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Cellulose nanopaper

Henriksson, M., Berglund, L.A., Isaksson, P., Lindstrom, T., Nishino, T. Cellulose nanopaper structures of high toughness. Biomacromolecules 9, 1579-1585 (2008)... [Pg.53]

Henriksson M, Berglund LA, Isaksson P, Lindstrom T, Nishino T (2008) Cellulose nanopaper stmctmes of high toughness. Biomacromolecules 9 1579-1585... [Pg.241]

Sehaqui H, Zhou Q, Ikkala O, Berglund LA (2011) Strong and tough cellulose nanopaper with high specific surface area and porosity. Biomacromolecules 12 3638-3644... [Pg.252]

Henriksson et al. [69] further used them to prepare porous cellulose nanopaper of remarkably high toughness. Nanopapers based on wood... [Pg.23]

Potential of nanocellulose has been established as the next generation renewable reinforcement for the production of renewable high performance biocomposites by the researchers. The tensile modulus and strength of most cellulose nanocomposites has been reported hnearly with the tensile modulus and strength of the cellulose nanopaper structures. Uniform dispersion of individual cellulose nanofibres in the polymer matrix may improve the composite properties [54]. In last few decades... [Pg.92]

Figure 3.18 Stress-strain curve of cellulose nanopaper from wood pulp with different viscosity average degree of polymerization P. ... Figure 3.18 Stress-strain curve of cellulose nanopaper from wood pulp with different viscosity average degree of polymerization P. ...
Sun X, Wu Q, Rtxi S (2015) Lei T, Comparison of highly transparent all-cellulose nanopaper prepared using sulfuric add and TEMPO-mediated oxidation methods. Cellulose 22 1123-1133... [Pg.173]

Sehaqui, H., Liu, H., Zhou, Q., Berglund, L.A. Fast preparation procedure for large, flat cellulose and cellulose/inorganic nanopaper structures. Biomacromolecules 11, 2195-2198 (2010)... [Pg.53]

Sehaqui H, Ezekiel Mushi N, Morimune S et al (2012) Cellulose nanofiber orientation in nanopaper and nanocomposites by cold drawing. ACS Appl Mater Interfaces 4 1043-1049... [Pg.204]

Figure 6.2 (A) Cetyltrimethyl ammonium bromide (CTAB) mediated synthesis of Ag nanoparticles on cellulose nanocrystals (B) Free standing clay nanopaper showing a large-area and translucent sample and inset (Scanning electron image of cryo-fractmed surface for hybrid MFC/montmorrillonite nanopaper) (C) FE-SEM micrograph of the cross-section of GNP-incorporated BC membrane and (D) FE-SEM image of freeze-dried pellicle of BC/D-ChNC nanocomposite synthesized in situ. Reprinted with permission from [60] and [117],... Figure 6.2 (A) Cetyltrimethyl ammonium bromide (CTAB) mediated synthesis of Ag nanoparticles on cellulose nanocrystals (B) Free standing clay nanopaper showing a large-area and translucent sample and inset (Scanning electron image of cryo-fractmed surface for hybrid MFC/montmorrillonite nanopaper) (C) FE-SEM micrograph of the cross-section of GNP-incorporated BC membrane and (D) FE-SEM image of freeze-dried pellicle of BC/D-ChNC nanocomposite synthesized in situ. Reprinted with permission from [60] and [117],...
Olsson RT, Azizi Samir MAS, Salazar Alvarez G, Strom V, Belova L, Bergjund LA, et al. Making flexible magnetic aerogels and stiff magnetic nanopaper using cellulose nanofibrils as templates. Nat Nanotechnol 2010 5 584-8. [Pg.97]

Liu A, Walther A, Ikkala O, Belova L, Berglund L. Clay nanopaper wit tough cellulose nanofiber matrix for fire retardancy and gas barrier functions. Biomacromolecules 2011 12 633-41. [Pg.256]


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See also in sourсe #XX -- [ Pg.126 ]

See also in sourсe #XX -- [ Pg.125 ]




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