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Particle size distributions for cellulose nanocrystals measured by atomic force microscopy: an interlaboratory comparison
Bushell, M., Meija, J., Chen, M., Batchelor, W., Browne, C., Cho, J. Y., … Johnston, L. J. (2021). Particle size distributions for cellulose nanocrystals measured by atomic force microscopy: an interlaboratory comparison. Cellulose, 28(3), 1387-1403. https://doi.org/10.1007/s10570-020-03618-4
Facile and universal method for the synthesis of metal nanoparticles supported onto carbon foams
Sehaqui, H., Brahmi, Y., & Ju, W. (2020). Facile and universal method for the synthesis of metal nanoparticles supported onto carbon foams. Cellulose, 27(1), 263-271. https://doi.org/10.1007/s10570-019-02805-2
Water accessibility to hydroxyls confined in solid wood cell walls
Thybring, E. E., Piqueras, S., Tarmian, A., & Burgert, I. (2020). Water accessibility to hydroxyls confined in solid wood cell walls. Cellulose, 27(10), 5617-5627. https://doi.org/10.1007/s10570-020-03182-x
Moisture-induced crossover in the thermodynamic and mechanical response of hydrophilic biopolymer
Zhang, C., Coasne, B., Guyer, R., Derome, D., & Carmeliet, J. (2020). Moisture-induced crossover in the thermodynamic and mechanical response of hydrophilic biopolymer. Cellulose, 27(1), 89-99. https://doi.org/10.1007/s10570-019-02808-z
Superhydrophobicity of nanofibrillated cellulose materials through polysiloxane nanofilaments
Orsolini, P., Antonini, C., Stojanovic, A., Malfait, W. J., Caseri, W. R., & Zimmermann, T. (2018). Superhydrophobicity of nanofibrillated cellulose materials through polysiloxane nanofilaments. Cellulose, 25(2), 1127-1146. https://doi.org/10.1007/s10570-017-1636-8
Filtration performance of air filter paper containing kapok fibers against oil aerosols
Sun, Z., Tang, M., Song, Q., Yu, J., Liang, Y., Hu, J., & Wang, J. (2018). Filtration performance of air filter paper containing kapok fibers against oil aerosols. Cellulose, 25(11), 6719-6729. https://doi.org/10.1007/s10570-018-1989-7
Hydroxyl accessibility in wood cell walls as affected by drying and re-wetting procedures
Engelund Thybring, E., Garbrecht Thygesen, L., & Burgert, I. (2017). Hydroxyl accessibility in wood cell walls as affected by drying and re-wetting procedures. Cellulose, 24(6), 2375-2384. https://doi.org/10.1007/s10570-017-1278-x
Microfibrillated cellulose foams obtained by a straightforward freeze-thawing-drying procedure
Josset, S., Hansen, L., Orsolini, P., Griffa, M., Kuzior, O., Weisse, B., … Geiger, T. (2017). Microfibrillated cellulose foams obtained by a straightforward freeze-thawing-drying procedure. Cellulose, 24(9), 3825-3842. https://doi.org/10.1007/s10570-017-1377-8
Moisture adsorption of glucomannan and xylan hemicelluloses
Kulasinski, K., Salmén, L., Derome, D., & Carmeliet, J. (2016). Moisture adsorption of glucomannan and xylan hemicelluloses. Cellulose, 23(3), 1629-1637. https://doi.org/10.1007/s10570-016-0944-8
Dry, hydrophobic microfibrillated cellulose powder obtained in a simple procedure using alkyl ketene dimer
Yan, Y., Amer, H., Rosenau, T., Zollfrank, C., Dörrstein, J., Jobst, C., … Li, J. (2016). Dry, hydrophobic microfibrillated cellulose powder obtained in a simple procedure using alkyl ketene dimer. Cellulose, 23(2), 1189-1197. https://doi.org/10.1007/s10570-016-0887-0
