Raman spectroscopy experiments show that the interaction between electrons and phonons in graphene resembles the Dirac fermion–photon coupling in quantum electrodynamics. In the early days of ...

Dive into the transformative world of Raman spectroscopy and microscopy with our upcoming webinar, "Raman Revolution: Unveiling the Secrets of Batteries, Semiconductors, and Graphene." This session ...

Definition:Raman Spectroscopy is a sophisticated analytical technique used to observe vibrational, rotational, and other low-frequency modes in a system. This material characterization technique ...

Over the last decade Raman spectroscopy has become established as a physicochemical technique for the rapid identification of microbes. This powerful analytical method generates a spectroscopic ...

This study evaluates silver-coated laser-induced graphene strain sensors, revealing enhanced sensitivity and reliability for ...

This study demonstrates that polyethylene microplastics from waste dropper bottles can be efficiently transformed into ...

Renewable energy: Optical spectroscopy of pigment-protein light-harvesting photosynthetic ... Biosensors for explosives detection utilizing photosynthetic reaction centers; Combining optical (Raman) ...

It is used in the characterization of novel materials and the study of such phenomena as surface plasmon resonance, different forms of carbon nanotubes and graphene, and a host of other projects ...

A one-pot thermal annealing method was developed to transform polycrystalline Cu into single-crystal Cu(111), ensuring uniform crystallinity and surface orientation critical for graphene growth. Raman ...