Publicaciones 2016

1.-I. Dávila, O. Gordobil,  J. Labidi, P.Gullón. Assessment of suitability of vine shoots for hemicellulosic oligosaccharides production through aqueous processing. Bioresource Technology (2016), 211, pp. 636-644.

2.-E. Robles, A.M. Salaberria, R. Herrera, S.C.M. Fernandes,  J. Labidi.  Self-bonded composite films based on cellulose nanofibers and chitin nanocrystals as antifungal materials. Carbohydrate Polymers (2016), 144, pp. 41-49.

3.-P.S.B. Dos Santos, X. Erdocia, D.A. Gatto, J. Labidi. Bio-oil from base-catalyzed depolymerization of organosolv lignin as an antifungal agent for wood. Wood Science and Technology (2016), 50 (3), pp. 599-615.

4.-A.Orue, A. Jauregi, U. Unsuain, J. Labidi,  A. Eceiza, A. Arbelaiz. The effect of alkaline and silane treatments on mechanical properties and breakage of sisal fibers and poly(lactic acid)/sisal fiber composites. Composites Part A: Applied Science and Manufacturing (2016), 84, pp. 186-195.

5.-O. Gordobil, R. Moriana,  L. Zhang, J. Labidi, O. Sevastyanova. Assesment of technical lignins for uses in biofuels and biomaterials: Structure-related properties, proximate analysis and chemical modification. Industrial Crops and Products (2016), 83, pp. 155-165.

6.-X. Erdocia,  R.Prado, J. Fernández-Rodríguez, J. Labidi. Depolymerization of Different Organosolv Lignins in Supercritical Methanol, Ethanol, and Acetone to Produce Phenolic Monomers. ACS Sustainable Chemistry and Engineering (2016), 4 (3), pp. 1373-1380.

7.-N. Herrera, H. Roch, A.M. Salaberria, M.A. Pino-Orellana, J. Labidi, S.C.M. Fernandes, D. Radic, A. Leiva, , K. Oksman. Functionalized blown films of plasticized polylactic acid/chitin nanocomposite: Preparation and characterization. Materials and Design (2016) , 92, pp. 846-852.

8.-R. Prado, X. Erdocia, J. Labidi. Study of the influence of reutilization ionic liquid on lignin extraction. Journal of Cleaner Production (2016) , 111, pp. 125-132.

9.-R. Prado, A. Brandt, X. Erdocia, J. Hallet, T. Welton, J. Labidi. Lignin oxidation and depolymerisation in ionic liquids. Green Chemistry (2016) , 18 (3), pp. 834-841.

10.-A. Sequeiros, L. Serrano, J. Labidi. Bromination of guaiacol and syringol using ionic liquids to obtain bromides. Journal of Chemical Technology and Biotechnology (2016), 91(6),  pp.1809–1815.

11.-O. Gordobil, I. Egüés, J. Labidi. Modification of Eucalyptus and Spruce organosolv lignins with fatty acids to use as filler in PLA. Reactive and Functional Polymers (2016), 104, pp. 45-52.

12.-A. Labidi, A.M. Salaberria, S. C. M. Fernandes, J. Labidi, M. Abderrabba. Adsorption of copper on chitin-based materials: kinetic and thermodynamic. Journal of the Taiwan Institute of Chemical Engineers (2016),  65, pp. 140-148.

13.-A. Mabrouk, X. Erdocia, M.G. Alriols, M.R. Jeday, J. Labidi.  Exergy analysis: An optimization tool for the performance evaluation of an organosolv process. Applied Thermal Engineering (2016), 106, pp. 1062-1066.

14.-S. Montes,  I. Azcune,  G. Cabañero,  H-J. Grande,  I. Odriozola, J. Labidi. Functionalization of Cellulose Nanocrystals in Choline Lactate Ionic Liquid  Materials (2016), 9(7),pp. 499.

15.-B.D. Mattos, T.V. Lourençon, D.A. Gatto, L. Serrano, , J. Labidi. Chemical characterization of wood and extractives of fast-growing Schizolobium parahyba and Pinus taeda. Wood Material Science and Engineering (2016), 11 (4), pp. 209-216.

