Per A Larsson
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Ductile all-cellulose nanocomposite films fabricated from core–shell structured cellulose nanofibrils
PA Larsson, LA Berglund, L Wagberg
Biomacromolecules 15 (6), 2218-2223, 2014
Strong, water-durable, and wet-resilient cellulose nanofibril-stabilized foams from oven drying
NT Cervin, E Johansson, PA Larsson, L Wågberg
ACS Applied Materials & Interfaces 8 (18), 11682-11689, 2016
Ambient‐dried, 3D‐printable and electrically conducting cellulose nanofiber aerogels by inclusion of functional polymers
H Françon, Z Wang, A Marais, K Mystek, A Piper, H Granberg, A Malti, ...
Advanced Functional Materials 30 (12), 1909383, 2020
Highly ductile fibres and sheets by core-shell structuring of the cellulose nanofibrils
PA Larsson, LA Berglund, L Wågberg
Cellulose 21, 323-333, 2014
The influence of periodate oxidation on the moisture sorptivity and dimensional stability of paper
PA Larsson, M Gimåker, L Wågberg
Cellulose 15, 837-847, 2008
On the mechanism behind freezing-induced chemical crosslinking in ice-templated cellulose nanofibril aerogels
J Erlandsson, T Pettersson, T Ingverud, H Granberg, PA Larsson, ...
Journal of Materials Chemistry A 6 (40), 19371-19380, 2018
Chemically modified cellulose micro-and nanofibrils as paper-strength additives
R Hollertz, VL Durán, PA Larsson, L Wågberg
Cellulose 24, 3883-3899, 2017
On the origin of sorption hysteresis in cellulosic materials
L Salmén, PA Larsson
Carbohydrate polymers 182, 15-20, 2018
Chemical modification of cellulose-rich fibres to clarify the influence of the chemical structure on the physical and mechanical properties of cellulose fibres and thereof made …
VL Durán, PA Larsson, L Wågberg
Carbohydrate polymers 182, 1-7, 2018
Towards natural-fibre-based thermoplastic films produced by conventional papermaking
PA Larsson, L Wågberg
Green Chemistry 18 (11), 3324-3333, 2016
Macro-and mesoporous nanocellulose beads for use in energy storage devices
J Erlandsson, VL Durán, H Granberg, M Sandberg, PA Larsson, ...
Applied Materials Today 5, 246-254, 2016
Influence of fibre–fibre joint properties on the dimensional stability of paper
PA Larsson, L Wågberg
Cellulose 15, 515-525, 2008
Treatment of cellulose fibres with polyelectrolytes and wax colloids to create tailored highly hydrophobic fibrous networks
E Gustafsson, PA Larsson, L Wågberg
Colloids and Surfaces A: Physicochemical and Engineering Aspects 414, 415-421, 2012
Towards optimised size distribution in commercial microfibrillated cellulose: a fractionation approach
PA Larsson, AV Riazanova, G Cinar Ciftci, R Rojas, HH Øvrebø, ...
Cellulose 26, 1565-1575, 2019
Contact-active antibacterial aerogels from cellulose nanofibrils
J Henschen, J Illergård, PA Larsson, M Ek, L Wågberg
Colloids and Surfaces B: Biointerfaces 146, 415-422, 2016
Shaping 90 wt% nanomofs into robust multifunctional aerogels using tailored bio‐based nanofibrils
J Rostami, T Benselfelt, L Maddalena, C Avci, FA Sellman, G Cinar Ciftci, ...
Advanced Materials 34 (38), 2204800, 2022
Hierarchical build-up of bio-based nanofibrous materials with tunable metal–organic framework biofunctionality
J Rostami, K Gordeyeva, T Benselfelt, E Lahchaichi, SA Hall, ...
Materials Today 48, 47-58, 2021
Self-fibrillating cellulose fibers: rapid in situ nanofibrillation to prepare strong, transparent, and gas barrier nanopapers
YC Gorur, PA Larsson, L Wågberg
Biomacromolecules 21 (4), 1480-1488, 2020
Toward improved understanding of the interactions between poorly soluble drugs and cellulose nanofibers
S Lombardo, P Chen, PA Larsson, W Thielemans, J Wohlert, AJ Svagan
Langmuir 34 (19), 5464-5473, 2018
Tailoring of rheological properties and structural polydispersity effects in microfibrillated cellulose suspensions
G Cinar Ciftci, PA Larsson, AV Riazanova, HH Øvrebø, L Wågberg, ...
Cellulose 27, 9227-9241, 2020
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