SeoulTech's 'graphene breakthrough' could lead to ultrathin flexible displays January 11, 2025 by David Edwards A new ...

As the demand for thinner, lighter, and more flexible electronic devices grows, the need for advanced manufacturing processes ...

A research has the potential to advance sustainable energy technologies and reduce the environmental impact of electronic devices.

In addition to mechanical deformation and failure mechanisms of protein materials, the investigation of other material properties could be of great interest. Optical properties (for example in the ...

By utilizing graphene's ability to absorb UV light and distribute heat, researchers have achieved pristine, flexible displays ...

Imagine a world where your smartphone stops working after just a few months or a high-tech medical device fails during a ...

Basak and Pangborn are among a group of 24 university professors chosen from over 230 applicants who were collectively ...

Metals and alloys can be extracted, mixed and processed in a single, energy-efficient step without CO2 emissions ...

A new method based on optical tweezers can measure viscoelasticity of biological materials in a simpler and more versatile ...

SEOULTECH’s graphene-assisted laser lift-off method keeps ultrathin displays flawless and ready for wearable technology ...

Just like your body has a skeleton, every cell in your body has a skeleton - a cytoskeleton to be precise. This provides ...