High Content Nanocellulose 3D‐Printed and Esterified Structures with Strong Interfacial Adhesion, High Mechanical Properties, and Shape Fidelity

Latif, Muhammad; Jiang, Yangxiaozhe; Kumar, Bijender; Song, Jong Min; Cho, Hyeon Cheol; Kim, Jaehwan

doi:10.1002/admi.202200280

Cited by 18 publications

(11 citation statements)

References 50 publications

(72 reference statements)

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“…CNC is a rod-like structure material, which is mainly made of plant fibers by acid hydrolysis, and it has negatively charged sulfonic acid groups on its surface. It has emerged as a strengthening material in recent years [ 20 , 21 ]. As in our previous study [ 6 ], we proposed using the CNC@SiO 2 rods instead of pure SiO 2 nanoparticles to build the rough structure of the superhydrophobic coating.…”

Section: Introductionmentioning

confidence: 99%

Construction of CNC@SiO2@PL Based Superhydrophobic Wood with Excellent Abrasion Resistance Based on Nanoindentation Analysis and Good UV Resistance

et al. 2023

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Construction of superhydrophobic woods with high abrasion resistance is still a major challenge, and micro analysis for abrasion resistance is scarce. To improve these issues, cellulose nanocrystals (CNC)@SiO2@phosphorylated lignin (PL) rods were prepared by SiO2 in situ generated on CNC, and then the modified lignin attached to the CNC@SiO2 rods surface. Subsequently, the superhydrophobic coating was constructed using hydrophobic modified CNC@SiO2@PL rods as the main structural substance by simple spraying or rolling them onto wood surfaces, and both polydimethylsiloxane (PDMS) and epoxy resin were used as the adhesives. The resulting coating had excellent superhydrophobic properties with a water contact angle (WCA) of 157.4° and a slide angle (SA) of 6°. The introduced PL could enhance ultraviolet (UV) resistance of the coating due to the presence of these groups that absorbed UV light in lignin. In the abrasion resistance test, compared with the SiO2/PL coating, the abrasion resistance of the one with CNC was much higher, suggesting that CNC could improve the abrasion resistance of the coating due to its high crystallinity and excellent mechanical strength. The coating with PDMS performed better than the one with epoxy resin because the soft surface could offset part of the external impact by deformation in the abrasion process. This was also consistent with the results of the nanoindentation (NI) tests. In view of the simple preparation and good performance, this superhydrophobic wood will have broad application potential.

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Section: Introductionmentioning

confidence: 99%

Construction of CNC@SiO2@PL Based Superhydrophobic Wood with Excellent Abrasion Resistance Based on Nanoindentation Analysis and Good UV Resistance

et al. 2023

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“…The most significant aspects of 3D printing are removing restrictions in designing and constructing complex geometries and reducing material wastage [ 27 , 28 , 29 ]. Based on the ASTM 52900:2015 standard, AMT has seven classifications: direct energy deposition, material jetting and binder jetting technology, fused deposition modeling, vat photopolymerization, and material extrusion method [ 30 ]. Among different 3D printing technologies, material extrusion AMT is well-known for nanocellulose materials [ 31 ].…”

Section: Introductionmentioning

confidence: 99%

Additively-Manufactured High-Concentration Nanocellulose Composites: Structure and Mechanical Properties

