Cellulose nanocrystal dispersions conjugated with symmetric and asymmetric dialkylamine groups

Sylwia Wojno; Amit Kumar Sonker; Mohit Garg; Sahana Cooper; Mikael Rigdahl; Matthieu Linares; Igor Zozoulenko; Roland Kádár; Gunnar Westman

doi:10.1007/s10570-024-05900-1

Cellulose nanocrystal dispersions conjugated with symmetric and asymmetric dialkylamine groups

Sylwia Wojno
, Amit Kumar Sonker
, Mohit Garg
, Sahana Cooper
, Mikael Rigdahl
, Matthieu Linares
, Igor Zozoulenko^*
, Roland Kádár^*
, Gunnar Westman^*

^*Corresponding author for this work

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1 Citation (Scopus)

Abstract

The present study discusses the effect of symmetric and asymmetric grafting on the surface of CNCs (cellulose nanocrystals) on their dispersion properties using dialkyl azetidinium salts. Three dialkylamine of different size and chain length were successfully grafted to the sulfate groups on the surface of CNCs by conjugation of azetidinium salts. The coupling process resulted in the formation of 2-hydroxypropyl-N-dialkylamine conjugated to the CNC sulfate groups abbreviated as Cn-N-Cm-Prop-2-OH-CNC, where m, n are the number of carbons in the alkyl groups, each with a total of m+n=12, with (m,n)=(11,1);(9,3);(6,6). Molecular dynamics simulations were used to assess the probable morphology of the grafted chains and the interaction potential between CNCs. Steady shear simultaneously combined with polarized light imaging and oscillatory shear rheological measurements were used to evaluate for the first time the impact of the CNC surface modifications on their dispersion flow and optical properties. Overall, the results show that the different linker topologies could effectively promote different types of aggregation morphologies based on the size of the linker, their flexibility and their most probable conformation.

Original language	English
Pages (from-to)	6705-6718
Journal	Cellulose
Volume	31
Issue number	11
DOIs	https://doi.org/10.1007/s10570-024-05900-1
Publication status	Published - Jul 2024
MoE publication type	A1 Journal article-refereed

Funding

Open access funding provided by Chalmers University of Technology. The present work has received support from: Wallenberg Wood Science Center (WWSC). Swedish Research Council (Project 2016-05990) \u00C5forsk Foundation Tro\u00EBdsson Foundation Functional Materials Center at Link\u00F6ping University Swedish National Infrastructure for Computing (SNIC) at NSC and HPC2N This work was supported by the Swedish Research Council (Project 2016-05990), \u00C5forsk, and Tro\u00EBdsson foundations. IZ thanks the Advanced Functional Material Center at Link\u00F6ping University for support. ML thanks SeRC (Swedish e-Science Research Center) for funding. IZ, SW, RK, AS and GW acknowledge the support of Wallenberg Wood Science Center (WWSC). The computations were performed on resources provided by the Swedish National Infrastructure for Computing (SNIC) at NSC and HPC2N.

Keywords

Cellulose nanocrystals
Molecular modeling
Rheo - polarized light imaging
Rheology
Surface modification

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10.1007/s10570-024-05900-1

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title = "Cellulose nanocrystal dispersions conjugated with symmetric and asymmetric dialkylamine groups",

abstract = "The present study discusses the effect of symmetric and asymmetric grafting on the surface of CNCs (cellulose nanocrystals) on their dispersion properties using dialkyl azetidinium salts. Three dialkylamine of different size and chain length were successfully grafted to the sulfate groups on the surface of CNCs by conjugation of azetidinium salts. The coupling process resulted in the formation of 2-hydroxypropyl-N-dialkylamine conjugated to the CNC sulfate groups abbreviated as Cn-N-Cm-Prop-2-OH-CNC, where m, n are the number of carbons in the alkyl groups, each with a total of m+n=12, with (m,n)=(11,1);(9,3);(6,6). Molecular dynamics simulations were used to assess the probable morphology of the grafted chains and the interaction potential between CNCs. Steady shear simultaneously combined with polarized light imaging and oscillatory shear rheological measurements were used to evaluate for the first time the impact of the CNC surface modifications on their dispersion flow and optical properties. Overall, the results show that the different linker topologies could effectively promote different types of aggregation morphologies based on the size of the linker, their flexibility and their most probable conformation.",

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author = "Sylwia Wojno and Sonker, \{Amit Kumar\} and Mohit Garg and Sahana Cooper and Mikael Rigdahl and Matthieu Linares and Igor Zozoulenko and Roland K{\'a}d{\'a}r and Gunnar Westman",

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doi = "10.1007/s10570-024-05900-1",

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T1 - Cellulose nanocrystal dispersions conjugated with symmetric and asymmetric dialkylamine groups

AU - Wojno, Sylwia

AU - Sonker, Amit Kumar

AU - Garg, Mohit

AU - Cooper, Sahana

AU - Rigdahl, Mikael

AU - Linares, Matthieu

AU - Zozoulenko, Igor

AU - Kádár, Roland

AU - Westman, Gunnar

PY - 2024/7

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N2 - The present study discusses the effect of symmetric and asymmetric grafting on the surface of CNCs (cellulose nanocrystals) on their dispersion properties using dialkyl azetidinium salts. Three dialkylamine of different size and chain length were successfully grafted to the sulfate groups on the surface of CNCs by conjugation of azetidinium salts. The coupling process resulted in the formation of 2-hydroxypropyl-N-dialkylamine conjugated to the CNC sulfate groups abbreviated as Cn-N-Cm-Prop-2-OH-CNC, where m, n are the number of carbons in the alkyl groups, each with a total of m+n=12, with (m,n)=(11,1);(9,3);(6,6). Molecular dynamics simulations were used to assess the probable morphology of the grafted chains and the interaction potential between CNCs. Steady shear simultaneously combined with polarized light imaging and oscillatory shear rheological measurements were used to evaluate for the first time the impact of the CNC surface modifications on their dispersion flow and optical properties. Overall, the results show that the different linker topologies could effectively promote different types of aggregation morphologies based on the size of the linker, their flexibility and their most probable conformation.

AB - The present study discusses the effect of symmetric and asymmetric grafting on the surface of CNCs (cellulose nanocrystals) on their dispersion properties using dialkyl azetidinium salts. Three dialkylamine of different size and chain length were successfully grafted to the sulfate groups on the surface of CNCs by conjugation of azetidinium salts. The coupling process resulted in the formation of 2-hydroxypropyl-N-dialkylamine conjugated to the CNC sulfate groups abbreviated as Cn-N-Cm-Prop-2-OH-CNC, where m, n are the number of carbons in the alkyl groups, each with a total of m+n=12, with (m,n)=(11,1);(9,3);(6,6). Molecular dynamics simulations were used to assess the probable morphology of the grafted chains and the interaction potential between CNCs. Steady shear simultaneously combined with polarized light imaging and oscillatory shear rheological measurements were used to evaluate for the first time the impact of the CNC surface modifications on their dispersion flow and optical properties. Overall, the results show that the different linker topologies could effectively promote different types of aggregation morphologies based on the size of the linker, their flexibility and their most probable conformation.

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KW - Molecular modeling

KW - Rheo - polarized light imaging

KW - Rheology

KW - Surface modification

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ER -

Cellulose nanocrystal dispersions conjugated with symmetric and asymmetric dialkylamine groups

Abstract

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