Aggregation behavior of aqueous cellulose nanocrystals: the effect of inorganic salts

Phan-Xuan, Tuan; Thuresson, Axel; Skepö, Marie; Labrador, Ana; Bordes, Romain; Matic, Aleksandar

doi:10.1007/s10570-016-1080-1

Cited by 127 publications

(125 citation statements)

References 44 publications

(43 reference statements)

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“…Most studies involved the effect of small electrolyte concentrations on ζ potential, particle size, pitch length, alignment and phase formation in aqueous CNC suspensions. 33 , 36 − 38 Alkaline condition used in preparing CNC/lignin films in this study showed the effect of NaOH on the film transparency. This, to the authors knowledge, is the first attempt to show the effect of NaOH addition on the CNC film transparency.…”

Section: Resultsmentioning

confidence: 83%

Transparent and Homogenous Cellulose Nanocrystal/Lignin UV-Protection Films

et al. 2018

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In the context of valorization of lignin produced from the pulp and paper industries, biodegradable UV-protection films were prepared using lignin and cellulose nanocrystals (CNCs). Initially, CNC films were optimized for improving their transparency by studying the effect of various sodium hydroxide (NaOH) concentrations. Maximum (%) transmittance of CNC film was obtained for NaOH addition between 3 and 4 wt %. The optimized CNC suspensions were used for incorporating alkaline lignin (AL) and softwood kraft lignin (SKL) in various concentrations (1–10 wt %). Morphological characterization showed homogeneity of the lignin distribution in CNC/lignin films. Complete UV blocking was achieved at 10 wt % lignin (AL or SKL) in CNC films. Cross-polarized optical microscopy and scanning electron microscopic images of films showed some degrees of global alignment of CNC rods upon addition of NaOH, which remained unaffected by lignin addition. Lignin modification through acetylation reduced the lignin color and improved visible light transmission of films without significantly affecting the UV-absorption properties. Presence of lignin also enhanced the thermal and contact angle stability of the films. This work shows for the first time that CNC aqueous suspensions with and without containing lignin could be tuned through the addition of NaOH to produce transparent and homogenous films, providing a simple and green approach in engineering CNC/lignin UV-protection films.

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Section: Resultsmentioning

confidence: 83%

Transparent and Homogenous Cellulose Nanocrystal/Lignin UV-Protection Films

et al. 2018

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“…The precipitation-redispersion mechanism enabled the removal of more than 99.8% of the ionic residues. Consequently, the nanoparticle dispersions showed no macroscopic phase separation over several weeks at 23 • C. Nevertheless, the presence of ions in the dispersions is expected to promote the formation of agglomerates [55,56] effecting larger apparent particle sizes. The actual particle size could be detected by atomic force microscopy and transmission electron microscopy.…”

Section: Nanoparticle Dispersionsmentioning

confidence: 98%

Efficiently Extracted Cellulose Nanocrystals and Starch Nanoparticles and Techno-Functional Properties of Films Made Thereof

et al. 2018

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Cellulose nanocrystals (CNC) and starch nanoparticles (SNP) have remarkable physical and mechanical characteristics. These properties particularly facilitate their application as high-performance components of bio-based packaging films as alternatives to fossil-based counterparts. This study demonstrates a time-efficient and resource-saving extraction process of CNC and SNP by sulfuric acid hydrolysis and neutralization. The yields of the hydrolyzed products were 41.4% (CNC) and 32.2% (SNP) after hydrolysis times of 3 h and 120 h, respectively. The nanoparticle dispersions were wet-coated onto poly(lactic acid) (PLA) and paper substrates and were incorporated into starch films. No purification or functionalization of the nanoparticles was performed prior to their application. Techno-functional properties such as the permeability of oxygen and water vapor were determined. The oxygen permeability of 5–9 cm3 (STP) 100 µm m−2 d−1 bar−1 at 50% relative humidity and 23 °C on PLA makes the coatings suitable as oxygen barriers. The method used for the extraction of CNC and SNP contributes to the economic production of these nanomaterials. Further improvements, e.g., lower ion concentration and narrower particle size distribution, to achieve reproducible techno-functional properties are tangible.

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“…At the lower limit, the electrostatic repulsions are dominant and very long‐range, promoting kinetic arrest, even at low CNC concentration (≈1 wt%); this is generally referred to as a repulsive Wigner glass, but for sufficiently long aspect ratios (e.g., bacterially derived CNC) it can slowly evolve into a nematic phase (e.g., after a week, for I < 10 µM) . At the upper limit, which strongly depends on the counter‐ion valence, the colloidal stability is disrupted and leads to either a slow evolution into an attractive colloidal gel, or to flocculation and sedimentation . Notably, the use of insufficiently charged CNCs results in similar behavior …”

Section: Self‐assembly From Suspension To the Solid Statementioning

confidence: 99%

The Self‐Assembly of Cellulose Nanocrystals: Hierarchical Design of Visual Appearance

et al. 2017

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By controlling the interaction of biological building blocks at the nanoscale, natural photonic nanostructures have been optimized to produce intense coloration. Inspired by such biological nanostructures, the possibility to design the visual appearance of a material by guiding the hierarchical self‐assembly of its constituent components, ideally using natural materials, is an attractive route for rationally designed, sustainable manufacturing. Within the large variety of biological building blocks, cellulose nanocrystals are one of the most promising biosourced materials, primarily for their abundance, biocompatibility, and ability to readily organize into photonic structures. Here, the mechanisms underlying the formation of iridescent, vividly colored materials from colloidal liquid crystal suspensions of cellulose nanocrystals are reviewed and recent advances in structural control over the hierarchical assembly process are reported as a toolbox for the design of sophisticated optical materials.

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Aggregation behavior of aqueous cellulose nanocrystals: the effect of inorganic salts

Cited by 127 publications

References 44 publications

Transparent and Homogenous Cellulose Nanocrystal/Lignin UV-Protection Films

Transparent and Homogenous Cellulose Nanocrystal/Lignin UV-Protection Films

Efficiently Extracted Cellulose Nanocrystals and Starch Nanoparticles and Techno-Functional Properties of Films Made Thereof

The Self‐Assembly of Cellulose Nanocrystals: Hierarchical Design of Visual Appearance

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