made by materials. Many of ...

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

Computational modeling is used to simulate and study complex systems using computer science, physics, and mathematics. Numerous variables are programmed into the computational model to characterize ...

The main purpose of this new Coordinated Research Project (CRP) is to support interested IAEA Member States in their efforts to enhance advanced modelling / simulation of TRISO fuel performance, ...