Journal ArticleDOI
Tough and Multifunctional Composite Film Actuators Based on Cellulose Nanofibers toward Smart Wearables.
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TLDR
In this paper, a cellulose nanofiber (CNF)-based actuator with high mechanical properties, excellent Joule heating, and antibacterial capability is successfully constructed by integrating with Ti3C2Tx (MXene) and tannic acid (TA) via a vacuum-assisted filtration approach.Abstract:
Although humidity-responsive actuators serve as a promising candidate in smart wearables, artificial muscles, and biomimetic devices, most of them derived from synthetic polymers could not simultaneously achieve multifunctional properties. In this work, a cellulose nanofiber (CNF)-based film actuator with high mechanical properties, excellent Joule heating, and antibacterial capability is successfully constructed by integrating with Ti3C2Tx (MXene) and tannic acid (TA) via a vacuum-assisted filtration approach. Owing to the unique nacrelike structure and strong hydrogen bonds, the tensile strength and toughness of the composite film could reach 275.4 MPa and 10.2 MJ·m-3, respectively. Importantly, the hydrophilic nature of CNFs and alterable interlayer spacing of MXene nanosheets endow the composite film with sensitive humidity response and extraordinary stability (1000 cycles). With the assistance of MXene nanosheets and TA, the composite film could not only present outstanding Joule heating but also possess remarkable antibacterial properties against both Gram-negative Escherichia coli and Gram-positive Staphylococcus aureus. Benefiting from the above merits, the proof-of-concept smart garment is assembled by the as-prepared film and is capable of regulating humidity and temperature.read more
Citations
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rGO/MXene sandwich-structured film at spunlace non-woven fabric substrate: Application to EMI shielding and electrical heating.
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Ultra-light-weight kevlar/polyimide 3D woven spacer multifunctional composites for high-gain microstrip antenna
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Oyster-inspired organic-inorganic hybrid system to improve cold-pressing adhesion, flame retardancy, and mildew resistance of soybean meal adhesive
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Nacre-inspired composite film with mechanical robustness for highly efficient actuator powered by humidity gradients
TL;DR: In this paper , a facile sequential bridging strategy was proposed to fabricate the nacre-inspired carboxymethyl cellulose (CMC), MXene nanosheets, and multivalent aluminum ions (Al 3+ ).
References
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Journal ArticleDOI
Guidelines for Synthesis and Processing of Two-Dimensional Titanium Carbide (Ti3C2Tx MXene)
Mohamed Alhabeb,Kathleen Maleski,Babak Anasori,Pavel Lelyukh,Leah Clark,Saleesha Sin,Yury Gogotsi +6 more
TL;DR: Two-dimensional transition metal carbides, carbonitrides, and nitrides (MXenes) were discovered in 2011 and more than 20 different compositions have been synthesized by the selective etching of MAX phase and other precursors and many more theoretically predicted as mentioned in this paper.
Journal ArticleDOI
Cellulose nanofibers prepared by TEMPO-mediated oxidation of native cellulose
TL;DR: Never-Dried and once-dried hardwood celluloses were oxidized by a 2,2,6,6-tetramethylpiperidine-1-oxyl radical (TEMPO)-mediated system, and highly crystalline and individualized cellulose nanofibers, dispersed in water, were prepared by mechanical treatment of the oxidized celluloses/water slurries.
Journal ArticleDOI
How the Venus flytrap snaps
TL;DR: This study identifies an ingenious solution to scaling up movements in non-muscular engines and provides a general framework for understanding nastic motion in plants.
Journal ArticleDOI
Radiative human body cooling by nanoporous polyethylene textile
Po-Chun Hsu,Alex Y. Song,Peter B. Catrysse,Chong Liu,Yucan Peng,Jin Xie,Shanhui Fan,Yi Cui,Yi Cui +8 more
TL;DR: It is shown that nanoporous polyethylene (nanoPE) is transparent to mid-infrared human body radiation but opaque to visible light because of the pore size distribution, and processed the material to develop a textile that promotes effective radiative cooling while still having sufficient air permeability, water-wicking rate, and mechanical strength for wearability.
Journal ArticleDOI
Self-shaping composites with programmable bioinspired microstructures.
TL;DR: A robust and universal method to replicate this unusual shape-changing mechanism of natural systems in artificial bioinspired composites, based upon the remote control of the orientation of reinforcing inorganic particles within the composite using a weak external magnetic field is proposed.