Chinese scientists achieve breakthrough in 2D semiconductor wafers

An international research team has developed a 'self-etching' technique to process soft and unstable ionic crystal lattice semiconductors, specifically 2D perovskite thin-layer single crystals, without damaging their structure, overcoming a key challenge in optoelectronic materials. Led by researchers from the University of Science and Technology of China, Purdue University, and Shanghai Tech University, the study was published on Thursday in Nature.

25. Januar 2026 Von KI berichtet

Researchers at Japan's RIKEN Center for Emergent Matter Science have pioneered a method to carve three-dimensional nanoscale devices from single crystals using focused ion beams. By shaping helical structures from a magnetic crystal, they created switchable diodes that direct electricity preferentially in one direction. This geometric approach could enable more efficient electronics.

Researchers at Florida State University have created a novel crystalline material that exhibits complex swirling magnetic behaviors not found in its parent compounds. By blending two structurally mismatched but chemically similar materials, the team induced atomic spins to form skyrmion-like textures. This breakthrough, detailed in the Journal of the American Chemical Society, could advance data storage and quantum technologies.

6. Februar 2026 Von KI berichtet

Researchers have witnessed a superfluid in graphene halt its motion, transitioning into a supersolid—a quantum phase blending solid-like order with frictionless flow. This breakthrough, achieved in bilayer graphene under specific conditions, challenges long-held assumptions about quantum matter. The findings, published in Nature, mark the first natural observation of such a phase without artificial constraints.

Researchers have produced the most intricate time crystal to date using an IBM superconducting quantum computer. This two-dimensional quantum material repeats its structure in time, cycling through configurations indefinitely. The achievement advances understanding of quantum systems and their potential for material design.

6. Januar 2026 Von KI berichtet

Chinese researchers have achieved a breakthrough in hydrogen sulfide treatment, offering a new solution for a more sustainable chemical industry. The technology, developed by the Dalian Institute of Chemical Physics of the Chinese Academy of Sciences, was validated on Tuesday.