The study of quantum dots has advanced our understanding of electron transport at the nanoscale. These semiconductor nanostructures, which confine electrons in discrete energy levels, provide an ideal ...

Electron affinity, defined as the energy released when an electron attaches to a neutral atom, is a fundamental parameter in understanding atomic reactivity and material properties. Negative ion ...

The global graphene market projected to rise from USD 1.66 billion in 2025 to USD 9.28 billion by 2030, reflecting a striking ...

Research shows that atomic-scale strain in WS2 on graphene reshapes exciton energies, highlighting its role in advancing 2D optoelectronic technologies.

IIT Bombay researchers have developed an optimised thermal weathering protocol and a crucial correlation to safeguard India's ...

Two huge metal rings, each more than two miles around. Gold ions smashing together at more than 99.99 percent the speed of light. House-size machines with masses of neon green wires.

Quantum particles have a social life, of a sort. They interact and form relationships with each other, and one of the most ...

Electrons determine everything: how chemical reactions unfold, how materials conduct electricity, how biological molecules transfer energy, and how quantum technologies operate. But electron dynamics ...

New research sharpens understanding of the hidden symmetry in a mysterious superconductor. Superconductors are materials that ...

The Linac Coherent Light Source in California has been firing record-breaking X-ray pulses for years, but now it’s due for a ...

NASA’s Mars rover finds organic signals in mudstone that resemble microbial activity, sparking new debate over life on the ...

New research offers clearer insight into how phase transitions unfold at the atomic scale in real materials. When ice turns into water, the change happens almost instantly. Once the melting ...