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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]
Betker, M. (2024). Utilizing Spray Coating for the Fabrication of Organic Electronics (Doktorsavhandling , KTH Royal Institute of Technology, Stockholm, TRITA-CBH-FOU 51). Hämtad från https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-355998.
[2]
Schneider, L. M., Riazanova, A., Zenkert, D. & Lindbergh, G. (2024). Effect of Electrolyte Composition on Biphasic Structural Electrolytes for Laminated Structural Batteries. ACS Applied Energy Materials, 7(19), 8838-8850.
[3]
Betker, M., Erichlandwehr, T., Sochor, B., Erbes, E., Kurmanbay, A., Alon, Y. ... Roth, S. V. (2024). Micrometer‐Thin Nanocellulose Foils for 3D Organic Electronics. Advanced Functional Materials, 34(40).
[4]
Jiang, X., Zeng, J., Sun, K., Li, Z., Xu, Z., Pan, G. ... Mueller-Buschbaum, P. (2024). Sputter-deposited TiOx thin film as a buried interface modification layer for efficient and stable perovskite solar cells. Nano Energy, 132.
[5]
Hanze, M. (2024). Electroanalytical Platforms Based on Textiles and Printed Circuit Boards for Point-of-Need Tests (Doktorsavhandling , KTH Royal Institute of Technology, Stockholm, TRITA-CBH-FOU 2024:36). Hämtad från https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-354239.
[6]
Yao, Z., Rogalinski, J., Asimakopoulou, E. M., Zhang, Y., Gordeyeva, K., Atoufi, Z. ... Villanueva-Perez, P. (2024). New opportunities for time-resolved imaging using diffraction-limited storage rings. Journal of Synchrotron Radiation, 31(Pt 5), 1299-1307.
[7]
Kohantorabi, M., Ugolotti, A., Sochor, B., Roessler, J., Wagstaffe, M., Meinhardt, A. ... Noei, H. (2024). Light-Induced Transformation of Virus-Like Particles on TiO2. ACS Applied Materials and Interfaces, 16(28), 37275-37287.
[8]
Bragone, F., Morozovska, K., Rosén, T., Söderberg, D., Markidis, S. (2024). Time Series Predictions Based on PCA and LSTM Networks : A Framework for Predicting Brownian Rotary Diffusion of Cellulose Nanofibrils. I Computational Science – ICCS 2024 - 24th International Conference, 2024, Proceedings. (s. 209-223). Springer Nature.
[9]
Atoufi, Z., Gordeyeva, K., Cortes Ruiz, M. F., Larsson, P. A. & Wågberg, L. (2024). Synergistically stabilized wet foams from heat treated β-lactoglobulin and cellulose nanofibrils and their application for green foam production. Applied Materials Today, 39.
[10]
Reck, K. A., Bulut, Y., Xu, Z., Liang, S., Strunskus, T., Sochor, B. ... Faupel, F. (2024). Early-stage silver growth during sputter deposition on SiO2 and polystyrene - Comparison of biased DC magnetron sputtering, high-power impulse magnetron sputtering (HiPIMS) and bipolar HiPIMS. Applied Surface Science, 666.
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