The workshop introduces students to topics in computability theory and complexity theory, structural properties of DNA molecules, and various design techniques for creating DNA-based components.

Twisted 2D bilayers show angle dependent atomic vibrations, revealing how misalignment affects heat flow and aiding design of ...

Now, Duy Khanh Nguyen, who was based at the RIKEN Center for Emergent Matter Science at the time of the study, and co-workers ...

What was once considered science fiction — remote diagnostics, AI in surgery, 3D-printed organs — has become medical reality. The next 30 years will redefine what it means to be treated, cured and car ...

Creating complex structures at the tiniest scales has long been a challenge for engineers. But new research from Georgia Tech ...

If colleges close themselves off to economic changes from scientific progress and digital transformation, they’re likely to ...

Solar cells and computer chips need silicon layers that are as perfect as possible. Every imperfection in the crystalline ...

Kim’s NSF CAREER Award builds on a growing portfolio of federal and industry support, including a 2024 NSF NeTS grant ($1.08 M), significant equipment gifts from AMD, and a $25,000 Catalyst Grant from ...

A childhood construction toy has been transformed into a working 8-bit mechanical computer that can perform real math.

In the year of quantum, university’s faculty and students continue to innovate bold new work in quantum computing, ...

The Volonaut Airbike flying motorbike is a breakthrough in personal air mobility and replicates the Star Wars Return of the ...

A team of researchers at the University of Minnesota has unveiled a powerful new alloy, Ni4W, that could radically reshape how electronic devices store and process information. This metal can switch m ...