Tiffany Abitbol
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Nanocellulose, a tiny fiber with huge applications
T Abitbol, A Rivkin, Y Cao, Y Nevo, E Abraham, T Ben-Shalom, S Lapidot, ...
Current opinion in biotechnology 39, 76-88, 2016
Estimation of the surface sulfur content of cellulose nanocrystals prepared by sulfuric acid hydrolysis
T Abitbol, E Kloser, DG Gray
Cellulose 20, 785-794, 2013
Reinforcement with cellulose nanocrystals of poly (vinyl alcohol) hydrogels prepared by cyclic freezing and thawing
T Abitbol, T Johnstone, TM Quinn, DG Gray
Soft Matter 7 (6), 2373-2379, 2011
Mycelium bio-composites in industrial design and architecture: Comparative review and experimental analysis
N Attias, O Danai, T Abitbol, E Tarazi, N Ezov, I Pereman, YJ Grobman
Journal of Cleaner Production 246, 119037, 2020
Surface charge influence on the phase separation and viscosity of cellulose nanocrystals
T Abitbol, D Kam, Y Levi-Kalisman, DG Gray, O Shoseyov
Langmuir 34 (13), 3925-3933, 2018
Fluorescent labeling and characterization of cellulose nanocrystals with varying charge contents
T Abitbol, A Palermo, JM Moran-Mirabal, ED Cranston
Biomacromolecules 14 (9), 3278-3284, 2013
Surface modification of cellulose nanocrystals with cetyltrimethylammonium bromide
T Abitbol, H Marway, ED Cranston
Nordic Pulp & Paper Research Journal 29 (1), 46-57, 2014
Continuous processing of nanocellulose and polylactic acid into multilayer barrier coatings
R Koppolu, J Lahti, T Abitbol, A Swerin, J Kuusipalo, M Toivakka
ACS applied materials & interfaces 11 (12), 11920-11927, 2019
Direct CRYO writing of aerogels via 3D Printing of aligned cellulose nanocrystals inspired by the plant cell wall
D Kam, M Chasnitsky, C Nowogrodski, I Braslavsky, T Abitbol, ...
Colloids and Interfaces 3 (2), 46, 2019
Plant‐Based Structures as an Opportunity to Engineer Optical Functions in Next‐Generation Light Management
JJ Kaschuk, Y Al Haj, OJ Rojas, K Miettunen, T Abitbol, J Vapaavuori
Advanced Materials 34 (6), 2104473, 2022
Continuous roll-to-roll coating of cellulose nanocrystals onto paperboard
R Koppolu, T Abitbol, V Kumar, AK Jaiswal, A Swerin, M Toivakka
Cellulose 25, 6055-6069, 2018
Hybrid fluorescent nanoparticles from quantum dots coupled to cellulose nanocrystals
T Abitbol, HS Marway, SA Kedzior, X Yang, A Franey, DG Gray, ...
Cellulose 24, 1287-1293, 2017
Electrospinning of fluorescent fibers from CdSe/ZnS quantum dots in cellulose triacetate
T Abitbol, JT Wilson, DG Gray
Journal of Applied Polymer Science 119 (2), 803-810, 2011
Bionanocomposite films from resilin-CBD bound to cellulose nanocrystals
A Rivkin, T Abitbol, Y Nevo, R Verker, S Lapidot, A Komarov, SC Veldhuis, ...
Industrial Biotechnology 11 (1), 44-58, 2015
CdSe/ZnS QDs embedded in cellulose triacetate films with hydrophilic surfaces
T Abitbol, D Gray
Chemistry of materials 19 (17), 4270-4276, 2007
Chiral nematic self-assembly of cellulose nanocrystals in suspensions and solid films
T Abitbol, ED Cranston
HANDBOOK OF GREEN MATERIALS: 3 Self-and direct-assembling of …, 2014
Human dermal fibroblast viability and adhesion on cellulose nanomaterial coatings: influence of surface characteristics
R Kummala, D Soto Véliz, Z Fang, W Xu, T Abitbol, C Xu, M Toivakka
Biomacromolecules 21 (4), 1560-1567, 2020
Incorporation into paper of cellulose triacetate films containing semiconductor nanoparticles
T Abitbol, DG Gray
Cellulose 16, 319-326, 2009
Biofabrication of nanocellulose–mycelium hybrid materials
N Attias, M Reid, SC Mijowska, I Dobryden, M Isaksson, B Pokroy, ...
Advanced Sustainable Systems 5 (2), 2000196, 2021
Nanocellulose-based hybrid materials for UV blocking and mechanically robust barriers
T Abitbol, A Ahniyaz, R Álvarez-Asencio, A Fall, A Swerin
ACS Applied Bio Materials 3 (4), 2245-2254, 2020
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