Researchers at Tel Aviv University have developed a groundbreaking method to transform graphite into materials with ...

Researchers have discovered unexpected 1D-like spin behavior in a triangular molecular lattice, challenging the conventional ...

Researchers from Tokyo Metropolitan University have elucidated how hydrogen and carbon monoxide is adsorbed into solids ...

Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

GIA’s laboratories use advanced instrumentation and research to deliver accurate grading, identification, and origin ...

Researchers have made a significant step in the study of a new class of high-temperature superconductors: creating ...

A recent project conducted by in-house researchers at the UK’s national synchrotron facility on its Hard X-ray Nanoprobe beamline, looked at how microplastics waste may interact with zinc oxide ...

However, a more viable transformation, according to Prof. Moshe Ben Shalom, head of the Quantum Layered Matter Group at Tel Aviv University, involves reconfiguring graphite’s atomic layers by subtly ...

Scientists introduced atomic defects in spinel using cerium, and voilà! The gemstone became a solid qubit system.

Meanwhile, International Atomic Energy Agency Director General Rafael Mariano Grossi has reported that the IAEA has lost continuity of knowledge with regard to important equipment and materials in ...

indicating a simple shallow structure and a more complex deep structure. Sites CM02 to CM04, located in the contact zone between the Bayan Har block and the Sichuan-Yunnan diamond block, display out ...

DIAMOND is generally thought to be one of the most perfect crystals occurring naturally: its atomic structure was first investigated in the very early days of X-ray crystal analysis. It turned out ...