Forskning vid Avdelningen för Fiberprocesser
Forskningsområdet Fiberprocesser sträcker sig från traditionella industriella processer för pappers- och förpackningstillverkning till nya processer av nya material baserade på trämassafibrer och nanocellulosa.
Här hittar du de senaste publikationerna från avdelningen.
För att se publikationer från de enskilda medlemmarna, se Medarbetare i menyn till vänster.
Recent publications from the Division of Fibre Processes
[1]
Joevenller, S., Nysjo, F., Hyll, K., Forsberg, F., Svennerstam, H., Ene, L. & Sandberg, D. (2026).
A hybrid image segmentation framework for resin wood detection in Scots pine X-ray computed tomography scans using adaptive Gaussian mixture modelling.
Wood Material Science & Engineering, 21(3), 1866-1880.
[2]
Dolling, D. S., Blanco Garcia, M., Kohantorabi, M., Zhai, Y., Sochor, B., Haji Naghi Tehrani, M. E. ... Noei, H. (2026).
In-Situ Growth and Oxidation of Cu Nanoparticles on Rutile TiO2(110).
The Journal of Physical Chemistry C, 130(20), 7136-7147.
[3]
Zhao, Y., Fu, L., Guan, Z., Chen, L., Huang, Z., Tian, W. ... Zhang, C. (2026).
Enhanced Optical Nonlinearity in Highly Conjugated Triply Fused Porphyrin-Anchored Ti3C2Tx Nanosheets.
ACS Applied Materials and Interfaces, 18(18), 26644-26655.
[4]
Wegele, P., Yao, Z., Tejbo, J., Rogalinski, J. K., Rosén, T., Groetsch, A. ... Söderberg, D. (2026).
Time-resolved X-ray radiography of through-thickness liquid transport in partly saturated needle-punched nonwovens.
Experiments in Fluids, 67(5).
[5]
Reck, K. A., Bulut, Y., Sochor, B., Le, D. D. K., Cheng, L., Strunskus, T. ... Faupel, F. (2026).
In-situ evolution and aging of ultrathin sputter deposited silver films.
Applied Surface Science Advances, 33.
[6]
Rogalinski, J. K., Yao, Z., Zhang, Y., Hu, Z., Gordeyeva, K., Rosén, T. ... Villanueva-Perez, P. (2026).
Time-resolved 3D imaging opportunities with XMPI at ForMAX.
Journal of Synchrotron Radiation, 33, 417-428.
[7]
Holzinger, H. (2026).
Water dynamics in dilute nanofibrillar cellulose systems
(Doktorsavhandling , KTH Royal Institute of Technology, Stockholm, TRITA-CBH-FOU 2026:26). Hämtad från https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-380707.
[8]
Zhou, J., Zhu, M., Tu, S., Ji, K., Tian, T., Dai, L. ... Roth, S. V. (2026).
Tailored perovskite crystallization by passivation molecule engineering for efficient light-emitting diodes.
Matter.
[9]
Holzinger, H., Motezakker, A. R., Dvinskikh, S., Gordeyeva, K., Larsson, P. T. & Söderberg, D. (2026).
Water in motion : How charged semi-flexible nanofibers affect self-diffusion of water.
Physical review. E.
[10]
Brandt, L., Truncali, A., Andriani, F., Sochor, B., Harder, C., Vayalil, S. K. ... Johansson, M. (2026).
A Comparative Study of Lignin-Based Thermoset Properties: Mildly Extracted Organosolv Lignin versus Technical Kraft Lignin.
ACS Sustainable Chemistry and Engineering, 14(14), 6923-6932.