➀ Researchers have developed an ultra-sensitive infrared detector for molecular detection based on graphene and phonon polaritons. The device transforms infrared light into 'nanolight', enhancing the vibrational fingerprint signal. ➁ The novel technology offers potential for miniaturization and on-chip applications, including medical diagnostics and environmental monitoring. ➂ Room-temperature operation could enable integration into smartphones and wearable electronics, revolutionizing molecular identification.
Related Articles
- Empa's New 'CarboQuant' Lab Peers into Carbon's (Quantum-) World8 months ago
- Safety Assessment of Graphene-Based Materials: A Comprehensive Overview9 months ago
- Scientists Create the Largest Atomically Thin Gold Films to Make Electronics Weightless and Invisible10 months ago
- Birmingham Uni and Paragraf get £3.4m for graphene R&D10 months ago
- Graphene IC interconnects deposited in CMOS conditions11 months ago
- Enhancing Nanocomposite Performance through Magnetic Alignment of Nanostructuresabout 1 year ago
- Graphene Controls Electrons in Femtosecondsabout 1 month ago
- Naturally Wired: Precision Molecules for the Electronics of the Future2 months ago
- Pure Quantum State Without Cooling Effort3 months ago
- The Material That Could Rival Graphene: How UC-MAC Sharpens Proton Beams3 months ago