首页|Lignocellulose-Based Optical Biofilter with High Near-Infrared Transmittance via Lignin Capturing-Fusing Approach
Lignocellulose-Based Optical Biofilter with High Near-Infrared Transmittance via Lignin Capturing-Fusing Approach
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Near-infrared(NIR)transparent optical filters show great promise in night vision and receiving windows.However,NIR optical filters are generally prepared by laborious,environmentally unfriendly processes that involve metal oxides or petroleum-based polymers.We propose a lignin capturing-fusing approach to manufacturing optical biofilters based on molecular collaboration between lignin and cellulose from waste agricultural biomass.In this process,lignin is captured via self-assembly in a cellulose network;then,the lignin is fused to fill gaps and hold the cellulose fibers tightly.The resulting optical biofilter featured a dense structure and smooth surface with NIR transmittance of~90%,ultralow haze of close to 0%,strong ultraviolet-visible light blocking(~100%at 400 nm and 57.58%to 98.59%at 550 nm).Further,the optical biofilter has comprehensive stability,including water stability,solvent stability,thermal stability,and environmental stability.Because of its unique properties,the optical biofilter demonstrates potential applications in the NIR region,such as an NIR-transmitting window,NIR night vision,and privacy protection.These applications represent a promising route to produce NIR transparent optical filters starting from lignocellulose biomass waste.
Hubei Provincial Key Laboratory of Green Materials for Light Industry,Hubei University of Technology,Wuhan 430068,China
Hubei Biomass-Resource Chemistry and Environmental Biotechnology Key Laboratory,School of Resource and Environmental Sciences,Wuhan University,Wuhan 430079,China
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