Scientists have unveiled a groundbreaking material capable of bending light in such a way that it renders objects invisible.

ASU is home to researchers at the forefront of material science, pushing boundaries with innovative techniques. These methods are not only advancing the understanding of matter but also driving the ...

Rice University researchers used a focused electron beam to pattern device functions with submicron precision directly into ...

With the ability to print metal structures with complex shapes and unique mechanical properties, metal additive manufacturing ...

MIT engineers are incorporating the limitations of 3D printers into computer designs, to better control materials’ performance. The approach helps ensure printed structures perform the way they’re ...

Crystals and glasses have opposite heat-conduction properties, which play a pivotal role in a variety of technologies. These range from the miniaturization and efficiency of electronic devices to ...

The rapid advancement of 2D materials (2DMs), such as graphene, transition metal dichalcogenides (TMDs), and hexagonal boron nitride (hBN), has revolutionized the field of nanotechnology and ...

Customizing the features and functionality of two-dimensional (2D) substances is inextricably linked to defect engineering. Traditional techniques, particularly in non-vacuum settings, do not provide ...

Because the electron beam spot is so fine, the patterns reached scales of only a few hundreds of nanometers across. That ...