Karl M. O. Håkansson
Karl M. O. Håkansson
Smart Materials, RISE
Verified email at ri.se
Cited by
Cited by
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
Highly conducting, strong nanocomposites based on nanocellulose-assisted aqueous dispersions of single-wall carbon nanotubes
MM Hamedi, A Hajian, AB Fall, K Håkansson, M Salajkova, F Lundell, ...
ACS nano 8 (3), 2467-2476, 2014
Solidification of 3D printed nanofibril hydrogels into functional 3D cellulose structures
KMO Håkansson, IC Henriksson, C de la Peña Vázquez, V Kuzmenko, ...
Advanced Materials Technologies 1 (7), 1600096, 2016
Ultrastrong and Bioactive Nanostructured Bio-Based Composites
N Mittal, R Jansson, M Widhe, T Benselfelt, KMO Håkansson, F Lundell, ...
ACS nano 11 (5), 5148-5159, 2017
Simulations of 3D bioprinting: predicting bioprintability of nanofibrillar inks
J Göhl, K Markstedt, A Mark, K Håkansson, P Gatenholm, F Edelvik
Biofabrication 10 (3), 034105, 2018
Nanofibril Alignment in Flow Focusing: Measurements and Calculations
KMO Håkansson, F Lundell, L Prahl-Wittberg, LD Söderberg
The Journal of Physical Chemistry B 120 (27), 6674-6686, 2016
Online determination of anisotropy during cellulose nanofibril assembly in a flow focusing device
KMO Håkansson
RSC Advances 5 (24), 18601-18608, 2015
Continuous Assembly of Cellulose Nanofibrils and Nanocrystals into Strong Macrofibers through Microfluidic Spinning
O Nechyporchuk, KMO Håkansson, K Gowda. V, F Lundell, B Hagström, ...
Advanced Materials Technologies 4 (2), 1800557, 2019
Materials from trees assembled by 3D printing–Wood tissue beyond nature limits
K Markstedt, K Håkansson, G Toriz, P Gatenholm
Applied Materials Today 15, 280-285, 2019
Controlling the organization of PEDOT: PSS on cellulose structures
D Belaineh, JW Andreasen, J Palisaitis, A Malti, K Håkansson, ...
ACS Applied Polymer Materials 1 (9), 2342-2351, 2019
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
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), 1555, 2013
Controlled molecular reorientation enables strong cellulose fibers regenerated from ionic liquid solutions
J Sundberg, V Guccini, KMO Håkansson, G Salazar-Alvarez, G Toriz, ...
Polymer 75, 119-124, 2015
Anisotropic conductivity of Cellulose-PEDOT: PSS composite materials studied with a generic 3D four-point probe tool
X Wang, A Grimoldi, K Håkansson, A Fall, H Granberg, D Mengistie, ...
Organic Electronics 66, 258-264, 2019
Streak formation and fibre orientation in near wall turbulent fibre suspension flow
M Kvick, K Håkansson, F Lundell, LD Söderberg, L Prahl Wittberg
ERCOFTAC Bull 84, 19-22, 2012
Orientation of elongated particles in shear and extensional flow
K Håkansson
KTH Royal Institute of Technology, 2012
Orientation of elongated, macro and nano-sized particles in macroscopic flows
K Håkansson
KTH Royal Institute of Technology, 2014
Orientation of nano-fibrillated cellulose in accelerated flow
K Håkansson, F Lundell, L Prahl Wittberg, L Wågberg, D Söderberg
Effect of carboxymethylated cellulose nanofibril concentration regime upon material forming on mechanical properties in films and filaments
KMO Håkansson
Cellulose 28 (2), 881-895, 2021
PEDOT‐Cellulose Gas Diffusion Electrodes for Disposable Fuel Cells
E Mitraka, M Vagin, A Sjöstedt, M Berggren, KMO Håkansson, ...
Advanced Sustainable Systems 3 (12), 1900097, 2019
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