Journal ArticleDOI
Overtwisted, Resolvable Carbon Nanotube Yarn Entanglement as Strain Sensors and Rotational Actuators
Yibin Li,Yibin Li,Yuanyuan Shang,Yuanyuan Shang,Xiaodong He,Qingyu Peng,Shanyi Du,Enzheng Shi,Shiting Wu,Zhen Li,Peixu Li,Anyuan Cao +11 more
TLDR
It is shown that a helical nanotube yarn can be overtwisted into highly entangled, macroscopically random but locally organized structures, consisting of mostly double-helix segments intertwined together, which represent a complex self-assembled system with applications as large-range strain sensors and robust rotational actuators.Abstract:
Introducing twists into carbon nanotube yarns could produce hierarchical architectures and extend their application areas. Here, we utilized such twists to produce elastic strain sensors over large strain (up to 500%) and rotation actuators with high energy density. We show that a helical nanotube yarn can be overtwisted into highly entangled, macroscopically random but locally organized structures, consisting of mostly double-helix segments intertwined together. Pulling the yarn ends completely resolved the entanglement in an elastic and reversible way, yielding large tensile strains with linear change in electrical resistance. Resolving an entangled yarn and releasing its twists could simultaneously rotate a heavy object (30 000 times the yarn weight) for more than 1000 cycles at high speed. The rotational actuation generated from a single entangled yarn produced energy densities up to 8.3 kJ/kg, and maintained similar capacity during repeated use. Our entangled CNT yarns represent a complex self-assemb...read more
Citations
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Superstructured Assembly of Nanocarbons: Fullerenes, Nanotubes, and Graphene
Journal ArticleDOI
Smart Electronic Textiles.
TL;DR: This Review describes the state-of-the-art of wearable electronics (smart textiles) by comparing them with the conventional planar counterparts and discusses the main kinds of smart electronic textiles based on different functionalities.
Journal ArticleDOI
Highly Stretchable and Self-Healable Supercapacitor with Reduced Graphene Oxide Based Fiber Springs
TL;DR: This work gave an essential strategy for designing and fabricating stretchable and self-healable supercapacitors in next-generation multifunctional electronic devices.
Journal ArticleDOI
Moisture‐Activated Torsional Graphene‐Fiber Motor
TL;DR: A new type of moisture-driven rotational motor is developed using a helical arrangement of graphene sheets along a graphene oxide fiber that not only presents remarkable performance as a reversible rotary motor with a rotary speed of up to 5200 revolutions per minute under humidity alternation, but also allows the construction of humidity switches and promising moisture-triggered electric generators.
Journal ArticleDOI
Textile Strain Sensors: A Review of the Fabrication Technologies, Performance Evaluation and Applications
TL;DR: Textile strain sensors offer a new generation of devices that combine strain sensing functionality with wearability and high stretchability as mentioned in this paper, and they can sense a wide range of body strains.
References
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Journal ArticleDOI
Macroscopic Fibers and Ribbons of Oriented Carbon Nanotubes
Brigitte Vigolo,Alain Pénicaud,Claude Coulon,Cédric Sauder,René Pailler,Catherine Journet,P. Bernier,Philippe Poulin +7 more
TL;DR: A simple method was used to assemble single-walled carbon nanotubes into indefinitely long ribbons and fibers, and the obtained elastic modulus is 10 times higher than the modulus of high-quality bucky paper.
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Multifunctional Carbon Nanotube Yarns by Downsizing an Ancient Technology
TL;DR: By introducing twist during spinning of multiwalled carbon nanotubes from nanotube forests to make multi-ply, torque-stabilized yarns, this work achieves yarn strengths greater than 460 megapascals, nearly as tough as fibers used for bulletproof vests.
Journal ArticleDOI
Super-tough carbon-nanotube fibres
Alan B. Dalton,Steve Collins,Edgar Muñoz,Joselito M. Razal,Von Howard Ebron,John P. Ferraris,Jonathan N. Coleman,Bog G. Kim,Ray H. Baughman +8 more
TL;DR: This work spins 100-metre-long carbon-nanotube composite fibres that are tougher than any natural or synthetic organic fibre described so far, and uses these to make fibre supercapacitors that are suitable for weaving into textiles.
Journal ArticleDOI
Direct Spinning of Carbon Nanotube Fibers from Chemical Vapor Deposition Synthesis
TL;DR: In this article, the authors used a rotating spindle to spin fibers and ribbons of carbon nanotubes directly from the chemical vapor deposition (CVD) synthesis zone of a furnace using a liquid source of carbon and an iron nanocatalyst.
Journal ArticleDOI
Nanotechnology: spinning continuous carbon nanotube yarns.
TL;DR: It is shown that carbon nanotubes can be self-assembled into yarns of up to 30 cm in length simply by being drawn out from superaligned arrays of carbon Nanotubes, and that the strength and conductivity of these yarns can be enhanced by heating them at high temperatures.