Photoactivated ketones show strong potential as hydrogen atom transfer photocatalysts, enabling the activation of carboxylic ...

A new recipe, or design guidelines, for a self-strengthening muscle-like hydrogel has been developed through strategic integration of computational, information, and experimental research. The ...

Quantum computing has the potential to solve intricate problems at an exponential rate compared to classical computing, opening up new avenues for scientific exploration and innovative solutions. The ...

A study published in npj Computational Materials presents a new AI system that uses computer vision and language processing ...

The promise of so-called “quantum advantage” is simple. By harnessing the counterintuitive rules of quantum mechanics, ...

Rose-Hulman Institute of Technology has gifted new high-powered and expanded memory supercomputer workstations to its Physics, Optical Engineering, and NanoEngineering program, allowing students ...

A new technical paper titled “Emerging Nonvolatile Memory Technologies in the Future of Microelectronics” was published by ...

This review examines AI and ML's role in transforming thermoelectric materials design, focusing on defect engineering and ...

The study of two-dimensional (2D) materials, particularly transition metal dichalcogenides (TMDs), has become a focal point in materials science due to the ...

It can be found inside gas giants such as Jupiter and is briefly created during meteorite impacts or in laser fusion experiments: warm dense matter. This exotic state of matter combines features of ...

Their principles resonate in the digital age, where computational design and high-tech materials redefine form and construction.

Using explainable AI – a machine learning approach that focuses on making AI systems more transparent and understandable to humans – scientists have been able to design improved metallic materials for ...