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  • (-) Organizational Unit = 302 Cellulose & Wood Materials
  • (-) Publication Year = 2019 - 2019
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Nanostructural properties and twist periodicity of cellulose nanofibrils with variable charge density
Arcari, M., Zuccarella, E., Axelrod, R., Adamcik, J., Sánchez-Ferrer, A., Mezzenga, R., & Nyström, G. (2019). Nanostructural properties and twist periodicity of cellulose nanofibrils with variable charge density. Biomacromolecules, 20(3), 1288-1296. https://doi.org/10.1021/acs.biomac.8b01706
Micronized copper-treated wood: copper remobilization into spores from the copper-tolerant wood-destroying fungus <i>Rhodonia placenta</i>
Civardi, C., Grolimund, D., Schubert, M., Wick, P., & Schwarze, F. W. M. R. (2019). Micronized copper-treated wood: copper remobilization into spores from the copper-tolerant wood-destroying fungus Rhodonia placenta. Environmental Science: Nano, 6(2), 425-431. https://doi.org/10.1039/C8EN01110A
Investigations on densified beech wood for application as a swelling dowel in timber joints
Grönquist, P., Schnider, T., Thoma, A., Gramazio, F., Kohler, M., Burgert, I., & Rüggeberg, M. (2019). Investigations on densified beech wood for application as a swelling dowel in timber joints. Holzforschung, 73(6), 559-568. https://doi.org/10.1515/hf-2018-0106
Bioinspired struvite mineralization for fire-resistant wood
Guo, H., Luković, M., Mendoza, M., Schlepütz, C. M., Griffa, M., Xu, B., … Burgert, I. (2019). Bioinspired struvite mineralization for fire-resistant wood. ACS Applied Materials and Interfaces, 11(5), 5427-5434. https://doi.org/10.1021/acsami.8b19967
Nanofibrillated cellulose composites and wood derived scaffolds for functional materials
Keplinger, T., Wang, X., & Burgert, I. (2019). Nanofibrillated cellulose composites and wood derived scaffolds for functional materials. Journal of Materials Chemistry A, 7(7), 2981-2992. https://doi.org/10.1039/C8TA10711D
3D printed disposable wireless ion sensors with biocompatible cellulose composites
Kim, T., Bao, C., Hausmann, M., Siqueira, G., Zimmermann, T., & Kim, W. S. (2019). 3D printed disposable wireless ion sensors with biocompatible cellulose composites. Advanced Electronic Materials, 5(2), 1800778 (7 pp.). https://doi.org/10.1002/aelm.201800778
Influence of humidity and frequency on the energy dissipation in wood adhesives
Künniger, T., Clerc, G., Josset, S., Niemz, P., Pichelin, F., & van de Kuilen, J. W. G. (2019). Influence of humidity and frequency on the energy dissipation in wood adhesives. International Journal of Adhesion and Adhesives, 92, 99-104. https://doi.org/10.1016/j.ijadhadh.2019.05.003
Influence of varnishing on the vibro-mechanical properties of wood used for violins
Lämmlein, S. L., Mannes, D., van Damme, B., Burgert, I., & Schwarze, F. W. M. (2019). Influence of varnishing on the vibro-mechanical properties of wood used for violins. Journal of Materials Science, 54(11), 8063-8095. https://doi.org/10.1007/s10853-019-03440-9
Natural fibre-nanocellulose composite filters for the removal of heavy metal ions from water
Mautner, A., Kwaw, Y., Weiland, K., Mvubu, M., Botha, A., Jacob John, M., … Bismarck, A. (2019). Natural fibre-nanocellulose composite filters for the removal of heavy metal ions from water. Industrial Crops and Products, 133, 325-332. https://doi.org/10.1016/j.indcrop.2019.03.032
Mechanical behavior of chemically modified Norway spruce: a generic hierarchical model for wood modifications
Mora Mendez, D. F., Oluyinka Olaniran, S., Rüggeberg, M., Burgert, I., Herrmann, H. J., & Wittel, F. K. (2019). Mechanical behavior of chemically modified Norway spruce: a generic hierarchical model for wood modifications. Wood Science and Technology, 53(2), 447-467. https://doi.org/10.1007/s00226-019-01082-3
Mechanical behaviour of chemically modified Norway spruce (<i>Picea abies</i> L. Karst.): experimental mechanical studies on spruce wood after methacrylation and in situ polymerization of styrene
