Gas detection using portable deep-uv absorption spectrophotometry: A review

Sulaiman Khan, David Newport, Stéphane Le Calvé

Research output: Contribution to journalReview articlepeer-review

Abstract

Several gas molecules of environmental and domestic significance exhibit a strong deep-UV absorption. Therefore, a sensitive and a selective gas detector based on this unique molecular property (i.e., absorption at a specific wavelength) can be developed using deep-UV absorption spectrophotometry. UV absorption spectrometry provides a highly sensitive, reliable, self-referenced, and selective approach for gas sensing. This review article addresses the recent progress in the application of deep-UV absorption for gas sensing owing to its inherent features and tremendous potentials. Applications, advancements, and challenges related to UV emission sources, gas cells, and UV photodetectors are assessed and compared. We present the relevant theoretical aspects and challenges associated with the development of portable sensitive spectrophotometer. Finally, the applications of UV absorption spectrometry for ozone, NO2, SO2, and aromatic organic compounds during the last decades are discussed and compared. A portable UV absorption spectrophotometer can be developed by using LEDs, hollow core waveguides (HCW), and UV photodetectors (i.e., photodiodes). LED provides a portable UV emission source with low power input, low-intensity drifts, low cost, and ease of alignment. It is a quasi-chromatic UV source and covers the absorption band of molecules without optical filters for absorbance measurement of a target analyte. HCWs can be applied as a miniature gas cell for guiding UV radiation for measurement of low gas concentrations. Photodiodes, on the other hand, offer a portable UV photodetector with excellent spectral selectivity with visible rejection, minimal dark current, linearity, and resistance against UV-aging.

Original languageEnglish
Article number5210
JournalSensors
Volume19
Issue number23
DOIs
Publication statusPublished - 1 Dec 2019

Keywords

  • Absorption spectrophotometry
  • BTEX
  • Deep ultraviolet
  • Hollow core waveguides
  • LEDs
  • NO
  • Ozone
  • Photodiodes
  • SO
  • Spectroscopy
  • Ultraviolet light sources
  • VOC

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