et al. 2023

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Additive manufacturing technology (AMT) has transformed polymer composites’ manufacturing process with its exceptional ability to construct complex products with unique materials, functions, and structures. Besides limiting studies of manufacturing arbitrarily shaped composites using AMT, printed structures with a high concentration of nanocellulose face adhesion issues upon drying, resulting in shape fidelity issues and low mechanical strength. This research demonstrates an economical approach to printing a high-concentration (25.46 wt%) nanocellulose (NC) layer-wise pattern to fabricate structures. Two different composites are fabricated: (1) 3D-printed pure and high-concentration (10, 15, and 20 wt%) polyvinyl-alcohol (PVA)-blended NC structures followed by freeze-drying and impregnation of Epofix resin by varying hardener contents; (2) 3D-printed PVA-blended NC green composites dried at cleanroom conditions (Relative humidity 45%; Temperature 25 °C). Different contents (10, 15, and 20 wt%) of PVA as a crosslinker were blended with NC to assist the printed layers’ adhesions. An optimum PVA content of 15 wt% and an Epofix resin with 4 wt% hardener cases showed the highest bending strength of 55.41 ± 3.63 MPa and elastic modulus of 4.25 ± 0.37 GPa. In contrast, the 15 wt% PVA-blended NC cleanroom-dried green composites without resin infusion showed bending strength and elastic modulus of 94.78 ± 3.18 MPa and 9.00 ± 0.27 GPa, reflecting high interface adhesions as confirmed by scanning electron microscope. This study demonstrated that AMT-based nanocellulose composites could be scaled up for commercial use.

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“…The advantages of CNC and CNF in 3D printing include their surface modification characteristics and shear-thinning behavior in aqueous media . However, dilute suspensions of CNC and CNF are not fully suitable for 3D printing due to their low viscosity and drying shrinkage . Increasing the nanocellulose solid content (e.g., 30–40 wt % CNC) surmounts these issues but causes other problems such as nozzle clogging. − Thus, optimizing the solid content in inks (hydrogels) is a major challenge.…”

Section: Introductionmentioning

confidence: 99%

“…However, dilute suspensions of CNC and CNF are not fully suitable for 3D printing due to their low viscosity and drying shrinkage . Increasing the nanocellulose solid content (e.g., 30–40 wt % CNC) surmounts these issues but causes other problems such as nozzle clogging. − Thus, optimizing the solid content in inks (hydrogels) is a major challenge. A viable approach to tuning hydrogel rheology for high-fidelity 3D printing is to tune the interparticle interactions, which can be achieved by the addition of secondary materials such as polymers, nanoparticles, and salts …”

Section: Introductionmentioning

confidence: 99%

Crystalline and Hairy Nanocelluloses for 3D Printed Hydrogels and Strongly Structured Cryogels

Ojagh

Amini

Cranmer-Smith

et al. 2023

ACS Sustainable Chem. Eng.

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This work addresses two main challenges in additive manufacturing of cellulosic hydrogels and cryogels. They are (1) the rheological properties of suspensions of electrosterically stabilized nanocrystalline cellulose (ENCC, a member of the family of hairy nanocelluloses) are inadequate for 3D printing of hydrogels and (2) 3D printed cellulose nanocrystal (CNC) cryogels have poor mechanical properties. The above limitations are effectively addressed by hybridization of CNC/ENCC in the presence of a salt at an optimized weight ratio. Controlling the CNC/ENCC weight ratio leads to high tunability of the rheological properties of the hybrid systems, resulting in high-fidelity printing of 3D hydrogels. Similarly, high tunability in the mechanical performance of the cryogels, obtained upon freeze drying of the printed hydrogels, is achieved by manipulating the CNC/ENCC ratio. Compared to neat CNC cryogels, the compressive strength of the CNC/ENCC (1:1) cryogels is 78% higher. Combined, CNC bestows high printability on the cryogels, while the presence of ENCC leads to the strengthening of the corresponding super porous solid materials. Our findings open new opportunities for sustainable, biocompatible, and lightweight cellulosic structured scaffolds that can be tailored for a broad spectrum of applications.

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High Content Nanocellulose 3D‐Printed and Esterified Structures with Strong Interfacial Adhesion, High Mechanical Properties, and Shape Fidelity

Cited by 18 publications

References 50 publications

Construction of CNC@SiO2@PL Based Superhydrophobic Wood with Excellent Abrasion Resistance Based on Nanoindentation Analysis and Good UV Resistance

Construction of CNC@SiO2@PL Based Superhydrophobic Wood with Excellent Abrasion Resistance Based on Nanoindentation Analysis and Good UV Resistance

Additively-Manufactured High-Concentration Nanocellulose Composites: Structure and Mechanical Properties

Crystalline and Hairy Nanocelluloses for 3D Printed Hydrogels and Strongly Structured Cryogels

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