Oluyinka Olaniran, S., Michen, B., Mora Mendez, D. F., Wittel, F. K., Bachtiar, E. V., Burgert, I., & Rüggeberg, M. (2019). Mechanical behaviour of chemically modified Norway spruce (Picea abies L. Karst.): experimental mechanical studies on spruce wood after methacrylation and in situ polymerization of styrene. Wood Science and Technology, 53(2), 425-445. https://doi.org/10.1007/s00226-019-01080-5
Rational structure-based design of fluorescent probes for amyloid folds
Orts, J., Aulikki Wälti, M., Ghosh, D., Campioni, S., Saupe, S. J., & Riek, R. (2019). Rational structure-based design of fluorescent probes for amyloid folds. ChemBioChem, 20(9), 1161-1166. https://doi.org/10.1002/cbic.201800664
Scalable biosynthesis of melanin by the basidiomycete <i>armillaria cepistipes</i>
Ribera, J., Panzarasa, G., Stobbe, A., Osypova, A., Rupper, P., Klose, D., & Schwarze, F. W. M. R. (2019). Scalable biosynthesis of melanin by the basidiomycete armillaria cepistipes. Journal of Agricultural and Food Chemistry, 67(1), 132-139. https://doi.org/10.1021/acs.jafc.8b05071
Facilitated delignification in CAD deficient transgenic poplar studied by confocal Raman spectroscopy imaging
Segmehl, J. S., Keplinger, T., Krasnobaev, A., Berg, J. K., Willa, C., & Burgert, I. (2019). Facilitated delignification in CAD deficient transgenic poplar studied by confocal Raman spectroscopy imaging. Spectrochimica Acta A: Molecular and Biomolecular Spectroscopy, 206, 177-184. https://doi.org/10.1016/j.saa.2018.07.080
Three-dimensional stable alginate-nanocellulose gels for biomedical applications: Towards tunable mechanical properties and cell growing
Siqueira, P., Siqueira, É., de Lima, A. E., Siqueira, G., Pinzón-Garcia, A. D., Lopes, A. P., … Botaro, V. R. (2019). Three-dimensional stable alginate-nanocellulose gels for biomedical applications: Towards tunable mechanical properties and cell growing. Nanomaterials, 9(1), 78 (22 pp.). https://doi.org/10.3390/nano9010078
Confinement-induced ordering and self-folding of cellulose nanofibrils
Smith, K. B., Tisserant, J. N., Assenza, S., Arcari, M., Nyström, G., & Mezzenga, R. (2019). Confinement-induced ordering and self-folding of cellulose nanofibrils. Advanced Science, 6(4), 1801540 (8 pp.). https://doi.org/10.1002/advs.201801540
Grafting of amphiphilic block copolymers on lignocellulosic materials via SI-AGET-ATRP
Vidiella del Blanco, M., Gomez, V., Fleckenstein, P., Keplinger, T., & Cabane, E. (2019). Grafting of amphiphilic block copolymers on lignocellulosic materials via SI-AGET-ATRP. Journal of Polymer Science. Part A: Polymer Chemistry, 57(8), 885-897. https://doi.org/10.1002/pola.29340
Solvent-controlled spatial distribution of SI-AGET-ATRP grafted polymers in lignocellulosic materials
Vidiella del Blanco, M., Gomez, V., Keplinger, T., Cabane, E., & Grafulha Morales, L. F. (2019). Solvent-controlled spatial distribution of SI-AGET-ATRP grafted polymers in lignocellulosic materials. Biomacromolecules, 20(1), 336-346. https://doi.org/10.1021/acs.biomac.8b01393
Porosity and pore size distribution of native and delignified beech wood determined by mercury intrusion porosimetry
Vitas, S., Segmehl, J. S., Burgert, I., & Cabane, E. (2019). Porosity and pore size distribution of native and delignified beech wood determined by mercury intrusion porosimetry. Materials, 12(3), 416 (13 pp.). https://doi.org/10.3390/ma12030416
Liquid-like SiO<sub>2</sub>-<i>g</I>-PDMS coatings on wood surfaces with underwater durability, antifouling, antismudge, and self-healing properties
Wang, Y., Yan, W., Frey, M., Vidiella del Blanco, M., Schubert, M., Adobes-Vidal, M., & Cabane, E. (2019). Liquid-like SiO2-g-PDMS coatings on wood surfaces with underwater durability, antifouling, antismudge, and self-healing properties. Advanced Sustainable Systems, 3(1), 1800070 (12 pp.). https://doi.org/10.1002/adsu.201800070