How Exotic Light and 2D Materials Are Redefining Molecular Science
- by Anoop Singh
- 3
Researchers have unveiled a highly sensitive detector capable of identifying molecules by analyzing their infrared vibrational “fingerprints.” This groundbreaking device works by transforming incoming infrared light into ultra-confined “nanolight” through phonon polaritons within its active area. This dual-purpose mechanism significantly increases the detector’s sensitivity while amplifying the vibrational signals of nanometer-thin molecular layers placed on […]
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Researchers have unveiled a highly sensitive detector capable of identifying molecules by analyzing their infrared vibrational “fingerprints.” This groundbreaking device works by transforming incoming infrared light into ultra-confined “nanolight” through phonon polaritons within its active area. This dual-purpose mechanism significantly increases the detector’s sensitivity while amplifying the vibrational signals of nanometer-thin molecular layers placed on…
Researchers have unveiled a highly sensitive detector capable of identifying molecules by analyzing their infrared vibrational “fingerprints.” This groundbreaking device works by transforming incoming infrared light into ultra-confined “nanolight” through phonon polaritons within its active area. This dual-purpose mechanism significantly increases the detector’s sensitivity while amplifying the vibrational signals of nanometer-thin molecular layers placed on…