1. Pushing Raman spectroscopy over the edge: purported signatures of organic molecules in fossils are instrumental artefacts
- Author
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Bruno Reynard, Thibault Brulé, Pierre Gueriau, Gilles Montagnac, Julien Alleon, and Mathieu Thoury
- Subjects
chemistry.chemical_classification ,Photon ,Materials science ,Spectrometer ,Biomolecule ,Spectral line ,symbols.namesake ,Orders of magnitude (time) ,chemistry ,Chemical physics ,symbols ,Luminescence ,Raman spectroscopy ,Raman scattering - Abstract
Claims for the widespread preservation of fossilized biomolecules in many fossil animals have recently been reported in six studies, based on Raman microspectroscopy. Here, we show that the putative Raman signatures of organic compounds in these fossils are actually instrumental artefacts resulting from intense background luminescence. Raman spectroscopy relies upon the detection of photons scattered inelastically by matter as a result of its interaction with a laser beam. For many natural materials, this interaction also generates a luminescence signal that is often orders of magnitude more intense than the light produced by Raman scattering. Such luminescence, coupled with the transmission properties of the spectrometer, induced quasi-periodic ripples in the measured spectra that have been incorrectly interpreted as Raman signatures of organic molecules. Although several analytical strategies have been developed to overcome this common issue, Raman microspectroscopy as used in the studies questioned here cannot be used to identify fossil biomolecules.
- Published
- 2020