KAIST's ultra-compact computing chip uses memristors for self-learning and error correction, enabling efficient real-time AI processing in various applications.

Research reveals a novel technique for growing continuous crystalline perovskite thin films, crucial for the development of ultrahigh-resolution micro-LEDs.

KAIST researchers developed a bio-inspired camera mimicking insect eyes, achieving ultra-high-speed imaging with enhanced ...

Discover how a combined one-stop endovenous laser ablation (EVLA) and stenting approach enhances outcomes for varicose veins ...

The moving assembly line has certainly proven its worth over the 100-plus years since Henry Ford introduced the industrial ...

A study published in Nature by a joint EPFL and University of Lausanne research team describes a fresh observation of a plant ...

Tunghai University researchers highlight 3D printing's benefits for headlight lens production, surpassing traditional methods ...

Researchers from JSR Corp. and the University of Tokyo developed flat Fresnel zone plates, paving the way for innovative, ...

Innovations in AR/VR optics, including holographic lenses and adaptive optics, are enhancing visual clarity and user ...

Science & Applications reveals how vortex beams enhance optical metrology, improving measurement precision with unique ...

Discover how different light sources, including LEDs, arc lamps, and lasers, impact optical microscopy techniques like ...

Edge semimetal contacts in TMDs enhance the bulk photovoltaic effect, offering solutions to conventional solar cell ...