Fabrication of MnO2 nanowires@Ag/cellulose laminated membrane with unidirectional liquid penetration for personal thermal management applications

Abstract: Controllable and reliable fabrication of wearable materials with tunable structures and integrated functionalities are urgently required for personal thermal management. Herein, this highlight presents the fabrication of MnO2 nanowires@Ag/cellulose laminated membrane with infrared insulation, antibacterial and unidirectional liquid penetration properties via orderly vacuum filtration of hydrophobic cellulose, hydrophilic cellulose and ultra-long MnO2 nanowires coated with silver (MnO2 nanowires@Ag). To do this… Show more

“…30,31 Two representative bacteria, Escherichia coli and Staphylococcus aureus, were selected to test the antibacterial performance of the PAO/SA CPs. As shown in Figure S7, the PAO/SA CPs cross-linked by both Ca 2+ and Cu 2+ exhibit obvious inhibition zones (∼20 mm in diameter), indicating conspicuous antibacterial ability, 40 whereas no inhibition zones were observed for the blank sample and for the PAO/SA CPs cross-linked only by Ca 2+ . The broad-spectrum antibacterial performance would restrain bacterial reproduction on the surface of the PAO/SA CPs effectively, preventing biofouling of the material, while extending the lifetime of the CPs for U extraction in an aqueous environment.…”

Easily Recycled Porous Microparticles Prepared via Electrohydrodynamic Atomization for Selective Uranium Extraction with High Capacity

“…30,31 Two representative bacteria, Escherichia coli and Staphylococcus aureus, were selected to test the antibacterial performance of the PAO/SA CPs. As shown in Figure S7, the PAO/SA CPs cross-linked by both Ca 2+ and Cu 2+ exhibit obvious inhibition zones (∼20 mm in diameter), indicating conspicuous antibacterial ability, 40 whereas no inhibition zones were observed for the blank sample and for the PAO/SA CPs cross-linked only by Ca 2+ . The broad-spectrum antibacterial performance would restrain bacterial reproduction on the surface of the PAO/SA CPs effectively, preventing biofouling of the material, while extending the lifetime of the CPs for U extraction in an aqueous environment.…”

Easily Recycled Porous Microparticles Prepared via Electrohydrodynamic Atomization for Selective Uranium Extraction with High Capacity