Exploiting Supramolecular Interactions from Polymeric Colloids for Strong Anisotropic Adhesion between Solid Surfaces

Tardy, Blaise L.; Richardson, Joseph J.; Greca, Luiz G.; Guo, Junling; Ejima, Hirotaka; Rojas, Orlando J.

doi:10.1002/adma.201906886

Cited by 69 publications

(112 citation statements)

References 46 publications

(47 reference statements)

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“…Through this process, CNCs become aligned, thus providing anisotropic adhesion, offering strong gluing of a wealth of materials (Figure 10b). [ 273 ] Finally, CNFs also afford gluing, as manifested upon gluing several types of particles within a strong network (Figure 10c,d). [ 274 ] The above literature examples were discussed mainly in the context of gel‐like glues.…”

Section: Nanocellulose‐based Hybrid and Functional Hydrogelsmentioning

confidence: 99%

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Nanocellulose: Recent Fundamental Advances and Emerging Biological and Biomimicking Applications

et al. 2020

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In the effort toward sustainable advanced functional materials, nanocelluloses have attracted extensive recent attention. Nanocelluloses range from rod‐like highly crystalline cellulose nanocrystals to longer and more entangled cellulose nanofibers, earlier denoted also as microfibrillated celluloses and bacterial cellulose. In recent years, they have spurred research toward a wide range of applications, ranging from nanocomposites, viscosity modifiers, films, barrier layers, fibers, structural color, gels, aerogels and foams, and energy applications, until filtering membranes, to name a few. Still, nanocelluloses continue to show surprisingly high challenges to master their interactions and tailorability to allow well‐controlled assemblies for functional materials. Rather than trying to review the already extensive nanocellulose literature at large, here selected aspects of the recent progress are the focus. Water interactions, which are central for processing for the functional properties, are discussed first. Then advanced hybrid gels toward (multi)stimuli responses, shape‐memory materials, self‐healing, adhesion and gluing, biological scaffolding, and forensic applications are discussed. Finally, composite fibers are discussed, as well as nanocellulose as a strategy for improvement of photosynthesis‐based chemicals production. In summary, selected perspectives toward new directions for sustainable high‐tech functional materials science based on nanocelluloses are described.

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Section: Nanocellulose‐based Hybrid and Functional Hydrogelsmentioning

confidence: 99%

Section: Nanocellulose‐based Hybrid and Functional Hydrogelsmentioning

confidence: 99%

Nanocellulose: Recent Fundamental Advances and Emerging Biological and Biomimicking Applications

et al. 2020

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“…[ 203 ] In another report, capillary forces as obtained under confinement between two substrates, were shown to induce alignments in gelled dispersions undergoing evaporation. [ 204 ] The different processes reported to align nanocelluloses hints at the necessity of adapting processes, for future large‐scale operations, to the specific building blocks (e.g., nanocrystals or nanofibrils) in order to tether the opto‐mechanical properties of the obtained materials.…”

Section: Introducing Nanoscaled Anisotropy In Hydrogelsmentioning

confidence: 99%

Plant Nanomaterials and Inspiration from Nature: Water Interactions and Hierarchically Structured Hydrogels

et al. 2020

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Recent developments in the area of plant‐based hydrogels are introduced, especially those derived from wood as a widely available, multiscale, and hierarchical source of nanomaterials, as well as other cell wall elements. With water being fundamental in a hydrogel, water interactions, hydration, and swelling, all critically important in designing, processing, and achieving the desired properties of sustainable and functional hydrogels, are highlighted. A plant, by itself, is a form of a hydrogel, at least at given states of development, and for this reason phenomena such as fluid transport, diffusion, capillarity, and ionic effects are examined. These aspects are highly relevant not only to plants, especially lignified tissues, but also to the porous structures produced after removal of water (foams, sponges, cryogels, xerogels, and aerogels). Thus, a useful source of critical and comprehensive information is provided regarding the synthesis of hydrogels from plant materials (and especially wood nanostructures), and about the role of water, not only for processing but for developing hydrogel properties and uses.

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“…S3 †). The more diluted suspension failed at an average ultimate load of 236 AE 44 N, while the more concentrated one failed at 496 AE 75 N. Similarly to the observations made for cellulose nanocrystals, 23 the relationship between areal density and strength was not linear. Furthermore, the impacts of solution volume and concentration are expected to affect the areal density and the time before gelation happens, provided homogeneous wetting occurs within the curing bond.…”

Section: Resultsmentioning

confidence: 54%

“…289 AE 67 N, or 1.45 AE 0.4 MPa. Compared to CNCs previously tested using a similar setup, ChNCs reached roughly equivalent ultimate loads, as 1.1 mg of CNCs at 0.41 mg cm À2 failed at 269 AE 99 N. 23 A more detailed comparison with recent biocolloidal adhesive performance is herein presented in Section 3.4.…”

Section: Resultsmentioning

confidence: 98%

Chitin–amyloid synergism and their use as sustainable structural adhesives

et al. 2021

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Exploiting Supramolecular Interactions from Polymeric Colloids for Strong Anisotropic Adhesion between Solid Surfaces

Cited by 69 publications

References 46 publications

Nanocellulose: Recent Fundamental Advances and Emerging Biological and Biomimicking Applications

Nanocellulose: Recent Fundamental Advances and Emerging Biological and Biomimicking Applications

Plant Nanomaterials and Inspiration from Nature: Water Interactions and Hierarchically Structured Hydrogels

Chitin–amyloid synergism and their use as sustainable structural adhesives

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