A Rutgers-led team of scientists produced an eco-friendly, highly stable, ultra-bright material and utilized it to generate ...

Living Optics, a pioneer in hyperspectral imaging (HSI), today announced a strategic partnership with Technologies, a global ...

A new hybrid photonic platform enhances fluorescence signals over 450-fold, enabling ultra-sensitive biosensing at attomolar ...

New optical sensor using differential guided-mode resonance achieves record sensitivity and portability, enabling real-time ...

As a vital component of national infrastructure, fiber optics improve data transmission, economic stability, and public ...

Researchers at the University of Arizona have developed an AI-powered optical imaging method that identifies pancreatic ...

Recent advancements in photoclickable collagen-based bioresins enhance deep vat printing, enabling high-resolution tissue ...

This study reveals nonlinear optical properties of semiconductor-metal nanocavities, enhancing imaging techniques for advanced nanophotonic device development.

A new device combining ultrasound and advanced imaging to provide crucial information for the safe delivery of drugs into the ...

Explore how in-line Raman and NIR spectroscopy, combined with chemometrics, enables real-time reaction monitoring for better ...

STMicroelectronics, a global semiconductor leader serving customers across the spectrum of electronics applications and Metalenz, the pioneer of metasurface optics, announced a new license agreement.

A new method combines artificial intelligence with a laser-based technique called Raman spectroscopy to distinguish between tissue types like bone, fat, and muscle commonly encountered in orthopedic ...