Core-shell cellulose nanofibers for biocomposites - Nanostructural effects in hydrated state

Carbohydrate Polymers

Volumn 125, Issue , 2015, Pages 92-102

  Prakobna, Kasinee ^a   Terenzi, Camilla ^a   Zhou, Qi ^a   Furó, István ^a   Berglund, Lars A ^a  

^a ROYAL INSTITUTE OF TECHNOLOGY   (Sweden)

Author keywords

2H NMR relaxometry; Biocomposites; Cellulose nanofibers; Mechanical properties; Moisture sorption; Xyloglucan

Indexed keywords

CELLULOSE; COMPOSITE MATERIALS; DYNAMIC MECHANICAL ANALYSIS; DYNAMICS; FILTRATION; HYDRATION; INTERFACE STATES; LIGHT SCATTERING; MECHANICAL PROPERTIES; MECHANISMS; MOISTURE; MOLECULAR DYNAMICS; NANOFIBERS; SHELLS (STRUCTURES); SORPTION; TENSILE TESTING; WOOD;

BIO-COMPOSITES; CELLULOSE NANOFIBERS; MOISTURE SORPTION; NMR RELAXOMETRY; XYLOGLUCANS;

PACKAGING MATERIALS;

CELLULOSE; MECHANICAL PROPERTIES; MOISTURE;

CELLULOSE; GEL; GLUCAN; NANOCOMPOSITE; NANOFIBER; WATER; XYLAN; XYLOGLUCAN;

ANALOGS AND DERIVATIVES; CHEMISTRY; GEL; WETTABILITY;

CELLULOSE; GELS; GLUCANS; NANOCOMPOSITES; NANOFIBERS; WATER; WETTABILITY; XYLANS;

EID: 84925652982     PISSN: 01448617     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbpol.2015.02.059     Document Type: Article

References (47)

