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Optics miniaturization strategy for demanding Raman spectroscopy applications.

Oleksii IlchenkoYurii PilhunAndrii KutsykDenys SlobodianiukYaman GokselElodie DumontLukas VautChiara MazzoniLidia MorelliSofus BoisenKonstantinos StergiouYaroslav V AulinTomas RindzeviciusThomas Emil AndersenMikael LassenHemanshu MundhadaChristian Bille JendresenPeter Alshede PhilipsenMerete HædersdalAnja Boisen
Published in: Nature communications (2024)
Raman spectroscopy provides non-destructive, label-free quantitative studies of chemical compositions at the microscale as used on NASA's Perseverance rover on Mars. Such capabilities come at the cost of high requirements for instrumentation. Here we present a centimeter-scale miniaturization of a Raman spectrometer using cheap non-stabilized laser diodes, densely packed optics, and non-cooled small sensors. The performance is comparable with expensive bulky research-grade Raman systems. It has excellent sensitivity, low power consumption, perfect wavenumber, intensity calibration, and 7 cm -1 resolution within the 400-4000 cm -1 range using a built-in reference. High performance and versatility are demonstrated in use cases including quantification of methanol in beverages, in-vivo Raman measurements of human skin, fermentation monitoring, chemical Raman mapping at sub-micrometer resolution, quantitative SERS mapping of the anti-cancer drug methotrexate and in-vitro bacteria identification. We foresee that the miniaturization will allow realization of super-compact Raman spectrometers for integration in smartphones and medical devices, democratizing Raman technology.
Keyphrases
  • raman spectroscopy
  • label free
  • high resolution
  • low cost
  • high intensity
  • gold nanoparticles
  • drug induced
  • quantum dots
  • bioinformatics analysis