Study shows lithium dendrites are brittle and needle-like, challenging assumptions about solid-state battery safety.

Researchers at the University of Tokyo developed pump-field-probe fluorescence microscopy, a new method that reveals ...

Micro- and nanofluidic systems are increasingly important in biology, medicine, chemistry, and materials science because they allow researchers to study reactions, transport, and molecular behavior in ...

Cornell University researchers have built an AI system called EMSeek that can analyze an electron microscopy image and ...

Integrating Digital Holographic Microscopy with fluorescence techniques enhances live-cell imaging, preserving cellular ...

Microscale neural probes are central to next-generation brain–machine interfaces, yet how they physically penetrate the living brain remains poorly quantified. Using a high-sensitivity force sensor ...

Abstract: We propose a label-free, high-resolution approach to investigate pathological protein aggregation and aberrant phase behavior in living cells. Intracellular protein aggregates associated ...

Real-time microscopy and AI reveal how atomic wetting controls tin oxide nanowire growth inside carbon nanotubes, uncovering the mechanisms that link temperature, geometry, and surface chemistry.

Scientists have created a new way to watch plants breathe—live and in high definition—while tracking exactly how much carbon and water they exchange with the air. The breakthrough could help unlock ...