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Flexible Substrate Materials for Wearable Antennas
2020 4th Australian Microwave Symposium (AMS), 2020Several flexible substrate materials potentially usable for wearable antennas are presented in this paper, including rubber, leather and foam. The measured electrical characteristics are compared to show their pros and cons in view of wearable antenna design.
Quoc Hung Dang +4 more
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Materials and Designs for Wearable Photodetectors
Advanced Materials, 2019AbstractPhotodetectors (PDs), as an indispensable component in electronics, are highly desired to be flexible to meet the trend of next‐generation wearable electronics. Unfortunately, no in‐depth reviews on the design strategies, material exploration, and potential applications of wearable photodetectors are found in literature to date.
Sa Cai +4 more
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Future wearables by soft electronic materials
2022Wearable devices enable long-term and precise healthcare monitoring without medical professionals, which is especially important in a pandemic or aging society. As the next-generation of current wearable devices in the form of a watch or ring, wearable devices with skin-like softness and stretchability have been developed for improved comfort of wear ...
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UHF Wearable Rectenna on Textile Materials
IEEE Transactions on Antennas and Propagation, 2013A wearable rectenna for operation in the ultra high frequency (UHF) band is presented. The proposed device consists of a compact patch antenna and a full-wave bridge rectifier, both fabricated with textile materials. The patch antenna has been realized by using an adhesive conductive fabric on a bi-layer substrate made of pile and jeans.
MONTI, GIUSEPPINA +2 more
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Wearable microgrids empowered by single-atom materials
The Innovation Materials, 2023<p>Wearable microgrids, a wearable system with integrated energy harvesting, storage, and regulation modules, and sensors, have potential to support human healthcare. However, wearable microgrids have not reached viability due to their high costs and limited performance, stability, and biocompatibility, awaiting significant breakthroughs ...
Shichao Ding +7 more
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Wearable Rhythms: Materials in Play
2017This paper will consider a future of wearable fluidic materials through a frame of embodied making and imagination. It will be presented through the design, construction, and reflection of a design case study: ‘Wearable Rhythms.’ This exploration is undertaken by drawing upon the rhythm of natural, elemental materials such as water and air.
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(Invited) 2D Materials for Wearable Electronics
ECS Meeting Abstracts, 2016Tactile sensors, in the form of conformal and embedded devices, have attracted intense research interest because of their diverse applications, from electronic skin (E-skin) for robotics to health care monitoring systems. Much effort has been made to develop large- area and high-performance tactile sensors with good sensitivity and mechanical ...
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Using piezoelectric materials for wearable electronic textiles
Proceedings. Sixth International Symposium on Wearable Computers,, 2003An open issue for electronic textiles (e-textiles) used for wearable computing is the choice of materials. This paper describes the desirable characteristics of piezoelectric materials for wearable e-textiles, including shape sensing, sound detection, and sound emission.
J. Edmison +3 more
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Wearable Ultrasound Devices, Materials, and Applications
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency ControlWearable healthcare devices are expected to greatly improve the quality of human life by providing continuous health monitoring, remedying weakened or lost body or organ functions, and sometimes enabling superhuman capabilities. Enabled by recent advancements in soft matter, nanotechnology, integrated circuits, portable power technology, and artificial
Xiaoning Jiang +2 more
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Materials-Driven Soft Wearable Bioelectronics for Connected Healthcare
Chemical ReviewsIn the era of Internet-of-things, many things can stay connected; however, biological systems, including those necessary for human health, remain unable to stay connected to the global Internet due to the lack of soft conformal biosensors. The fundamental challenge lies in the fact that electronics and biology are distinct and incompatible, as they are
Shu Gong +4 more
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