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Vol 3, No 1: (Published) Progress of cellulose-based Biomedical functional compositescellulose-based Functional composites exhibit the functional characteristics, such as light, electric, magnetic func-tionsand catalytic properties, which have been widely applied in pulping and papermaking, fine chemical, tissue en-gineering, BIOmedical and other fields.cellulose-based biomedical composites are typical cellulose materials, com-bining the advantages of both biomass and biomaTerials, which have potential applications in bone repair and re-placement, tissue engineering, drug delivery, Gene CarrieR, protein adsorption, and other fields.In this review, we in-troduced three synthetic methods to composites including hydrothermal (Solvothermal) method, MicrowAve method and ultrasonic method, discussed the advantages and disadvantages of these three kinds of preparation,reviewed the progress of cellulose-based materials, and systematically summarized cellulose-based biomedical compOsites such as Cellulose/hydroxyapatite, Cellulose/calcium carbonate, and Cellulose/ag composites.Based on our experience, we pointed out the problems and future development of cellulose-based BiomedicalItes.It is expected to provide reference for the resourceful, functional, high-value, and recycling applications of biomass.In the future, it is desired to develop the manufacturing strategy for large-scale synthesis of cellulose-basedComposites, explore its synthetic mechanism, and reveal the intrinsic relationship the among, cellulose functionalIALs, methods and properties.It is so known that cellulose is difficult to dissolve in water or organic solvents under normal conditions because of tHe intra-and in-ter-molecular hydrogen bonds.Therefore, the development of suitable solvent for dissolving of cellulose is ofMproving their industrial applications. More recently, the cellulose Nanocrystal has received attentions to its due excellent.It is suggested this cellu-lose-based functional composites can be fabricated by using cellulose as matrix.Furthermore, rapid progresses are an-ticipated in the preparation of various-cellulose-based multifunctional composites including efficient antibacterial, flame retardant, waterproof, fireproof, adsorptive, anti-counterfeiting, RapidDetective and analytical functions. Abstract  PDF
Maming guo
 
Vol 3, No 1: (Published) Preparation and mechanical properties of particle-reinforced alumi-num matrix composites Abstract  PDF
Shi yang
 
Vol 6, No 1: (Published) Graphene/Research progress of polyurethane composites Abstract  PDF
Ying chang
 
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