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Mathias Kvick
Mathias Kvick
Spiber Technologies
Verified email at kth.se
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Year
Hydrodynamic alignment and assembly of nanofibrils resulting in strong cellulose filaments
KMO Håkansson, AB Fall, F Lundell, S Yu, C Krywka, SV Roth, G Santoro, ...
Nature communications 5 (1), 1-10, 2014
3892014
Interfacial behavior of recombinant spider silk protein parts reveals cues on the silk assembly mechanism
L Nilebäck, S Arola, M Kvick, A Paananen, MB Linder, M Hedhammar
Langmuir 34 (39), 11795-11805, 2018
202018
Imbibition with swelling: capillary rise in thin deformable porous media
M Kvick, DM Martinez, DR Hewitt, NJ Balmforth
Physical Review Fluids 2 (7), 074001, 2017
202017
Evaluation of steerable filter for detection of fibers in flowing suspensions
A Carlsson, K Håkansson, M Kvick, F Lundell, LD Söderberg
Experiments in fluids 51 (4), 987-996, 2011
172011
Measurement of width and intensity of particle streaks in turbulent flows
KMO Håkansson, M Kvick, F Lundell, L Prahl Wittberg, LD Söderberg
Experiments in fluids 54 (6), 1-13, 2013
152013
Recombinant spider silk forms tough and elastic nanomembranes that are protein‐permeable and support cell attachment and growth
L Gustafsson, CP Tasiopoulos, R Jansson, M Kvick, T Duursma, ...
Advanced Functional Materials 30 (40), 2002982, 2020
112020
Transitional and turbulent fibre suspension flows
M Kvick
KTH Royal Institute of Technology, 2014
42014
Streak formation and fibre orientation in near wall turbulent fibre suspension flow
M Kvick, K Håkansson, F Lundell, LD Söderberg, LP Wittberg
ERCOFTAC Bull 84, 19-22, 2012
42012
Effect of fibrils on curvature-and rotation-induced hydrodynamic stability
M Kvick, F Lundell, L Prahl Wittberg, D Söderberg
Acta Mechanica 224 (10), 2249-2261, 2013
32013
Cyclic expansion/compression of the air–liquid interface as a simple method to produce silk fibers
M Kvick, CP Tasiopoulos, A Barth, LD Söderberg, F Lundell, ...
Macromolecular Bioscience 21 (1), 2000227, 2021
22021
Method of spinning fibres or extrusion, and the products obtained
D Söderberg, F Lundell, A Fall, K Håkansson, M Kvick, L WÅgberg
US Patent 10,132,005, 2018
22018
Flow visualization and skin friction determination in transitional channel flow
S Yimprasert, M Kvick, PH Alfredsson, M Matsubara
Experiments in Fluids 62 (2), 1-16, 2021
12021
Effect of fibres on hydrodynami stability in a curved rotating channel
M Kvick, F Lundell, L Prahl Wittberg, D Söderberg
8th International Conference on Multiphase Flow, 2013, Jeju, Korea, 674, 2013
12013
Effects of nano-fibrillated cellulose on curvature-and rotation-induced instabilities in channel flow
M Kvick, F Lundell, L Prahl Wittberg, D Söderberg
12012
Fibre orientation and fibre streaks in turbulent wall bounded flow
M Kvick, K Håkansson, F Lundell, L Prahl Wittberg, D Söderberg
12012
Scalable Synthesis of Monodisperse Bioactive Spider Silk Nanostrucutres
L Gustafsson, WN Dorka, C Åstrand, N Ponsteen, S Svanberg, V Hegrova, ...
2021
Method and device for protein fiber production
M Hedhammar, M Kvick
US Patent App. 16/651,232, 2020
2020
Spider silk nanomembranes support cell co-cultures.
L Gustafsson, C Panagiotis Tasiopoulos, M Kvick, R Jansson, ...
11th World Biomaterials Congress 2020 (WBC 2020), December 2020, Virtual …, 2020
2020
Method of spinning fibres or extrusion, and the products obtained
D Söderberg, F Lundell, A Fall, K Håkansson, M Kvick, L WÅgberg
US Patent App. 16/151,536, 2019
2019
Erratum to: Effect of fibrils on curvature-and rotation-induced hydrodynamic stability
M Kvick, F Lundell, LP Wittberg, D Soderberg
Acta Mechanica 226 (4), 1319-1319, 2015
2015
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Articles 1–20