Wafer-scale InSe transistors with record electron mobility and low power use could power the next generation of AI chips.

Engineers at the University of Maine are developing a new method to more accurately predict the strength of lightweight ...

An interview with Lindy O’Clair, Head of Incucyte® Product Management at Sartorius 3D cell models like spheroids and ...

Engineers at RMIT in Australia have produced a new type of 3D-printed titanium that’s one-third cheaper yet stronger than ...

Researchers used a solid-liquid-solid method to fabricate wafer-scale 2D InSe, solving key challenges in next-gen ...

A team of engineers at RMIT University has developed a groundbreaking 3D-printed titanium alloy that s stronger, more ductile ...

A combined testing approach offers new insights into how the gyroid infill 3D printing pattern contributes to a part’s overall strength.

Researchers at Kumamoto University and Nagoya University have developed a new class of two-dimensional (2D) metal-organic ...

Kairos Power and ORNL's MDF are using 3D-printed composite forms to accelerate nuclear construction for the Hermes reactor.

ConspectusPhotovoltaics (PVs) are currently the most economical and location-independent source of electricity generation, and their demand is growing rapidly as a sustainable renewable energy source.

Engineers at the University of Maine have discovered a new way to make 3D-printed parts both stronger and lighter—an ...

Caltech redefines metallurgy with 3D printing breakthrough. The technique identifies optimal metal combinations for desired outcomes.