The open-source model designs therapeutics across "any" modality with experimental validation for diverse real-world challenging targets.

AI-generated 3D modeling belonged to research labs and Hollywood studios. Today, it’s seeping into classrooms, social media ...

A new open-source software package is opening up advanced multi-material 3D printing to a wider range of users. Developed by ...

A researcher has proposed a more targeted approach to AI drug discovery, which includes a rigorous evaluation protocol.

It tackles the long-standing problem of signal failure in flexible electronics caused by bending, movement, and environmental ...

Researchers built a chip-sized processor and 3D-printed copper antenna arrays that could enable flexible, wearable wireless ...

A collaboration between the University of Michigan and AFRL has resulted in 3D-printed metamaterials that can block vibrations using complex geometries. Inspired by nature and theoretical physics, ...

The drug development pipeline is a costly and lengthy process. Identifying high-quality "hit" compounds-those with high potency, selectivity, and favorable metabolic properties-at the earliest stages ...

Carnegie Mellon University researchers created the first-ever 3D-printed finger brace that easily shifts from rigid to ...

A new open-source software is shaking up the way engineers design and print multi-material objects. Charles Wade, a PhD ...

A research team sheds light on how canopy structure and photosynthetic traits in coniferous forests respond to thinning, drought, and rising temperatures.

To explore possible treatments for various diseases, either animal models or human cell cultures are usually used first; however, animal models do not always mimic human diseases well, and cultures ...