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Po-Cheng Hsieh,Yi-Chun Chen,Nai-Ci Zheng,Dave Mangindaan,Hsiu-Wen Chien 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.126 No.-
The present study explores the remarkable photothermal properties and potential applications exhibitedby melanoidin-enriched spent coffee grounds (SCGs). However, the inherent challenge lies in the substantialparticle size of SCGs, leading to rapid sedimentation within the medium and resulting in unevenheat distribution during photothermal analysis. To overcome this obstacle, acid hydrolysis was employedto liquefy the SCGs, allowing their dispersion in water and significantly enhancing their light absorptioncapacity. The photothermal properties of liquefied SCGs (LSCGs) were analyzed under 808-nm nearinfrared(NIR) irradiation and compared with those of SCGs. Remarkably, the photothermal conversionefficiency of the LSCGs was as high as 52%, twice that of SCGs. To further explore their potential, theLSCGs were incorporated into chitosan (CS) to create homogenous and porous CS/LSCGs composites. These low-cost and environmentally friendly CS/LSCGs composites, made entirely from waste materials,demonstrated photothermal properties under NIR irradiation. Notably, they exhibited excellent performancein multiple cycles of water evaporation experiments, achieving an impressive water evaporationefficiency of nearly 90%.
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