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作 者:Heru Suryanto Daimon Syukri Fredy Kurniawan Uun Yanuhar Joseph Selvi Binoj Sahrul Efendi Fajar Nusantara Jibril Maulana Nico Rahman Caesar Komarudin Komarudin
机构地区:[1]Centre of Advanced Material for Renewable Energy(CAMRY),Universitas Negeri Malang,Malang,65145,Indonesia [2]Department of Mechanical and Industrial Engineering,Universitas Negeri Malang,Malang,65145,Indonesia [3]Department of Food and Agricultural Product Technology,Faculty of Agricultural Technology,Andalas University,Padang,25163,Indonesia [4]Department of Chemistry,Institut Teknologi Sepuluh Nopember,Surabaya,60111,Indonesia [5]Study Program of Aquatic Resources Management,Faculty of Fisheries and Marine Science,Brawijaya University,Malang,65145,Indonesia [6]Institute of Mechanical Engineering,Saveetha School of Engineering,Saveetha Institute of Medical and Technical Sciences(SIMATS),Saveetha University,Chennai,602105,India [7]Faculty of Vocational,Universitas Negeri Malang,Malang,65145,Indonesia
出 处:《Journal of Renewable Materials》2024年第9期1605-1624,共20页可再生材料杂志(英文)
摘 要:Utilizing biomass waste as a potential resource for cellulose production holds promise in mitigating environmental consequences.The current study aims to utilize pineapple biowaste extract in producing bacterial cellulose acetate-based membranes with magnetic nanoparticles(Fe_(3)O_(4)nanoparticles)through the fermentation and esterification process and explore its characteristics.The bacterial cellulose fibrillation used a high-pressure homogenization procedure,and membranes were developed incorporating 0.25,0.50,0.75,and 1.0 wt.%of Fe3O4 nanoparticles as magnetic nanoparticle for functionalization.The membrane characteristics were measured in terms of Scanning Electron Microscope,X-ray diffraction,Fourier Transform Infrared,Vibrating Sample Magnetometer,antibacterial activity,bacterial adhesion and dye adsorption studies.The results indicated that the surface morphology of membrane changes where the bacterial cellulose acetate surface looks rougher.The crystallinity index of membrane increased from 54.34%to 68.33%,and the functional groups analysis revealed that multiple peak shifts indicated alterations in membrane functional groups.Moreover,adding Fe_(3)O_(4)-NPs into membrane exhibits paramagnetic behavior,increases tensile strength to 73%,enhances activity against E.coli and S.aureus,and is successful in removing bacteria from wastewater of the river to 67.4%and increases adsorption for anionic dyes like Congo Red and Acid Orange.
关 键 词:Bacterial cellulose dye adsorption Fe_(3)O_(4)nanoparticles MEMBRANE PINEAPPLE WASTE
分 类 号:TB383[一般工业技术—材料科学与工程]
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