Biopolymers
-10%
portes grátis
Biopolymers
Synthesis, Properties, and Emerging Applications
Mosquera, Marta E.G.; Sessini, Valentina; Ghosh, Srabanti
Elsevier - Health Sciences Division
04/2023
478
Mole
Inglês
9780323909396
15 a 20 dias
Descrição não disponível.
1 Introduction to biopolymer synthesis, properties, and emerging applications
2 Enzyme-catalyzed synthesis of polyesters,polyamides, and poly(ester-co-amide)s: a promising approach toward a greener synthetic pathway
3 Iongels prepared from biopolymers and their applications
4 Natural fibers: an important source in material design
5 Design of bioplastics with piezoelectric properties
6 The incorporation of new functionalities to biocomposites for biomedical applications
7 Processing of biopolymer loaded with porous inorganic fillers encapsulating active substance for active food packaging applications
8 Bio-based templates at the service of nanotechnology: a promising approach for a sustainable future
9 Biopolymers for the development of living materials for biomedical applications
10 Bio-based polymers synthesized from furan derivatives
11 Catalytic synthesis of biosourced polyesters from epoxides and cyclic anhydrides
12 Catalytic synthesis of polycarbonates using carbon dioxide
13 Automotive applications of biodegradable polymers
2 Enzyme-catalyzed synthesis of polyesters,polyamides, and poly(ester-co-amide)s: a promising approach toward a greener synthetic pathway
3 Iongels prepared from biopolymers and their applications
4 Natural fibers: an important source in material design
5 Design of bioplastics with piezoelectric properties
6 The incorporation of new functionalities to biocomposites for biomedical applications
7 Processing of biopolymer loaded with porous inorganic fillers encapsulating active substance for active food packaging applications
8 Bio-based templates at the service of nanotechnology: a promising approach for a sustainable future
9 Biopolymers for the development of living materials for biomedical applications
10 Bio-based polymers synthesized from furan derivatives
11 Catalytic synthesis of biosourced polyesters from epoxides and cyclic anhydrides
12 Catalytic synthesis of polycarbonates using carbon dioxide
13 Automotive applications of biodegradable polymers
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; Active substances; Automotive applications; Bifuran; Bio-based functional polymer; Bio-based polymers; Biobased; Biocomposite; Biocomposites; Biodegradable; Biodegradable polymers; Bioelectronics; Biofilm; Biomacromolecules; Biomaterial; Bioplastics; Biopolymer; Biopolymers; Biotechnology; Bis-furan; Carbon dioxide; Catalysis; Cellulose; Ceramics; Chemistry; Chitosan; Composite; Conductive polymers; Cyclic anhydrides; Cyclic carbonates; Diatomaceous earth (DE); ELMs; Electrospinning; Energy; Enzymatic polymerization; Epoxides; Food packaging; Fracture analytics; Furan; Furan resin; Furfural; Green chemistry; Halloysite nanotubes (HNTs); Henequen fiber; Hydroxymethylfurfural; Ionic liquids; Lewis acids; Lipase; Material design; Metals; Nanocomposites; Nanotechnology; Natural polymers; Optically active polymers; PA; PLLA; Piezoelectricity; Plastics; Polar polymers; Poly(ester-co-amide)s; Poly(ethylene furanoate); Poly(ethylene terephthalate); Polyamides; Polycarbonates; Polyesters; Polyhydroxyalkanoates; Polylactic acid; Polymers; ROCOP; Renewable polyesters; Ring-opening polymerization; Skin patches; Smart materials; Sugarcane bagasse; Template-based nanomaterials; Thermoplastic matrix composite; Tissue engineering
1 Introduction to biopolymer synthesis, properties, and emerging applications
2 Enzyme-catalyzed synthesis of polyesters,polyamides, and poly(ester-co-amide)s: a promising approach toward a greener synthetic pathway
3 Iongels prepared from biopolymers and their applications
4 Natural fibers: an important source in material design
5 Design of bioplastics with piezoelectric properties
6 The incorporation of new functionalities to biocomposites for biomedical applications
7 Processing of biopolymer loaded with porous inorganic fillers encapsulating active substance for active food packaging applications
8 Bio-based templates at the service of nanotechnology: a promising approach for a sustainable future
9 Biopolymers for the development of living materials for biomedical applications
10 Bio-based polymers synthesized from furan derivatives
11 Catalytic synthesis of biosourced polyesters from epoxides and cyclic anhydrides
12 Catalytic synthesis of polycarbonates using carbon dioxide
13 Automotive applications of biodegradable polymers
2 Enzyme-catalyzed synthesis of polyesters,polyamides, and poly(ester-co-amide)s: a promising approach toward a greener synthetic pathway
3 Iongels prepared from biopolymers and their applications
4 Natural fibers: an important source in material design
5 Design of bioplastics with piezoelectric properties
6 The incorporation of new functionalities to biocomposites for biomedical applications
7 Processing of biopolymer loaded with porous inorganic fillers encapsulating active substance for active food packaging applications
8 Bio-based templates at the service of nanotechnology: a promising approach for a sustainable future
9 Biopolymers for the development of living materials for biomedical applications
10 Bio-based polymers synthesized from furan derivatives
11 Catalytic synthesis of biosourced polyesters from epoxides and cyclic anhydrides
12 Catalytic synthesis of polycarbonates using carbon dioxide
13 Automotive applications of biodegradable polymers
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D printing; Active substances; Automotive applications; Bifuran; Bio-based functional polymer; Bio-based polymers; Biobased; Biocomposite; Biocomposites; Biodegradable; Biodegradable polymers; Bioelectronics; Biofilm; Biomacromolecules; Biomaterial; Bioplastics; Biopolymer; Biopolymers; Biotechnology; Bis-furan; Carbon dioxide; Catalysis; Cellulose; Ceramics; Chemistry; Chitosan; Composite; Conductive polymers; Cyclic anhydrides; Cyclic carbonates; Diatomaceous earth (DE); ELMs; Electrospinning; Energy; Enzymatic polymerization; Epoxides; Food packaging; Fracture analytics; Furan; Furan resin; Furfural; Green chemistry; Halloysite nanotubes (HNTs); Henequen fiber; Hydroxymethylfurfural; Ionic liquids; Lewis acids; Lipase; Material design; Metals; Nanocomposites; Nanotechnology; Natural polymers; Optically active polymers; PA; PLLA; Piezoelectricity; Plastics; Polar polymers; Poly(ester-co-amide)s; Poly(ethylene furanoate); Poly(ethylene terephthalate); Polyamides; Polycarbonates; Polyesters; Polyhydroxyalkanoates; Polylactic acid; Polymers; ROCOP; Renewable polyesters; Ring-opening polymerization; Skin patches; Smart materials; Sugarcane bagasse; Template-based nanomaterials; Thermoplastic matrix composite; Tissue engineering
