For nearly two decades, two-dimensional (2D) semiconductors have been studied as a complement or possible successor to silicon transistors, promising smaller, faster and more energy-efficient ...

That early fascination with problem-solving and clarity continues to shape Musaev’s approach to teaching today. As a lecturer ...

Project Prometheus in new talks with Abu Dhabi and JPMorgan over vehicle to buy up businesses disrupted by the technology ...

The research and development arm of telco Deutsche Telekom has worked with Qunnect to demo quantum networking over 30km of optical fibre ...

Have you ever had an idea for something that looked cool, but wouldn't work well in practice? When it comes to designing ...

Ever had an idea for something that looked cool, but wouldn't work well in practice? When it comes to designing things like ...

In the distant reaches of the solar system are many icy objects that resemble snowmen. Now, a new study reveals the simple ...

Despite these hurdles, tools like Stellar-AI could help scientists solve key engineering challenges faster and reduce overall ...

John Martinis has already revolutionised quantum computing twice. Now, he is working on another radical rethink of the technology that could deliver machines with unrivalled capabilities ...

A team of EPFL researchers has developed an AI algorithm that can model complex dynamical processes while taking into account ...

Gov. Wes Moore (D), who calls quantum computing a “lighthouse industry” for Maryland, has secured more than $1 billion in funding to help create a local industry hub.

Duke engineers show how a common device architecture used to test 2D transistors overstates their performance prospects in real-world devices.