16.-G. Astray, B. Gullón, J.Labidi, P. Gullón. Comparison between developed models using response surface methodology (RSM) and artificial neural networks (ANNs) with the purpose to optimize oligosaccharide mixtures production from sugar beet pulp. Industrial Crops and Products (2016), 92, pp. 290-299.

17.-R. Prado, X. Erdocia, G. F. De Gregorio, J. Labidi, and T. Welton. Willow Lignin Oxidation and Depolymerization under Low Cost Ionic Liquid. ACS Sustainable Chemistry & Engineering (2016), 4 (10), pp. 5277-5288.

18.-G. F. De Gregorio, R. Prado, C. Vriamont, X. Erdocia, J. Labidi, J. P. Hallett, Tom Welton. Oxidative Depolymerization of Lignin Using a Novel Polyoxometalate-Protic Ionic Liquid System. ACS Sustainable Chemistry & Engineering (2016), 4 (11), pp. 6031-6036.

19.-M. Yahyaoui, O. Gordobil, R. H. Díaz, M. Abderrabba, J. Labidi. Development of novel antimicrobial films based on poly(lactic acid) and essential oils. Reactive and Functional Polymers (2016), 109, pp. 1-8.

20.-O. Gordobil, E. Robles, I. Egüés, J. Labidi. Lignin-ester derivatives as novel thermoplastic materials.  RSC Adv. (2016), 6, pp. 86909-86917.

21.-E. Robles, E. Czubak, G. Kowaluk, J. Labidi. Lignocellulosic-based multilayer self-bonded composites with modified cellulose nanoparticles . Composites Part B: Engineering (2016), 106, pp. 300-307.

22.-R. de A. Delucis, R. H. Diaz, J. Labidi, D. Alberto Gatto. Color de la madera de dos eucaliptos expuestas al intemperismo natural en tres entornos ambientales diferentes. Maderas. Ciencia y tecnología (2016) 18(1), pp. 133 - 142.

23.-T. V. Lourençon, P. S. B. dos Santos, J. Labidi, D.A. Gatto, M. R. F. Gonçalves.  Wood under fresh water: Effect on the chemical properties and on decay resistance . Maderas. Ciencia y tecnología (2016).

24.-P. Dos S. Silvia, D. S., Darci G., J. Labidi. Fire resitance of wood treated by emulsion from Kraft lignin . Drewno(2016), 59 (197). DOI:10.12841/wood.1644-3985.C28.18.

25.-D. T. Silva, N. H. Bianchini, Marlove F. B. Muniz, B. M. Heinzmann, J. Labidi. Chemical composition and inhibitory effects of Nectandra Grandiflora leaves essential oil against wood decay fungi Drewno (2016), 59 (197). DOI: 10.12841/wood.1644-3985.C29.10.
26.-R. Herrera, T. Krystofiak, J. Labidi, R. Llano-Ponte. Characterization of thermally modified wood at different industrial conditions . Drewno (2016), 59 (197). DOI: 10.12841/wood.1644-3985.C05.15.

27.-R. Herrera, D. Thomas da Silva, R. Llano-Ponte, J. Labidi. Characterization of pine wood liquid and solid residues generated during industrial hydrothermal treatment. Biomass and Bioenergy (2016), 95, pp. 174-181.
28.-A. García, A.Gandini, J. Labidi, N. Belgacem, J. Bras. Industrial and crop wastes: A new source for nanocellulose biorefinery. Industrial Crops and Products (2016), 93, pp. 26-38.
29. Ananda M. Barbosa, Eduardo Robles, Juliana S. Ribeiro, Rafael G. Lund, Neftali L. V. Carreño and Jalel Labidi. Cellulose Nanocrystal Membranes as Excipients for Drug Delivery Systems. Materials (2016) 9(12), 1002; doi:10.3390/ma9121002
30.- A. García,  J. Labidi, N. Belgacem, J. Bras. The nanocellulose biorefinery: woody versus herbaceous agricultural wastes for NCC production. Cellulose (2016). doi:10.1007/s10570-016-1144-2