1. F. Ansari, S. Galland, M. Johansson, C.J.G. Plummer, and L.A. Berglund Cellulose nanofiber network for moisture stable, strong and ductile biocomposites and increased epoxy curing rate Composites Part A: Applied Science and Manufacturing 63 2014 35 44
2. S. Arola, J.M. Malho, P. Laaksonen, M. Lille, and M.B. Linder The role of hemicellulose in nanofibrillated cellulose networks Soft Matter 9 2013 1319 1326
3. M. Bergenstråhle, L.A. Berglund, and K. Mazeau Thermal response in crystalline Iβ cellulose: A molecular dynamics study Journal of Physical Chemistry B 111 2007 9138 9145
4. L.A. Berglund, and T. Peijs Cellulose biocomposites - From bulk moldings to nanostructured systems MRS Bulletin 3 2010 201 207
5. N. Butchosa, and Q. Zhou Water redispersible cellulose nanofibrils adsorbed with carboxymethyl cellulose Cellulose 21 2014 4349 4358
6. D.J. Cosgrove Growth of the plant cell wall Nature Reviews: Molecular Cell Biology 6 2005 850 861
7. A.G. Cunha, Q. Zhou, P.T. Larsson, and L.A. Berglund Topochemical acetylation of cellulose nanopaper structures for biocomposites: Mechanisms for reduced water vapour sorption Cellulose 21 2014 2773 2787
8. E.T. Engelund, L.G. Thygesen, S. Svensson, and C.A.S. Hill A critical discussion of the physics of wood-water interactions Wood Science and Technology 47 2013 141 161
9. G.J. Fleer, M.A. Cohen Stuart, J.M.H.M. Scheutjens, T. Cosgrove, and B. Vincent Polymers at interfaces 1993 Chapman and Hall London
10. C. Fry Stephen The structure and functions of xyloglucan Journal of Experimental Botany 40 1989 1 11
11. I. Furó, and B. Halle 2D quadrupolar-echo spectroscopy with coherence selection and optimized pulse angle Journal of Magnetic Resonance 98 1992 388 407
12. I. Furó, and N. Hedin Noise reduction in quadrupolar echo spectra at short echo times Journal of Magnetic Resonance 152 2001 214 216
13. J. Gu, and J.M. Catchmark The impact of cellulose structure on binding interactions with hemicellulose and pectin Cellulose 20 2013 1613 1627
14. T. Hayashi Xyloglucans in the primary cell wall Annual Review of Plant Physiology and Plant Molecular Biology 40 1989 139 168
15. M. Henriksson, G. Henriksson, L.A. Berglund, and T. Lindström An environmentally friendly method for enzyme-assisted preparation of microfibrillated cellulose (MFC) nanofibers European Polymer Journal 43 2007 3434 3441
16. M. Henriksson, L.A. Berglund, P. Isaksson, T. Lindström, and T. Nishino Cellulose nanopaper structure of high toughness Biomacromolecules 9 2008 1579 1585
17. M.A. Hubbe, and O.J. Rojas Colloidal stability and aggregation of lignocellulosic material in aqueous: A review BioResources 3 2008 1419 1491
18. A. Kelly Interface effects and the work of fracture of a fibrous composite Proceedings of the Royal Society of London A 319 1970 95 116
19. D.-Y. Kim, Y. Nishiyama, M. Wada, S. Kuga, and T. Okano Thermal decomposition of cellulose crystallites in wood Holzforschung 55 2001 521 524
20. D. Klemm, F. Kramer, S. Moritz, T. Lindstrom, M. Ankerfors, and D. Gray Nanocelluloses: A new family of nature-based materials Angewandte Chemie International Edition in English 50 2011 5438 5466
21. J. Kochumalayil, H. Sehaqui, Q. Zhou, and L.A. Berglund Tamarind seed xyloglucan - A thermostable high-performance biopolymer from non-food feedstock Journal of Materials Chemistry 20 2010 4321 4327
22. J.J. Kochumalayil, M. Bergenstrahle-Wohlert, S. Utsel, L. Wagberg, Q. Zhou, and L.A. Berglund Bioinspired and highly oriented clay nanocomposites with a xyloglucan biopolymer matrix: Extending the range of mechanical and barrier properties Biomacromolecules 14 2013 84 91
23. D.U. Lima, W. Loh, and M.S. Buckeridge Xyloglucan-cellulose interaction depends on the sidechains and molecular weight of xyloglucan Plant Physiology and Biochemistry 42 2004 389 394
24. A. Liu, A. Walther, O. Ikkala, L. Belova, and L.A. Berglund Clay nanopaper with tough cellulose nanofiber matrix for fire retardancy and gas barrier functions Biomacromolecules 12 2011 633 641
25. J. Lucenius, K. Parikka, and M. Österberg Nanocomposite films based on cellulose nanofibrils and water-soluble polysaccharides Reactive and Functional Polymers 85 2014 167 174
