Microfibrillated cellulose-SiO2 composite nanopapers produced by spray deposition

Journal of Materials Science

Volumn 50, Issue 11, 2015, Pages 4095-4103

  Krol, Lisiê Ferreira ^a,b   Beneventi, Davide ^a,c,d   Alloin, Fannie ^b   Chaussy, Didier ^a,c,d  

^a UNIV GRENOBLE ALPES   (France)

^b LEPMI   (France)

^c CNRS   (France)

^d Laboratory of Pulp and Paper Industry LGP2 UMR CNRS 5518   (France)

Author keywords

[No Author keywords available]

Indexed keywords

CELLULOSE; DEPOSITION; DEPOSITS; LITHIUM-ION BATTERIES; MECHANICAL PROPERTIES; NANOPARTICLES;

CELLULOSE MATRIX; INTERNAL COHESION; LI-ION BATTERIES; LOW PERMEABILITY; MICROFIBRILLATED CELLULOSE; MICROFIBRILLATED CELLULOSE (MFC); RAPID FABRICATION; SPRAY DEPOSITION;

COMPOSITE MEMBRANES;

EID: 84939955847     PISSN: 00222461     EISSN: 15734803     Source Type: Journal    
DOI: 10.1007/s10853-015-8965-5     Document Type: Article

References (32)

