4.7 Article

A new insight into the generation of hydrogen peroxide from carmine degradation by cryptomelane as a catalyst, oxidant, and adsorbent

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JOURNAL OF MOLECULAR LIQUIDS
卷 382, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.molliq.2023.121912

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Manganese oxide; Dye; Catalysis; Singlet oxygen

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Cryptomelane, synthesized through a one-step hydrothermal method, was found to efficiently degrade carmine dye in water. Under optimal conditions, 97.87% of 100 mg/L of carmine was degraded within 240 mins. Cryptomelane exhibited excellent reusability and can decolorize carmine through oxidation, catalysis, and adsorption processes.
Carmine, as a widely used dye, is one kind of refractory organic pollutants that endanger the water environment. Finding an efficient and environmentally friendly degradation method is a crucial step to treat dye-containing wastewater. Using a one-step hydrothermal synthetic method, cryptomelane was synthesized, characterized, and investigated for its ability to degrade carmine in an aqueous solution. Under the optimum conditions of a 2 g/L cryptomelane dosage and an initial pH of 6.8, 97.87% of 100 mg/L carmine degraded within 240 mins. Cryptomelane exhibited excellent reusability after three cycles, with a decolorization efficiency of 85.39%. Cryptomelane accommodated a board working pH range. The carmine was efficiently decolorized via an interaction of oxidation, catalysis, and adsorption of cryptomelane in a ratio of 46.85:47.11:3.90, respectively. The existence of oxygen vacancies on cryptomelane was responsible for H2O2 generation, and O2 center dot- and 1O2 active species were involved in the carmine degradation by cryptomelane. A low reaction activation energy (Ea = 6.36 kJ/mol) caused efficient removal of carmine by cryptomelane at ambient temperature. These findings notably distinguish three roles of cryptomelane as an adsorbent, oxidant, and catalyst in a pollutant removal system, and prove that cryptomelane may have extensive and promising utilization on refractory organic wastewater treatment without the need to add extra oxidants.

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