Research teams all over the world are exploring different ways to design a working computing chip that can integrate quantum interactions. Now, engineers believe they have cracked the problem, ...

Twisting atomically thin magnetic layers does more than reshape their electronics—it can create giant, topological magnetic textures. In chromium triiodide, researchers observed skyrmion-like patterns ...

Conventional crystals are materials in which atoms arrange themselves in repeating spatial patterns. Time crystals, on the other hand, are phases of matter characterized by repeating motions over time ...

MXene nanoscrolls transform flat 2D materials into conductive 1D structures, unlocking advances in energy storage, sensing, ...

A team led by Northwestern University and Shirley Ryan AbilityLab scientists have developed a new technology that can eavesdrop on the hidden electrical dialogues unfolding inside miniature, lab-grown ...

New generations of memristors could reliably store information directly within the molecular structures of graphene-like materials. In a new review published in Nanoenergy Advances, Gennady Panin of ...

New York’s prison system is still in crisis, but funding for independent oversight by CANY was a key step forward. Now, proposed budget cuts threaten to undo these progress, despite CANY’s valuable ...

Gouri Sankar Kar, VP R&D compute and memory device technologies at imec, explains how the research organisation, in collaboration with leading semiconductor manufacturers, has addressed key challenges ...