1. Pääkkö M, Ankerfors M, Kosonen H, Nykanen A, Ahola S, Osterberg M, Ruoko-lainen J, Laine J, Larsson PT, Ikkala O, Lindström T (2007) Enzymatic hydrolysis combined with mechanical shearing and high-pressure homogenization for nanoscale cellulose fibrils and strong gels. Biomacromolecules 8:1934–1941
2. Meyer V, Tapin-Lingua S, Da Silva Perez D, Arndt T, Kautto J (2012) Technical opportunities and economic challenges to produce nanofibrillated cellulose in pilot scale: NFC delivery for applications in demonstrations trials. In: Proceed. SUNPAP EU project-final conference, Milan, Italy, 19–20 June 2012. http://sunpap.vtt.fi/finalconference2012.htm
3. Sandquist D (2013) New horizons for microfibrillated cellulose. Appita J 66:156–162
4. Siro I, Plackett D (2010) Microfibrillated cellulose and new nanocomposite materials: a review. Cellulose 17:459–494
5. Siqueira G, Bras J, Dufresne A (2010) Cellulosic bionanocomposites: a review of preparation, properties and applications. Polymers 2:728–765
6. Gonzalez I, Alcala M, Chinga-Carrasco G, Vilaseca F, Boufi S, Mutjé P (2014) From paper to nanopaper: evolution of mechanical and physical properties. Cellulose 21:2599–2609
7. Lavoine N, Desloges I, Dufresne A, Bras J (2012) Microfibrillated cellulose—its barrier properties and applications in cellulosic materials: a review. Carbohydr Polym 90:735–764
8. Zheng G, Cui Y, Karabulut E, Wågberg L, Zhu H, Hu L (2013) Nanostructured paper for flexible energy and electronic devices. MRS Bull 38:320–325
9. Jabbour L, Bongiovanni R, Chauss D, Gerbaldi C, Beneventi D (2013) Cellulose-based Li-ion batteries: a review. Cellulose 20:1523–1545
10. Syverud K, Stenius P (2009) Strength and barrier properties of MFC films. Cellulose 16:75–85
11. Sehaqui H, Liu A, Zhou Q, Berglound LA (2010) Fast preparation procedure for large, flat cellulose and cellulose/inorganic nanopaper structures. Biomacromolecules 11:2195–2198
12. Österberg M, Vartiainen J, Lucenius J, Hippi U, Seppälä J, Serimaa R, Laine J (2013) A fast method to produce strong NFC films as a platform for barrier and functional materials. Appl Mater Interfaces 5:4640–4647
13. Varanasi S, Batchelor WJ (2013) Rapid preparation of cellulose nanofibre sheet. Cellulose 20:211–215
14. Beneventi D, Chaussy D, Zeno E (2014) Rapid nanopaper production by spray deposition of concentrated microfibrillated cellulose slurries. Ind Crops Prod. doi:10.1016/j.indcrop.2014.11.023
15. Beneventi D, Chaussy D, Curtil D, Zolin L, Gerbaldi C, Penazzi N (2014) Highly porous paper loading with microfibrillated cellulose by spray coating on wet substrates. Ind Eng Chem Res 53:10982–10989
16. Beneventi D, Chaussy D, Curtil D, Zolin L, Bruno E, Bongiovanni R, Destro M, Gerbaldi C, Penazzi N, Tapin-Lingua S (2014) Pilot-scale elaboration of graphite/microfibrillated cellulose anodes for Li-ion batteries by spray deposition on a forming paper sheet. Chem Eng J 243:372–379
17. Kulachenko A, Denoyelle T, Galland S, Lindström SB (2012) Elastic properties of cellulose nanopaper. Cellulose 19:793–807
18. Pras O, Beneventi D, Chaussy D, Piette P, Tapin-Lingua S (2013) Use of microfibrillated cellulose and dendritic copper for the elaboration of conductive films from water- and ethanol-based dispersions. J Mater Sci 46:6911–6920
19. Jabbour L, Gerbaldi C, Chaussy D, Zeno E, Bodoardo S, Beneventi D (2010) Microfibrillated cellulose–graphite nanocomposites for highly flexible paper-like Li-ion battery electrodes. J Mater Chem 20:7344–7347
20. Sasso C, Elisa Zeno E, Petit-Conil M, Chaussy D, Belgacem N, Tapin-Lingua S, Beneventi D (2010) Highly conducting polypyrrole/cellulose nanocomposite films with enhanced mechanical properties. Macromol Mater Eng 295:934–941
21. Leijonmarck S, Cornell A, Lindbergh G, Wågberg L (2013) Flexible nano-paper-based positive electrodes for Li-ion batteries-preparation process and properties. Nano Energy 2:794–800
22. Huang X (2014) Performance evaluation of a non-woven lithium ion battery separator prepared through a paper-making process. J Power Source 256:96–101
23. Kim J-H, Kim J-H, Choi E-S, Yu HK, Kim JH, Wu Q, Chun S-J, Lee S-Y, Lee S-Y (2013) Colloidal silica nanoparticle assisted structural control of cellulose nanofiber paper separators for lithium-ion batteries. J Power Source 242:533–540
24. Zhang J, Yue L, Kong Q, Liu Z, Zhou X, Zhang C, Xu Q, Zhang B, Ding G, Qin B, Duan Y, Wang Q, Yao J, Cui G, Chen L (2014) Sustainable, heat resistant and flame-retardant cellulose-based composite separator for high-performance lithium ion battery. Sci Rep 4:3935. doi:10.1038/srep03935
25. Leijonmarck S, Cornell A, Lindbergh G, Wagberg L (2013) Single-paper flexible Li-ion battery cells through a paper-making process based on nano-fibrillated cellulose. J Mater Chem A 1:4671–4677
26. Stana-Kleinschek K, Ribitsch V (1998) Electrokinetic properties of processed cellulose fibers. Colloids Surf A 140:127–138
27. Fall AB, Lindström T, Sundman O, Ödberg L, Wagberg L (2011) Colloidal stability of aqueous nanofibrillated cellulose dispersions. Langmuir 27:11332–11338
28. Maouche-Chergui S, Grohens Y, Balnois E, Lebeau B (2014) Adhesion of silica particles on thin polymer films of flax cell wall. Mater Sci Appl 5:953–965
29. Zhang Y, Chen Y, Westerhoff P, Hristovski K, Crittenden JC (2008) Stability of commercial metal oxide nanoparticles in water. Water Res 42:2204–2212
30. Holmberg M, Wigren R, Erlandsson R, Claesson PM (1997) Interactions between cellulose and colloidal silica in the presence of polyelectrolytes. Colloids Surf A 129–130:175–183
31. Chun S-J, Choi E-S, Lee E-H, Kim JH, Lee S-Y, Lee S-Y (2012) Eco-friendly cellulose nanofiber paper-derived separator membranes featuring tunable nanoporous network channels for lithium-ion batteries. J Mater Chem 22:16618–16626
32. Koubaa A, Koran Z (1995) Measure of the internal bond strength of paper/board. Tappi J 78:103–111