26. X. Ma, J. Yu, and J.F. Kennedy Studies on the properties of natural fibers-reinforced thermoplastic starch composites Carbohydrate Polymers 62 2005 19 24
27. M. Nogi, S. Iwamoto, A.N. Nakagaito, and H. Yano Optically transparent nanofiber paper Advanced Materials 21 2009 1595 1598
28. K. Prakobna, S. Galland, and L.A. Berglund High-performance and moisture-stable cellulose-starch nanocomposites based on bioinspired core-shell nanofibers Biomacromolecule 2015 10.1021/bm5018194
29. T. Saito, R. Kuramae, J. Wohlert, L.A. Berglund, and A. Isogai An ultrastrong nanofibrillar biomaterial: The strength of single cellulose nanofibrils revealed via sonication-induced fragmentation Biomacromolecules 14 2013 248 253
30. H. Sehaqui, A. Liu, Q. Zhou, and L.A. Berglund Fast preparation procedure for large, flat cellulose and cellulose-inorganic nanopaper structures Biomacromolecules 11 2010 2195 2198
31. H. Sehaqui, M. Salajková, Q. Zhou, and L.A. Berglund Mechanical performance tailoring of tough ultra-high porosity foams prepared from cellulose I nanofiber suspensions Soft Matter 6 2010 1824 1832
32. H. Sehaqui, Q. Zhou, and L.A. Berglund Nanostructured biocomposites of high toughness - A wood cellulose nanofiber network in ductile hydroxyethylcellulose matrix Soft Matter 7 2011 7342 7350
33. H. Sehaqui, Q. Zhou, O. Ikkala, and L.A. Berglund Strong and tough cellulose nanopaper with high specific surface area and porosity Biomacromolecule 12 2011 3638 3644
34. H. Sehaqui, S. Morimune, T. Nishino, and L.A. Berglund Stretchable and strong cellulose nanopaper structures based on polymer-coated nanofiber networks: An alternative to nonwoven porous membranes from electrospinning Biomacromolecules 13 2012 3661 3667
35. A.M. Stepan, F. Ansari, L. Berglund, and P. Gatenholm Nanofibrillated cellulose reinforced acetylated arabinoxylan films Composites Science and Technology 98 2014 72 78
36. J.S. Stevanic, K.S. Mikkonen, C. Xu, M. Tenkanen, L. Berglund, and L. Salmén Wood cell wall mimicking for composite films of spruce nanofibrillated cellulose with spruce galactoglucomannan and arabinoglucuronoxylan Journal of Materials Science 49 2014 5043 5055
37. J. Stiernstedt, N. Nordgren, L. Wagberg, H. Brumer III, D.G. Gray, and M.W. Rutland Friction and forces between cellulose model surfaces: A comparison Journal of Colloid and Interface Science 303 2006 117 123
38. A.J. Svagan, S.M.A.S. Azizi, and L.A. Berglund Biomimetic polysaccharide nanocomposites of high cellulose content and high toughness Biomacromolecules 8 2007 2556 2563
39. 13C NMR relaxometry (submitted for publication).
40. J.-P. Vincken, A.D. Keizer, G. Beldman, and A.G.J. Voragen Fractionation of xyloglucan fragments and their interaction with cellulose Plant Physiology 108 1995 1579 1585
41. A. Walther, I. Bjurhager, J.M. Malho, J. Pere, J. Ruokolainen, and L.A. Berglund Large-area, lightweight and thick biomimetic composites with superior material properties via fast, economic, and green pathways Nano Letter 10 2010 2742 2748
42. S.E.C. Whitney, J.E. Brigham, A.H. Darke, J.S.G. Reid, and M.J. Gidley In vitro assembly of cellulose/XG networks: Ultrastructure and molecular Plant Journal 8 1995 491 504
43. S.E.C. Whitney, M.G.E. Gothard, J.T. Mitchell, and M.J. Gidley Roles of cellulose and xyloglucan in determining the mechanical properties of primary plant cell walls Plant Physiology 121 1999 657 663
44. H. Yang, R. Yan, H. Chen, D.H. Lee, and C. Zheng Characteristics of hemicellulose, cellulose and lignin pyrolysis Fuel 86 2007 1781 1788
45. Q. Zhang, H. Brumer, H. Agren, and Y. Tu The adsorption of xyloglucan on cellulose: Effects of explicit water and side chain variation Carbohydrate Research 346 2011 2595 2602
46. Q. Zhou, M.W. Rutland, T.T. Teeri, and H. Brumer Xyloglucan in cellulose modification Cellulose 14 2007 625 641
47. Q. Zhou, E. Malm, H. Nilsson, P.T. Larsson, T. Iversen, and L.A. Berglund Nanostructured biocomposites based on bacterial cellulosic nanofibers compartmentalized by a soft hydroxyethylcellulose matrix coating Soft Matter 5 2009 4124 4130