Nanofibrillation of pulp fibers by twin-screw extrusion
Ho, T. T. T., Abe, K., Zimmermann, T., & Yano, H. (2015). Nanofibrillation of pulp fibers by twin-screw extrusion. Cellulose, 22(1), 421-433. https://doi.org/10.1007/s10570-014-0518-6
Rheology of nanofibrillated cellulose/acrylate systems for coating applications
Grüneberger, F., Künniger, T., Zimmermann, T., & Arnold, M. (2014). Rheology of nanofibrillated cellulose/acrylate systems for coating applications. Cellulose, 21(3), 1313-1326. https://doi.org/10.1007/s10570-014-0248-9
A comparative molecular dynamics study of crystalline, paracrystalline and amorphous states of cellulose
Kulasinski, K., Keten, S., Churakov, S. V., Derome, D., & Carmeliet, J. (2014). A comparative molecular dynamics study of crystalline, paracrystalline and amorphous states of cellulose. Cellulose, 21(3), 1103-1116. https://doi.org/10.1007/s10570-014-0213-7
Cellulose and chitin nanomaterials for capturing silver ions (Ag<SUP>+</SUP>) from water via surface adsorption
Liu, P., Sehaqui, H., Tingaut, P., Wichser, A., Oksman, K., & Mathew, A. P. (2014). Cellulose and chitin nanomaterials for capturing silver ions (Ag+) from water via surface adsorption. Cellulose, 21(1), 449-461. https://doi.org/10.1007/s10570-013-0139-5
Enhancing adsorption of heavy metal ions onto biobased nanofibers from waste pulp residues for application in wastewater treatment
Sehaqui, H., Perez de Larraya, U., Liu, P., Pfenninger, N., Mathew, A. P., Zimmermann, T., & Tingaut, P. (2014). Enhancing adsorption of heavy metal ions onto biobased nanofibers from waste pulp residues for application in wastewater treatment. Cellulose, 21(4), 2831-2844. https://doi.org/10.1007/s10570-014-0310-7
Hydrophobic cellulose nanopaper through a mild esterification procedure
Sehaqui, H., Zimmermann, T., & Tingaut, P. (2014). Hydrophobic cellulose nanopaper through a mild esterification procedure. Cellulose, 21(1), 367-382. https://doi.org/10.1007/s10570-013-0110-5
Preparation and characterization of cationic nanofibrillated cellulose from etherification and high-shear disintegration processes
Ho, T. T. T., Zimmermann, T., Hauert, R., & Caseri, W. (2011). Preparation and characterization of cationic nanofibrillated cellulose from etherification and high-shear disintegration processes. Cellulose, 18(6), 1391-1406. https://doi.org/10.1007/s10570-011-9591-2
Preparation and characterization of water-redispersible nanofibrillated cellulose in powder form
Eyholzer, C., Bordeanu, N., Lopez-Suevos, F., Rentsch, D., Zimmermann, T., & Oksman, K. (2010). Preparation and characterization of water-redispersible nanofibrillated cellulose in powder form. Cellulose, 17(1), 19-30. https://doi.org/10.1007/s10570-009-9372-3
Reinforcing effect of carboxymethylated nanofibrillated cellulose powder on hydroxypropyl cellulose
Eyholzer, C., Lopez-Suevos, F., Tingaut, P., Zimmermann, T., & Oksman, K. (2010). Reinforcing effect of carboxymethylated nanofibrillated cellulose powder on hydroxypropyl cellulose. Cellulose, 17(4), 793-802. https://doi.org/10.1007/s10570-010-9423-9
DMA analysis and wood bonding of PVAc latex reinforced with cellulose nanofibrils
López-Suevos, F., Eyholzer, C., Bordeanu, N., & Richter, K. (2010). DMA analysis and wood bonding of PVAc latex reinforced with cellulose nanofibrils. Cellulose, 17(2), 387-398. https://doi.org/10.1007/s10570-010-9396-8