A Study on the Filtration Performance of NH2‑MIL-53/Chitosan-Modified Paper-Based Functional Materials against Airborne Particulate Matter.
Dandan Hao, Bing Yu, Tong Zhao, Meisi Chen
Abstract
Open AccessIn response to the pollution of airborne inhalable particulate matter (PM) and the demand for high-efficiency, low-resistance filtration materials, this study prepared a CS/NP-2.5 paper-based filter by incorporating NH2-MIL-53 into pulp fibers and introducing chitosan (CS) as a carrier. Characterization results show that the composite material forms a complex three-dimensional network structure, significantly enhancing PM capture efficiency. The removal rates for PM2.5 and PM10 reached 98.41% and 99.05%, respectively, with a pressure drop of only 24.10 Pa, which is an improvement of approximately 7% compared to the directly doped NP-2.5 (PM2.5 removal rate of 91.57%). CS enhanced the loading stability of the MOFs on the fibers; after 10 cycle tests, the filtration efficiency was still maintained above 94%, demonstrating excellent reusability. This study, through green synthesis and functional synergy, provides a new approach for the design of high-efficiency paper-based filtration materials.