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Visible Light Boosted the Reduction of Cr(VI) in the Absence of Conventional Reductants in Frozen Solutions: The Overlooked Role of Inorganic Anions

Yunyi Li, Wenshuai Zhou, Peng Zhen, Jialiang Liang, Fuyang Liu, Yun Shen, Meiping Tong

2025Environmental Science & Technology14 citationsDOI

Abstract

The conversion of Cr(VI) in frozen solutions is a mysterious process in the water environment. It has traditionally been believed that the reduction of Cr(VI) can only occur through interaction with traditional reducing agents like natural organic matters (NOMs) and Fe(II), with H 2 O merely acting as a solvent. However, this study reveals that visible light can induce the reduction of Cr(VI) by H 2 O even without conventional reducing agents. Specifically, within the narrow liquid-like layer between ice crystals, there is a significant increase in concentrations of protons, Cr(VI), and anions (Cl –, SO 4 2–, and NO 3 – ), which promotes the formation of various complexes between Cr(VI) and anions. DFT results reveal 11 types of stable Cr(VI)-anion complexes in solution, with six exhibiting visible light absorption properties. Quadrupole time-of-flight (QTOF) mass spectrometry confirms that the abundance of these six complexes (Cl–CrO 2 –Cl, Cr 2 O 6 –Cl, Cl–Cr 2 O 5 –Cl, Cr 2 O 6 –OSO 3 H, HO 3 SO–Cr 2 O 5 –OSO 3 H, and Cr 2 O 6 –ONO 2 ) correlates with the extent to which visible light promotes Cr(VI) reduction, thus highlighting their crucial role as photoreactive intermediate complexes during this conversion process. These findings suggest that H 2 O in frozen solutions should no longer be regarded solely as a solvent but also as a reactant, thereby inspiring deeper insights into frozen solution chemistry.

Topics & Concepts

Reduction (mathematics)ChemistryInorganic chemistryMathematicsGeometryChromium effects and bioremediationAnalytical chemistry methods developmentDye analysis and toxicity
Visible Light Boosted the Reduction of Cr(VI) in the Absence of Conventional Reductants in Frozen Solutions: The Overlooked Role of Inorganic Anions | Litcius