Enabling platform technology for smart fabric design and printing

Torah, Russel; Wei, Yang; Grabham, Neil; Li, Yang; Vos, Marc de; Todorov, Todor; Popov, Boris V.; Marinov, Vlad; Stoyanov, Svetlozar; Todorov, Vlad; Tudor, John

doi:10.1177/1558925019845903

Cited by 4 publications

(4 citation statements)

References 12 publications

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“…For better breathability and stretchability, a nonwoven electrospun polyurethane textile was introduced. 9 However, textile-based substrates still have the following limitations: (1) they have anisotropic mechanical and electrical properties due to their woven structure, 21 (2) the rough texture of textiles could prohibit the fine printing detail, 22,23 and (3) textile substrates are not patternable and they require additional processes such as flipping and puncturing processes for electrode connection. 9 Elastomers such as polydimethylsiloxane (PDMS) and Ecoflex are also used for fabricating flexible and stretchable substrates.…”

Section: ■ Introductionmentioning

confidence: 99%

Fully Screen-Printed PI/PEG Blends Enabled Patternable Electrodes for Scalable Manufacturing of Skin-Conformal, Stretchable, Wearable Electronics

Park

Ban

Zavanelli

et al. 2023

ACS Appl. Mater. Interfaces

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Recent advances in soft materials and nanomicrofabrication have enabled the development of flexible wearable electronics. At the same time, printing technologies have been demonstrated to be efficient and compatible with polymeric materials for manufacturing wearable electronics. However, wearable device manufacturing still counts on a costly, complex, multistep, and error-prone cleanroom process. Here, we present fully screen-printable, skin-conformal electrodes for low-cost and scalable manufacturing of wearable electronics. The screen printing of the polyimide (PI) layer enables facile, low-cost, scalable, highthroughput manufacturing. PI mixed with poly(ethylene glycol) exhibits a shear-thinning behavior, significantly improving the printability of PI. The premixed Ag/AgCl ink is then used for conductive layer printing. The serpentine pattern of the screen-printed electrode accommodates natural deformation under stretching (30%) and bending conditions (180°), which are verified by computational and experimental studies. Real-time wireless electrocardiogram monitoring is also successfully demonstrated using the printed electrodes with a flexible printed circuit. The algorithm developed in this study can calculate accurate heart rates, respiratory rates, and heart rate variability metrics for arrhythmia detection.

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Section: ■ Introductionmentioning

confidence: 99%

Fully Screen-Printed PI/PEG Blends Enabled Patternable Electrodes for Scalable Manufacturing of Skin-Conformal, Stretchable, Wearable Electronics

Park

Ban

Zavanelli

et al. 2023

ACS Appl. Mater. Interfaces

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“…Printed batteries allow for thin, flexible devices that can easily be fabricated onto a textile . Printing methods for both alkaline and lithium batteries include inkjet printing, , dispenser printing, , and screen printing. , Alternative methods of fabricating textile-based batteries include spinning the battery and encapsulating it in the electrolyte material or coating a textile with an electrolyte and sandwiching that between the cathode and anode material . Lithium-ion batteries have also been fabricated into liquid-activated batteries that are useful for textiles such as life jackets .…”

Section: Introductionmentioning

confidence: 99%

Modern Developments for Textile-Based Supercapacitors

2023

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Smart textiles are transforming the future of wearable technology, and due to that, there has been a great deal of new research looking for alternative energy storage. Supercapacitors offer high discharge rates, flexibility, and long life cycles and can be integrated fully into a textile. Optimization of these new systems includes utilizing electrically conductive materials, employing successful electrostatic charge and/or faradaic responses, and fabricating a textile-based energy storage system without disrupting comfort, washability, and life cycle. This paper examines recent developments in fabrication methods and materials used to create textile supercapacitors and what challenges still remain.

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“…Another research project --one that produced smart textiles --involved both hardware and software that enabled designers to work with a printer that deposited electronic functional inks onto fabrics (Torah et al, 2019). This printer allows the designers to print out the rapid prototype smart fabrics and incorporated the functions of colour change, electroluminescence (see Figure 2), sound emission and proximity sensing.…”

Section: E-textilementioning

confidence: 99%

“…Printed demonstrator showing two electroluminescent lamps and one proximity sensor with associated connector at the edge of the fabric(Torah et al, 2019).…”

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confidence: 99%

Kinetic Fabric Samples as a New Approach to Interactive Fashion Arts

Vahid¹

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As technology is integrated into all aspects of our lives, researchers are working to explore emerging technologies -such as the creation of functional apparel -in the field of fashion design. The substantial growth in the field of functional apparel design -such as the use of smart textiles -encourages researchers and fashion designers to incorporate technology within their designs.Literature shows that the field of interactive fashion design is new and requires interdisciplinary knowledge such as electrical engineering and computer science to be successful. Therefore, we created ready-to-use kinetic fabric samples for designers, to assess how convenient it could be for designers to implement emerging technologies into their designs. We explored this research gap through two preliminary user studies with seven experienced designers. The information gathered from this study could be used to identify design guidelines for kinetic fabric samples that would assist designers incorporating technology in their design.iii

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Enabling platform technology for smart fabric design and printing

Cited by 4 publications

References 12 publications

Fully Screen-Printed PI/PEG Blends Enabled Patternable Electrodes for Scalable Manufacturing of Skin-Conformal, Stretchable, Wearable Electronics

Fully Screen-Printed PI/PEG Blends Enabled Patternable Electrodes for Scalable Manufacturing of Skin-Conformal, Stretchable, Wearable Electronics

Modern Developments for Textile-Based Supercapacitors

Kinetic Fabric Samples as a New Approach to Interactive Fashion Arts

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