Issue 17, 2024

The stray light induced redshift of absorption peaks of inorganic anions in the far ultraviolet region—an “artifact”

Abstract

In the analytical process of spectrophotometry, the prerequisite for accurate qualitative and quantitative analysis is obtaining the intrinsic spectra of the analyte. However, the intrinsic properties of spectra can sometimes be masked by easily overlooked non-intrinsic factors, such as those from measuring instruments, leading to erroneous spectral identification. In this study, we documented an unusual redshift phenomenon in the far ultraviolet spectral region. With a spectrophotometer under the nitrogen atmosphere, we selected 14 representative inorganic anions and investigated their absorption spectral behaviors at different optical pathlengths and concentrations. It was intriguing to observe that the absorption peaks with maximum absorption wavelengths below a watershed wavelength of 200 nm underwent a redshift as pathlength and concentration increased, while those above 200 nm did not exhibit a significant redshift phenomenon. In-depth formula simulations and experimental verifications demonstrated that this peculiar spectral behavior was caused by unavoidable stray light in the spectrophotometer. Some methodological and instrumental recommendations are given in the paper. Our study results may serve as a reminder to carefully identify non-intrinsic phenomena when studying absorption spectra in the far ultraviolet region, and provide guidance on spectral corrections in scientific research and practical applications.

Graphical abstract: The stray light induced redshift of absorption peaks of inorganic anions in the far ultraviolet region—an “artifact”

Supplementary files

Article information

Article type
Paper
Submitted
14 Mar 2024
Accepted
10 Jul 2024
First published
16 Jul 2024

Analyst, 2024,149, 4425-4435

The stray light induced redshift of absorption peaks of inorganic anions in the far ultraviolet region—an “artifact”

J. Ma, N. Duan, F. Xu and K. Xiao, Analyst, 2024, 149, 4425 DOI: 10.1039/D4AN00400K

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