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 ...

Banks are racing to understand how generative AI can transform their operations, yet most institutions remain constrained by decades‑old legacy systems, fragmented data, and risk‑averse governance ...

The authors do not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and have disclosed no relevant affiliations beyond their ...

Dr. Michael Ponting is Chief Scientific Officer at Peak Nano, a leading innovator in advanced capacitor films, specialty films, and optics. "One word: plastics." That single line from The Graduate ...

The spread of artificial intelligence is forcing an uncomfortable truth on semiconductor manufacturing. Thin films, which are essential for isolating signals and insulating different components and ...

On the left, a tall stack of chocolate-covered mini cakes coated in colorful sprinkles, topped with whipped cream, a strawberry slice, and a piece of chocolate. On the right, a rich layered chocolate ...

Josephson junction structures—quantum devices made of two superconductors and a thin non-superconducting barrier—using different forms of germanium (Ge): super-Ge (in gold), semiconducting Ge (in blue ...

A rich layered chocolate cake slice with smooth ganache and colorful macarons paired with a playful pancake stack coated in chocolate glaze, topped with whipped cream, strawberries, and rainbow ...

When you spend enough time in the EDC (Everyday Carry) community, you develop a certain reverence for titanium. It’s the material of choice for high-end pocket knives, ultra-light pry bars, and pens ...

Integrating 2D materials into sustainable electronic devices presents key challenges, particularly in depositing or etching nanometer-thick layers on high aspect ratio structures. Atomic Layer Etching ...

A new study has successfully demonstrated the confinement of terahertz (THz) light to nanoscale dimensions using a new type of layered material. This could lead to improvements in optoelectronic ...

Researchers unveil a chemistry playbook to turn stubborn MAX phases into tunable 2D materials, blending MXene and dichalcogenide traits for energy storage and catalysis. Structural editing strategy ...