92 Publications (Page 3 of 4)
2020
Lignocellulosics: Renewable Feedstock for (Tailored) Functional Materials and NanotechnologyFilpponen, I.⋅Peresin, M.S. and Nypelö, T.(pp. 1-385)
On the potential of lignin-containing cellulose nanofibrils (LCNFs): a review on properties and applicationsSolala, I.⋅Iglesias, M.C. and Peresin, M.S.(pp. 1853-1877)
Oriented strand board with improved dimensional stability by extraction of hemicellulosesHornus, Natalia⋅Cheng, George⋅Erramuspe, Iris Beatriz Vega⋅Peresin, Maria Soledad⋅Gallagher, Tom and Via, Brian(pp. 257–265). Society of Wood Science and Technology
Pulping processes and their effects on cellulose fibers and nanofibrillated cellulose properties: A reviewIglesias, M.C.⋅Gomez-Maldonado, D.⋅Via, B.K.⋅Jiang, Z. and Peresin, M.S.(pp. 10-21)
Surface interactions between bacterial nanocellulose and B-complex vitaminsSánchez-Osorno, D.M.⋅Gomez-Maldonado, D.⋅Castro, C. and Soledad Peresin, M.
The effect of residual lignin on the rheological properties of cellulose nanofibril suspensionsIglesias, M.C.⋅Shivyari, N.⋅Norris, A.⋅Martin-Sampedro, R.⋅Eugenio, M.E.⋅Lahtinen, P.⋅Auad, M.L.⋅Elder, T.⋅Jiang, Z.⋅Frazier, C.E. and Peresin, M.S.(pp. 370-381)
2019
Cellulose-cyclodextrin co-polymer for the removal of cyanotoxins on water sourcesGomez-Maldonado, D.⋅Erramuspe, I.B.V.⋅Filpponen, I.⋅Johansson, L.-S.⋅Lombardo, S.⋅Zhu, J.⋅Thielemans, W. and Peresin, M.S.
Natural polymers as alternative adsorbents and treatment agents for water remediationGomez-Maldonado, D.⋅Erramuspe, I.B.V. and Peresin, M.S.(pp. 10093-10160)
2018
Aqueous acetone fractionation of kraft, organosolv and soda ligninsDomínguez-Robles, J.⋅Tamminen, T.⋅Liitiä, T.⋅Peresin, M.S.⋅Rodríguez, A. and Jääskeläinen, A.-S.(pp. 979-987)
Cellulose micro- and nanofibrils (CMNF) manufacturing - financial and risk assessment⋅Assis, C.A.⋅Iglesias, M.C.⋅Iglesias, Maria C⋅Bilodeau, M.⋅Bilodeau, Michael⋅Johnson, Donna⋅Johnson, D.⋅Phillips, Richard⋅Phillips, R.⋅Peresin, Maria S⋅Peresin, M.S.⋅Bilek, E.M.T.⋅Rojas, Orlando J⋅Rojas, O.J.⋅Venditti, R.⋅Venditti, Richard⋅Gonzalez, R. and Gonzalez, Ronalds(pp. 251-264)
Cellulose nanofibrils as a replacement for xanthan gum (XGD) in water based muds (WBMs) to be used in shale formationsVillada, Y.⋅Iglesias, M.C.⋅Casis, N.⋅Erdmann, E.⋅Peresin, M.S. and Estenoz, D.(pp. 7091-7112)
Improving the water resistance of nanocellulose-based films with polyhydroxyalkanoates processed by the electrospinning coating techniqueCherpinski, A.⋅Torres-Giner, S.⋅Vartiainen, J.⋅Peresin, M.S.⋅Lahtinen, P. and Lagaron, J.M.(pp. 1291-1307)
Lignin-based hydrogels with ?super-swelling? capacities for dye removalDomínguez-Robles, J.⋅Peresin, M.S.⋅Tamminen, T.⋅Rodríguez, A.⋅Larrañeta, E. and Jääskeläinen, A.-S.(pp. 1249-1259)
Student committee career roundtableNelson, K.⋅Shatkin, J.A.⋅Lapidot, S.⋅Jiang, F.⋅Peresin, M.S. and Rudie, A.(pp. 926-937)
Vitamin B complex encapsulated on bacterial nanocelluloseGómez-Maldonado, D.⋅Sánchez, D.⋅Castro, C. and Peresin, M.S.(pp. 278-285)
2017
Conversion Economics of Forest Biomaterials: Risk and Financial Analysis of CNC ManufacturingAssis, C.A.⋅Houtman, C.⋅Phillips, R.⋅Bilek, E.M.T.⋅Rojas, O.J.⋅Pal, L.⋅Peresin, M.S.⋅Jameel, H. and Gonzalez, R.(pp. 682-700)
Films from xylan/chitosan complexes: preparation and characterizationSchnell, C.N.⋅Galván, M.V.⋅Peresin, M.S.⋅Inalbon, M.C.⋅Vartiainen, J.⋅Zanuttini, M.A. and Mocchiutti, P.(pp. 4393-4403)
Nanocellulosic materials and applicationsPeresin, M.S. and Elder, T.
Spectroscopy Studies of Cellulose Nanofiber- and Cellulose Nanocrystal-Based NanocompositesAranguren, Mirta I.⋅Mucci, Verónica and Peresin, Marı́a Soledad(pp. 581–608). Wiley-VCH Verlag GmbH & Co. KGaA
Understanding the mechanisms of oxygen diffusion through surface functionalized nanocellulose filmsPeresin, M.S.⋅Kammiovirta, K.⋅Heikkinen, H.⋅Johansson, L.-S.⋅Vartiainen, J.⋅Setälä, H.⋅Österberg, M. and Tammelin, T.(pp. 309-317)
2016
Cationic and anionic polyelectrolyte complexes of xylan and chitosan. Interaction with lignocellulosic surfacesMocchiutti, P.⋅Schnell, C.N.⋅Rossi, G.D.⋅Peresin, M.S.⋅Zanuttini, M.A. and Galván, M.V.(pp. 89-98)
Residual lignin inhibits thermal degradation of cellulosic fiber sheetsVänskä, E.⋅Vihelä, T.⋅Peresin, M.S.⋅Vartiainen, J.⋅Hummel, M. and Vuorinen, T.(pp. 199-212)
The role of residual lignin on nanofibrillate cellulose and materials made thereofPeresin, M.S.⋅Rojo, E. and Rojas, O.J.(pp. 258-269)
2015
Comparison of properties between cellulose nanofibrils made from Banana, Sugar Beet, Hemp, Softwood and Hardwood PulpsVartiainen, J.⋅Lahtinen, P.⋅Kaljunen, T.⋅Kunnari, V.⋅Peresin, M.S. and Tammelin, T.(pp. 57-60)
