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Formaldehyde, as a hazardous indoor contaminant following house decoration, is essential to its e cient removal at room temperature. This paper reports an eco-friendly approach for extracting cellulose acetate (CA) from waste cigarette lters to construct a nano brous composite membrane for formaldehyde degradation at ambient temperature. A composite nano brous membrane was fabricated by salable electrospinning of cellulose acetate and La2CoMnO6/CeO2(LC), followed by hydrolysis and potassium doping with KOH. The membrane demonstrates excellent catalytic activity (97.56 % of conversion), super stability (95.35 % of conversion after 50 h) and long service life (93.96 % of conversion after 3 catalysis cycles), which is ascribed to the synergistic catalytic effect of double perovskite and rapid hygroscopic properties of cellulose. In addition, the obtained membrane has a higher moisture regain (7.82 %) than that of the LC/CA nano brous membrane (2.21 %), and higher than that of the commercial air lter membrane using polypropylene (PP) ber (near zero), accelerating formaldehyde adsorption and fastening the water removal, thereby allowing for the long-term positive progress of formaldehyde catalytic oxidation reaction. This work provides encouraging guidance for further exploration into formaldehyde degradation, which is promising for application in air cleaning.

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From Waste to Wealth: A Cellulose-based Fibrous Membrane from Recycled Cigarettes Supported with Dual Perovskite for Formaldehyde Degradation at Room Temperature

Duan

et al. 2022

Preprint

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Formaldehyde, as a hazardous indoor contaminant following house decoration, is essential to its efficient removal at room temperature. This paper reports an eco-friendly approach for extracting cellulose acetate (CA) from waste cigarette filters to construct a nanofibrous composite membrane for formaldehyde degradation at ambient temperature. A composite nanofibrous membrane was fabricated by salable electrospinning of cellulose acetate and La2CoMnO6/CeO2(LC), followed by hydrolysis and potassium doping with KOH. The membrane demonstrates excellent catalytic activity (97.56 % of conversion), super stability (95.35 % of conversion after 50 h) and long service life (93.96 % of conversion after 3 catalysis cycles), which is ascribed to the synergistic catalytic effect of double perovskite and rapid hygroscopic properties of cellulose. In addition, the obtained membrane has a higher moisture regain (7.82 %) than that of the LC/CA nanofibrous membrane (2.21 %), and higher than that of the commercial air filter membrane using polypropylene (PP) fiber (near zero), accelerating formaldehyde adsorption and fastening the water removal, thereby allowing for the long-term positive progress of formaldehyde catalytic oxidation reaction. This work provides encouraging guidance for further exploration into formaldehyde degradation, which is promising for application in air cleaning.

show abstract

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Anyang Duan

Highly reusable Cu₂O/PP fibrous membranes for oil/water separation

From waste to wealth: a cellulose-based fibrous membrane from recycled cigarettes supported with dual perovskite for formaldehyde degradation at room temperature

From Waste to Wealth: A Cellulose-based Fibrous Membrane from Recycled Cigarettes Supported with Dual Perovskite for Formaldehyde Degradation at Room Temperature

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Anyang Duan

Highly reusable Cu2O/PP fibrous membranes for oil/water separation

From waste to wealth: a cellulose-based fibrous membrane from recycled cigarettes supported with dual perovskite for formaldehyde degradation at room temperature

From Waste to Wealth: A Cellulose-based Fibrous Membrane from Recycled Cigarettes Supported with Dual Perovskite for Formaldehyde Degradation at Room Temperature

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Product

Resources

About

Highly reusable Cu₂O/PP fibrous membranes for oil/water separation