Jones and Cheng initially thought the particles might grow in three dimensions, "but we now understand how they form such a complicated 2D structure that is two particles thick," Jones said.

With new experimental method, researchers probe spin structure in 2D materials for first time. ScienceDaily. Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2023 / 05 / 230511164524.htm.

To monitor the motion of the excitons, the researchers used a combination of techniques. In the first, known as transient microscopy, they used pulses of light to excite the hybrid 1D/2D structure and ...

The newly discovered 2D structure — of small-n Ruddlesden Popper perovskites (RPPs) sandwiched between layers of large-n (RPPs) — encourages excitons, the quasiparticles instrumental in ...

“We don’t usually think of plastics as being something that you could use to support a building,” says MIT chemical engineer Michael Strano. But a new polymer his team has developed could do ...

The as-prepared 2D Te nanosheets possess a typical 2D structure with lateral dimension ranging from 41.5 nm to 177.5 nm and a thickness ranging from 3 nm to 6 nm. Liquid-phase exfoliation (LPE) can be ...

Lithium powers many parts of our modern world—from smartphones and laptops to electric vehicles and military gear. As demand ...

Definition of Twistronics: Twistronics is a field of study that emerged from the intersection of nanotechnology and materials science. It involves manipulating the electronic properties of ...

"Spin structure is the most important part of a quantum phenomenon, but we've never really had a direct probe for it in these 2D materials," said Jia Li, an assistant professor of physics at Brown ...