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50 latest publications

[2]
J. Garemark et al., "Advancing Hydrovoltaic Energy Harvesting from Wood through Cell Wall Nanoengineering," Advanced Functional Materials, vol. 33, pp. 2208933, 2023.
[5]
[6]
N. Arcieri et al., "Crack growth study of wood and transparent wood-polymer composite laminates by in-situ testing in weak TR-direction," Composites. Part A, Applied science and manufacturing, vol. 173, 2023.
[7]
P. Samanta and B. Nandan, "Crystallization in PLLA-Based Blends, and Composites," in Polymer Crystallization : Methods, Characterization, and Applications, : Wiley, 2023, pp. 161-194.
[9]
E. Mavrona et al., "Efficiency assessment of wood and cellulose-based optical elements for terahertz waves," Optical Materials Express, vol. 13, no. 1, pp. 92-103, 2023.
[10]
Van C. Tran et al., "Electrical current modulation in wood electrochemical transistor," Proceedings of the National Academy of Sciences of the United States of America, vol. 120, no. 118, 2023.
[11]
B. Chen, S. Coppieters and E. Jungstedt, "Element-removal global digital image correlation for accurate discontinuous deformation field measurement in fracture mechanics," Engineering Fracture Mechanics, vol. 290, 2023.
[12]
J. Li, L. Li and M. Jonsson, "Formation and stability of studtite in bicarbonate-containing waters," Ecotoxicology and Environmental Safety, vol. 263, 2023.
[13]
M. V. Tavares da Costa, L. Li and L. Berglund, "Fracture properties of thin brittle MTM clay coating on ductile HEC polymer substrate," Materials & design, vol. 230, 2023.
[14]
[15]
Y. Gao et al., "Gradience Free Nanoinsertion of Fe3O4 into Wood for Enhanced Hydrovoltaic Energy Harvesting," ACS Sustainable Chemistry and Engineering, vol. 11, no. 30, pp. 11099-11109, 2023.
[16]
G. G. Mastantuoni et al., "High-Strength and UV-Shielding Transparent Thin Films from Hot-Pressed Sulfonated Wood," ACS Sustainable Chemistry and Engineering, 2023.
[17]
G. G. Mastantuoni et al., "In Situ Lignin Sulfonation for Highly Conductive Wood/Polypyrrole Porous Composites," Advanced Materials Interfaces, vol. 10, no. 1, 2023.
[18]
D. Roy et al., "In Situ Study of Structure Formation under Stress in Stretchable Conducting Nanocomposites," Journal of Physical Chemistry Letters, vol. 14, no. 25, pp. 5834-5840, 2023.
[19]
V. Nieboer et al., "Linear not cyclic - unravelling an anionic initiation pathway for Lewis pair polymerization of lactones," Polymer Chemistry, vol. 14, no. 20, pp. 2485-2493, 2023.
[20]
B. Chen and S. Coppieters, "Meshfree Digital Image Correlation Using Element Free Galerkin Method : Theory, Algorithm and Validation," Experimental mechanics, vol. 63, no. 3, pp. 517-528, 2023.
[21]
R. L. Xie, B. Chen and B. Pan, "Mirror-assisted multi-view high-speed digital image correlation for dual-surface dynamic deformation measurement," Science China Technological Sciences, vol. 66, no. 3, pp. 807-820, 2023.
[25]
J. Garemark et al., "Strong, Shape-Memory Aerogel via Wood Cell Wall Nanoscale Reassembly," ACS Nano, vol. 17, no. 5, pp. 4775-4789, 2023.
[28]
Y. Chen et al., "The thermodynamics of enhanced dope stability of cellulose solution in NaOH solution by urea," Carbohydrate Polymers, vol. 311, pp. 120744, 2023.
[29]
L. Solhi et al., "Understanding Nanocellulose-Water Interactions : Turning a Detriment into an Asset," Chemical Reviews, vol. 123, no. 5, pp. 1925-2015, 2023.
[30]
S. Wang et al., "Wood xerogel for fabrication of high-performance transparent wood," Nature Communications, vol. 14, no. 1, 2023.
[33]
D. C. R. Forsberg et al., "A method for chemical and physical modification of oriented pulp fibre sheets," Cellulose, vol. 29, no. 15, pp. 8371-8386, 2022.
[35]
M. Wohlert et al., "Cellulose and the role of hydrogen bonds : not in charge of everything," Cellulose, vol. 29, no. 1, pp. 1-23, 2022.
[37]
A. Samanta et al., "Charge Regulated Diffusion of Silica Nanoparticles into Wood for Flame Retardant Transparent Wood," Advanced Sustainable Systems, vol. 6, no. 4, pp. 2100354-2100354, 2022.
[38]
S. J. Eichhorn et al., "Current international research into cellulose as a functional nanomaterial for advanced applications," Journal of Materials Science, vol. 57, no. 10, pp. 5697-5767, 2022.
[39]
L. Labrador-Páez et al., "Excitation Pulse Duration Response of Upconversion Nanoparticles and Its Applications," Journal of Physical Chemistry Letters, vol. 13, no. 48, pp. 11208-11215, 2022.
[41]
P. Samanta et al., "Fire-retardant and transparent wood biocomposite based on commercial thermoset," Composites. Part A, Applied science and manufacturing, vol. 156, 2022.
[43]
F. Ram and L. Berglund, "FUNCTIONALIZED WOOD COMPOSITES FOR MECHANICAL ENERGY HARVESTING AND VIBRATION SENSING," in ECCM 2022 : Proceedings of the 20th European Conference on Composite Materials: Composites Meet Sustainability, 2022, pp. 801-806.
[45]
A. Kamada et al., "Hierarchical propagation of structural features in protein nanomaterials," Nanoscale, vol. 14, no. 6, pp. 2502-2510, 2022.
[47]
S. Yin et al., "In Situ GISAXS Observation and Large Area Homogeneity Study of Slot-Die Printed PS-b-P4VP and PS-b-P4VP/FeCl3 Thin Films," ACS Applied Materials and Interfaces, vol. 14, no. 2, pp. 3143-3155, 2022.
[48]
[49]
Z. Li et al., "Inkjet Printed Disposable High-Rate On-Paper Microsupercapacitors," Advanced Functional Materials, vol. 32, no. 1, pp. 2108773, 2022.
[50]
J. Garemark, "Integrated Cellulosic Wood Aerogel Structures," Doctoral thesis Stockholm : KTH Royal Institute of Technology, TRITA-CBH-FOU, 2022:49, 2022.
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Page responsible:Erik Jungstedt
Belongs to: Department of Fibre and Polymer Technology
Last changed: May 05, 2021