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Fully 3D printed and disposable paper supercapacitors
Aeby, X., Poulin, A., Siqueira, G., Hausmann, M. K., & Nyström, G. (2021). Fully 3D printed and disposable paper supercapacitors. Advanced Materials, 33(26), 2101328 (9 pp.). https://doi.org/10.1002/adma.202101328
Globular protein assembly and network formation at fluid interfaces: effect of oil
Bergfreund, J., Diener, M., Geue, T., Nussbaum, N., Kummer, N., Bertsch, P., … Fischer, P. (2021). Globular protein assembly and network formation at fluid interfaces: effect of oil. Soft Matter, 17(6), 1692-1700. https://doi.org/10.1039/D0SM01870H
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
Functional materials from nanocellulose: utilizing structure-property relationships in bottom-up fabrication
De France, K., Zeng, Z., Wu, T., & Nyström, G. (2021). Functional materials from nanocellulose: utilizing structure-property relationships in bottom-up fabrication. Advanced Materials, 33(28), 2000657 (22 pp.). https://doi.org/10.1002/adma.202000657
3D printing of shape-morphing and antibacterial anisotropic nanocellulose hydrogels
Fourmann, O., Hausmann, M. K., Neels, A., Schubert, M., Nyström, G., Zimmermann, T., & Siqueira, G. (2021). 3D printing of shape-morphing and antibacterial anisotropic nanocellulose hydrogels. Carbohydrate Polymers, 259, 117716 (11 pp.). https://doi.org/10.1016/j.carbpol.2021.117716
Advantages of additive manufacturing for biomedical applications of polyhydroxyalkanoates
Giubilini, A., Bondioli, F., Messori, M., Nyström, G., & Siqueira, G. (2021). Advantages of additive manufacturing for biomedical applications of polyhydroxyalkanoates. Bioengineering, 8(2), 29 (31 pp.). https://doi.org/10.3390/bioengineering8020029
Chitin-amyloid synergism and their use as sustainable structural adhesives
Greca, L. G., De France, K. J., Majoinen, J., Kummer, N., Luotonen, O. I. V., Campioni, S., … Tardy, B. L. (2021). Chitin-amyloid synergism and their use as sustainable structural adhesives. Journal of Materials Chemistry A, 9(35), 19741-19753. https://doi.org/10.1039/d1ta03215a
Rheology of cocoa butter
Mishra, K., Kohler, L., Kummer, N., Zimmermann, S., Ehrengruber, S., Kämpf, F., … Windhab, E. J. (2021). Rheology of cocoa butter. Journal of Food Engineering, 305, 110598 (8 pp.). https://doi.org/10.1016/j.jfoodeng.2021.110598
Enzyme activities of five white-rot fungi in the presence of nanocellulose
Reyes, C., Poulin, A., Nyström, G., Schwarze, F. W. M. R., & Ribera, J. (2021). Enzyme activities of five white-rot fungi in the presence of nanocellulose. Journal of Fungi, 7(3), 222 (17 pp.). https://doi.org/10.3390/jof7030222
Polysaccharide-reinforced amyloid fibril hydrogels and aerogels
Usuelli, M., Germerdonk, T., Cao, Y., Peydayesh, M., Bagnani, M., Handschin, S., … Mezzenga, R. (2021). Polysaccharide-reinforced amyloid fibril hydrogels and aerogels. Nanoscale, 13(29), 12534-12545. https://doi.org/10.1039/d1nr03133c
Self-sensing cellulose structures with design-controlled stiffness
Wiesemuller, F., Winston, C., Poulin, A., Aeby, X., Miriyev, A., Geiger, T., … Kovac, M. (2021). Self-sensing cellulose structures with design-controlled stiffness. IEEE Robotics and Automation Letters, 6(2), 4017-4024. https://doi.org/10.1109/LRA.2021.3067243
Nanocellulose-lysozyme colloidal gels via electrostatic complexation
Wu, T., Kummer, N., De France, K. J., Campioni, S., Zeng, Z., Siqueira, G., … Nyström, G. (2021). Nanocellulose-lysozyme colloidal gels via electrostatic complexation. Carbohydrate Polymers, 251, 117021 (9 pp.). https://doi.org/10.1016/j.carbpol.2020.117021
Terahertz birefringent biomimetic aerogels based on cellulose nanofibers and conductive nanomaterials
Zeng, Z., Mavrona, E., Sacré, D., Kummer, N., Cao, J., Müller, L. A. E., … Nyström, G. (2021). Terahertz birefringent biomimetic aerogels based on cellulose nanofibers and conductive nanomaterials. ACS Nano, 15(4), 7451-7462. https://doi.org/10.1021/acsnano.1c00856
Structure-property relationships of cellulose nanofibril hydro- and aerogels and their building blocks
Arcari, M., Axelrod, R., Adamcik, J., Handschin, S., Sánchez-Ferrer, A., Mezzenga, R., & Nyström, G. (2020). Structure-property relationships of cellulose nanofibril hydro- and aerogels and their building blocks. Nanoscale, 12(21), 11638-11646. https://doi.org/10.1039/d0nr01362e
Assembly of cellulose nanocrystal-lysozyme composite films with varied lysozyme morphology
De France, K. J., Kummer, N., Ren, Q., Campioni, S., & Nyström, G. (2020). Assembly of cellulose nanocrystal-lysozyme composite films with varied lysozyme morphology. Biomacromolecules, 21(12), 5139-5146. https://doi.org/10.1021/acs.biomac.0c01267
Dual physically and chemically crosslinked regenerated cellulose – gelatin composite hydrogels towards art restoration
De France, K. J., D'Emilio, E., Cranston, E. D., Geiger, T., & Nyström, G. (2020). Dual physically and chemically crosslinked regenerated cellulose – gelatin composite hydrogels towards art restoration. Carbohydrate Polymers, 234, 115885 (10 pp.). https://doi.org/10.1016/j.carbpol.2020.115885
3D-printing nanocellulose-poly(3-hydroxybutyrate-<em>co</em>-3-hydroxyhexanoate) biodegradable composites by fused deposition modeling
Giubilini, A., Siqueira, G., Clemens, F. J., Sciancalepore, C., Messori, M., Nyström, G., & Bondioli, F. (2020). 3D-printing nanocellulose-poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) biodegradable composites by fused deposition modeling. ACS Sustainable Chemistry and Engineering, 8(27), 10292-10302. https://doi.org/10.1021/acssuschemeng.0c03385
Mechanical properties tailoring of 3D printed photoresponsive nanocellulose composites
Müller, L. A. E., Zimmermann, T., Nyström, G., Burgert, I., & Siqueira, G. (2020). Mechanical properties tailoring of 3D printed photoresponsive nanocellulose composites. Advanced Functional Materials, 30(35), 2002914 (9 pp.). https://doi.org/10.1002/adfm.202002914
Probing the structure of filamentous nonergodic gels by dynamic light scattering
Usuelli, M., Cao, Y., Bagnani, M., Handschin, S., Nyström, G., & Mezzenga, R. (2020). Probing the structure of filamentous nonergodic gels by dynamic light scattering. Macromolecules, 53(14), 5950-5956. https://doi.org/10.1021/acs.macromol.0c00610
Dual-porous cellulose nanofibril aerogels <em>via</em> modular drying and cross-linking
Wu, T., Zeng, Z., Siqueira, G., De France, K., Sivaraman, D., Schreiner, C., … Nyström, G. (2020). Dual-porous cellulose nanofibril aerogels via modular drying and cross-linking. Nanoscale, 12(13), 7383-7394. https://doi.org/10.1039/d0nr00860e