Logic-enabled textiles

Rajappan, Anoop; Jumet, Barclay; Shveda, Rachel A.; Decker, Colter J.; Liu, Zhen; Yap, Te Faye; Sánchez, Vanessa; Preston, Daniel J.

doi:10.1073/pnas.2202118119

Cited by 52 publications

(43 citation statements)

References 40 publications

(68 reference statements)

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“…For example, a single output temperature from a thermal circuit consisting of thermal OR gates could be used to detect whether any of the input temperatures ( , ,…., ) is above the switching temperature, as illustrated in Supplementary Figure 4 for . Like mechanical 68 , fluidic 69 , and textile 70 logic elements, thermal logic devices could potentially be applied for computation and sensing without requiring electrical power consumption, if a naturally occurring thermal gradient exists to establish and . Although nanoscale thermal–mechanical logic elements leveraging thermal expansion and gap-size-dependent thermal radiation have been demonstrated 71 , macroscopic thermal logic gates have not been reported.…”

Section: Resultsmentioning

confidence: 99%

A three-terminal magnetic thermal transistor

et al. 2023

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Three-terminal thermal analogies to electrical transistors have been proposed for use in thermal amplification, thermal switching, or thermal logic, but have not yet been demonstrated experimentally. Here, we design and fabricate a three-terminal magnetic thermal transistor in which the gate temperature controls the source-drain heat flow by toggling the source-drain thermal conductance from ON to OFF. The centimeter-scale thermal transistor uses gate-temperature dependent magnetic forces to actuate motion of a thermally conducting shuttle, providing thermal contact between source and drain in the ON state while breaking contact in the OFF state. We measure source-drain thermal switch ratios of 109 ± 44 in high vacuum with gate switching temperatures near 25 °C. Thermal measurements show that small heat flows into the gate can be used to drive larger heat flows from source to drain, and that the switching is reversible over >150 cycles. Proof-of-concept thermal circuit demonstrations show that magnetic thermal transistors can enable passive or active heat flow routing or can be combined to create Boolean thermal logic gates. This work will allow thermal researchers to explore the behavior of nonlinear thermal circuits using three-terminal transistors and will motivate further research developing thermal transistors for advanced thermal control.

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Section: Resultsmentioning

confidence: 99%

A three-terminal magnetic thermal transistor

et al. 2023

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“…Finally, reducing the cost of SCT devices through the aforementioned fabrication approach stemming from soft robotics is particularly important because people of low socioeconomic status have more risk factors for cardiovascular diseases, and this low-cost device may provide more accessible treatment for those who need it. It has also been shown that devices of similar textile structures and materials to our device are machine washable and remain functional after 20,000 cycles of actuation, which is equivalent to 50,000 min of SCT for our device, making our device ideal for wearable purposes (Rajappan et al, 2022). Furthermore, the files used to create all parts of the device have been provided in the Supplementary Material to allow open-access fabrication.…”

Section: Discussionmentioning

confidence: 96%

“…For example, sewing the straps of the device into (or underneath) a pant leg would enable the device to be wearable like conventional garments yet still provide SCT in an inconspicuous and comfortable manner. The implementation of textile-based energy harvesting or logic control could enable the device to be made solely from textile materials, ensuring an entirely soft (and washable) device ( Rajappan et al, 2022 ; Shveda et al, 2022 ). The system could also be further developed to deliver SCT more precisely in an automatic manner by using closed-loop control ( Payne et al, 2018 ; Sanchez et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

“…Frontiers in Robotics and AI frontiersin.org systems, such as functionally complete logic control (Rajappan et al, 2022) and power generation from walking (Shveda et al, 2022). Additionally, prior work in soft robotics has shown that textile-based wearable devices represent a promising solution for low-cost, untethered, and lightweight devices that apply forces to the body (Sanchez et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

“…By leveraging their pliable geometry, the functions of sheet-based devices are diverse, ranging from oscillating actuators ( Lee et al, 2022 ) to instability driven locomotion ( Nagarkar et al, 2021 ). Going further, sheet-based devices made from textiles have been demonstrated in useful soft systems, such as functionally complete logic control ( Rajappan et al, 2022 ) and power generation from walking ( Shveda et al, 2022 ). Additionally, prior work in soft robotics has shown that textile-based wearable devices represent a promising solution for low-cost, untethered, and lightweight devices that apply forces to the body ( Sanchez et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

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A low-cost wearable device for portable sequential compression therapy

et al. 2022

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In 2020, cardiovascular diseases resulted in 25% of unnatural deaths in the United States. Treatment with long-term administration of medication can adversely affect other organs, and surgeries such as coronary artery grafts are risky. Meanwhile, sequential compression therapy (SCT) offers a low-risk alternative, but is currently expensive and unwieldy, and often requires the patient to be immobilized during administration. Here, we present a low-cost wearable device to administer SCT, constructed using a stacked lamination fabrication approach. Expanding on concepts from the field of soft robotics, textile sheets are thermally bonded to form pneumatic actuators, which are controlled by an inconspicuous and tetherless electronic onboard supply of pressurized air. Our open-source, low-profile, and lightweight (140 g) device costs $62, less than one-third the cost the least expensive alternative and one-half the weight of lightest alternative approved by the US Food and Drug Administration (FDA), presenting the opportunity to more effectively provide SCT to socioeconomically disadvantaged individuals. Furthermore, our textile-stacking method, inspired by conventional fabrication methods from the apparel industry, along with the lightweight fabrics used, allows the device to be worn more comfortably than other SCT devices. By reducing physical and financial encumbrances, the device presented in this work may better enable patients to treat cardiovascular diseases and aid in recovery from cardiac surgeries.

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Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

Zhang

Xia

et al. 2023

Adv Funct Materials

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Benefiting from inherent lightweight, flexibility, and good adaptability to human body, functional textiles are attracting tremendous attention to cope with wearable issues in sustainable applications around human beings. In this feature article, a comprehensive and thoughtful review is proposed regarding research activities of functional textiles with smart properties. Specifically, a brief exposition of highlighting the significance and rising demands of novel textiles throughout the human society is begun. Next, a systematic review is provided about the fabrication of functional textiles from 1D spinning, 2D modification, and 3D construction, their diverse functionality as well as sustainable applications, showing a clear picture of evolved textiles to the readers. How to engineer the compositions, structures, and properties of functional textiles is elaborated to achieve different smart properties. All these tunable, upgraded, and versatile properties make the developed textiles well suited for extensive applications ranging from environmental monitoring or freshwater access to personal protection and wearable power supply. Finally, a simple summary and critical analysis is drawn, with emphasis on the insight into remaining challenges and future directions. With worldwide efforts, advance and breakthrough in textile functionalization expounded in this review will promote the revolution of smart textiles for intelligence era.

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Logic-enabled textiles

Cited by 52 publications

References 40 publications

A three-terminal magnetic thermal transistor

A three-terminal magnetic thermal transistor

A low-cost wearable device for portable sequential compression therapy

Functional Textiles with Smart Properties: Their Fabrications and Sustainable Applications

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