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Superior Performance of the δ-MnO<sub>2</sub> Ultrathin Nanoflower for Photocatalytic HCHO Oxidation

Fagen Wang, Jie Xie, Sijia Zhang, Chuanqi Huang

2025Inorganic Chemistry12 citationsDOI

Abstract

Formaldehyde (HCHO) is carcinogenic and harmful upon prolonged exposure to human breathing. Most catalysts can eliminate HCHO at room temperature or above, but the full removal of HCHO through the catalytic process at low temperatures (<room temperature) is challenging. In this work, we developed a high-performance δ-MnO 2 ultrathin nanoflower catalyst for the photo-oxidation of HCHO within 0–10 °C. Compared to γ- and β-MnO 2, δ-MnO 2 generates the highest densities of superoxide and OH group radicals upon irradiation, showing the highest oxidative ability for HCHO elimination below room temperature. Complete removal of 100 ppm of HCHO could be achieved at 10 °C, and 80% at 0 °C through the photocatalytic reaction over the δ-MnO 2 . Density functional theory calculations suggest that oxygen vacancies, superoxide radicals, and hydroxyl radicals present on δ-MnO 2 play important roles in the photocatalytic process. This study develops efficient photocatalysts for HCHO oxidation below room temperature and expands the temperature range of HCHO elimination for practical applications.

Topics & Concepts

ChemistryFormaldehydePhotocatalysisRadicalCatalysisPhotochemistryNanoflowerOxygenCatalytic oxidationOrganic chemistryCatalytic Processes in Materials ScienceAdvanced Photocatalysis TechniquesCatalysis and Oxidation Reactions
Superior Performance of the δ-MnO<sub>2</sub> Ultrathin Nanoflower for Photocatalytic HCHO Oxidation | Litcius