Affiliation:
1. Shanghai Frontiers Science Research Center of Advanced Textiles College of Textiles Donghua University Shanghai 201620 China
2. China Construction Eighth Engineering Division Co., Ltd Shanghai 200122 China
3. College of Fashion and Design Donghua University Shanghai 200051 China
4. Innovation Center for Textile Science and Technology Donghua University Shanghai 200051 China
Abstract
AbstractNanofibrous membranes, characterized by their flexibility, high porosity, and tunable structure, are emerging as a promising contender for advanced transparent materials with sufficient breathability and pliability. However, the considerable surface light reflection and internal light scattering of nanofibrous membranes pose a challenging task in achieving transparency. In this study, transparent nanofibrous membranes are fabricated by constructing a topological structure with optimized optical transmission channels, which provide the minimum equivalent thickness to minimize light loss in nanofibrous membranes. The resultant fabricated membrane exhibits a high light transmittance of up to 81%, along with a sufficient porosity of 84% and flexibility. Additionally, the membrane demonstrated effective PM0.3–10 removal efficiency (>91%), low air pressure drops (<110 Pa), high air permeability (≈104 mm s−1), and good waterproof performance. Therefore, the prepared transparent nanofibrous membrane may serve as a transparent air filtration window screen to enhance indoor comfort for people.
Funder
National Natural Science Foundation of China
Fundamental Research Funds for the Central Universities
Program of Shanghai Academic Research Leader