2015
DOI: 10.1002/adma.201504335
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Body‐Attachable and Stretchable Multisensors Integrated with Wirelessly Rechargeable Energy Storage Devices

Abstract: A stretchable multisensor system is successfully demonstrated with an integrated energy-storage device, an array of microsupercapacitors that can be repeatedly charged via a wireless radio-frequency power receiver on the same stretchable polymer substrate. The integrated devices are interconnected by a liquid-metal interconnection and operate stably without noticeable performance degradation under strain due to the skin attachment, and a uniaxial strain up to 50%.

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Cited by 135 publications
(137 citation statements)
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“…In another example, a supercapacitor array connected with a RF power receiver was incorporated into a sensor system containing a strain sensor and a UV/NO 2 sensor to realize a stretchable (50%) and wirelessly rechargeable sensor system. [31] With the AgNW/PDMS stretchable conductors, [24] our group has recently demonstrated a wearable chest patch (Figure 8a) that integrated three AgNW/PDMS dry electrodes, a AgNW/ Ecoflex/AgNW capacitive strain sensor, and a AgNW/PDMS based interdigitated skin hydration sensor. [42] Other components including a battery, data processing units, and a Bluetooth module were also integrated with the patch to enable wireless and concurrent monitoring of ECG, body movements, and skin hydration.…”
Section: Integration Of Wearable Sensors With Other Componentsmentioning
confidence: 99%
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“…In another example, a supercapacitor array connected with a RF power receiver was incorporated into a sensor system containing a strain sensor and a UV/NO 2 sensor to realize a stretchable (50%) and wirelessly rechargeable sensor system. [31] With the AgNW/PDMS stretchable conductors, [24] our group has recently demonstrated a wearable chest patch (Figure 8a) that integrated three AgNW/PDMS dry electrodes, a AgNW/ Ecoflex/AgNW capacitive strain sensor, and a AgNW/PDMS based interdigitated skin hydration sensor. [42] Other components including a battery, data processing units, and a Bluetooth module were also integrated with the patch to enable wireless and concurrent monitoring of ECG, body movements, and skin hydration.…”
Section: Integration Of Wearable Sensors With Other Componentsmentioning
confidence: 99%
“…For wearable photodetectors, various materials such as crumpled graphene-AuNPs, [177] ZnO nanostructures, [82,178,179] rGO/ PVDF-TrFE nanocomposites, [180] MoS 2 /WS 2 heterojunction arrays, [181] Zn 2 SnO 4 NWs, [182] SnO 2 NWs [31,183] were employed for the detection of UV, [31,82,178,179,182,183] infrared (IR), [180] or other light illumination, [177,181] based on the principle that light illumination can excite more electrons into the conduction band generating photocurrent. [31] In particular, a crumpled …”
Section: Wearable Environmental Sensorsmentioning
confidence: 99%
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“…In conjunction with advanced material assemblies1234, well-designed architectures5678, and theoretical backgrounds910, electronic units nowadays can be attached to human skin and functionally operated under skin-like deformation without any electrical or mechanical failure, providing a new paradigm of electronics in a wearable, skin-conformable form. Promising technologies have been developed to enable a new class of applications such as imperceptible, long-term monitoring of individual’s activity1112131415, noninvasive control/measurement of clinical information such as blood1617, perspiration1819, and even brain20, and motion-activated user-interfaces121 in the form of electronic epidermis. The forefront of such technologies includes ultrathin patterned silicon devices5671113, imperceptible electronic foils12172223, and rigid island-embedded electronic systems141523.…”
mentioning
confidence: 99%