Hot-Pressing Metal Covalent Organic Frameworks as Personal Protection Films.
Jiajia WangLi LiChuanshan XuHong JiangQin-Xie XieXin-Yi YangJi-Cheng LiHuiying XuYifa ChenWei YiXu-Jia HongYa-Qian LanPublished in: Advanced materials (Deerfield Beach, Fla.) (2023)
Effective personal protection is crucial for controlling infectious disease spread. However, commonly used personal protective materials such as disposable masks lack antibacterial/antiviral function and may lead to cross infection. Herein, a polyethylene glycol-assisted solvent-free strategy is proposed to rapidly synthesize a series of the donor-acceptor metal-covalent organic frameworks (MCOFs) (i.e., GZHMU-2, JNM-1, and JNM-2) under air atmosphere and henceforth extend it via in situ hot-pressing process to prepare MCOFs based films with photocatalytic disinfect ability. Best of them, the newly designed GZHMU-2 has a wide absorption spectrum (200 to 1500 nm) and can efficiently produce reactive oxygen species under sunlight irradiation, achieving excellent photocatalytic disinfection performance. After in situ hot-pressing as a film material, the obtained GZHMU-2/NMF can effectively kill E. coli (99.99%), S. aureus (99%), and H1N1 (92.5%), meanwhile possessing good reusability. Noteworthy, the long-term use of a GZHMU-2/NWF-based mask has verified no damage to the living body by measuring the expression of mouse blood routine, lung tissue, and inflammatory factors at the in-vivo level.
Keyphrases
- infectious diseases
- room temperature
- reactive oxygen species
- reduced graphene oxide
- oxidative stress
- poor prognosis
- visible light
- escherichia coli
- drinking water
- ionic liquid
- highly efficient
- water soluble
- photodynamic therapy
- clinical practice
- solar cells
- binding protein
- carbon nanotubes
- radiation induced
- anti inflammatory
- radiation therapy
- silver nanoparticles
- quantum dots