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Ann-Christine Albertsson
Researcher at Royal Institute of Technology
Publications - 397
Citations - 21468
Ann-Christine Albertsson is an academic researcher from Royal Institute of Technology. The author has contributed to research in topics: Polymerization & Copolymer. The author has an hindex of 72, co-authored 397 publications receiving 19781 citations. Previous affiliations of Ann-Christine Albertsson include University of Eastern Piedmont.
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Transfer of Biomatrix/Wood Cell Interactions to Hemicellulose-Based Materials to Control Water Interaction.
TL;DR: This Review aims to give a perspective on these issues and demonstrate how the transfer of molecular wood cell interactions into hemicellulose-based materials may offer new design principles for material formulations.
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Design of renewable hydrogel release systems from fiberboard mill wastewater.
Ann-Christine Albertsson,Jens Voepel,Ulrica Edlund,Olof Dahlman,Margaretha Soderqvist-Lindblad +4 more
TL;DR: The sustained release of incorporated growth retardant agents from the hydrogel coating on rape seeds was shown to enable the temporary inhibition of germination.
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Switching from Controlled Ring-Opening Polymerization (cROP) to Controlled Ring-Closing Depolymerization (cRCDP) by Adjusting the Reaction Parameters That Determine the Ceiling Temperature
TL;DR: The knowledge of the monomer to polymer equilibrium of polymers in solution under selected environmental conditions is of paramount importance for in vivo applications, where the polymer chain is subjected to both high dilution and high polarity medium in the presence of catalysts.
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Hemicellulose-based multifunctional macroinitiator for single-electron-transfer mediated living radical polymerization.
TL;DR: Kinetic analyses confirm high conversions of up to 99.98% and a living behavior of the SET-LRP process providing high molecular weight hemicelluloses/methyl acrylate hybrid copolymers with a brush-like architecture.
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Alkenyl-Functionalized Precursors for Renewable Hydrogels Design
TL;DR: In this paper, the authors presented pathways for the chemical modification of the water-soluble hemicellulose acetylated galactoglucomannan (AcGGM), enabling this raw material to be utilized in the synthetic design of new classes of materials.