3D‐Printed Stacked Ionic Assemblies for Iontronic Touch Sensors

Odent, Jérémy; Baleine, Nicolas; Biard, Valentin; Dobashi, Yuta; Vancaeyzeele, Cédric; Nguyen, Giao; Madden, John D. W.; Plesse, Cédric; Raquez, Jean‐Marie

doi:10.1002/adfm.202210485

Cited by 14 publications

(17 citation statements)

References 61 publications

(47 reference statements)

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“…[5] Last year, Dobashi et al [6] investigated pressure-induced ionic current in a polyacrylamide hydrogel, this phenomenon is called piezoionic effect, [7] referring to ionic soft materials that can generate electrical output under pressure. [8] Recently, Odent et al [9] reported a 3D-printed stacked hydrogel shows large piezoionic output. This effect provides a new idea for the development of highly sensitive hydrogel sensors.…”

Section: Doi: 101002/adfm202300701mentioning

confidence: 99%

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Piezoionic SnSe Nanosheets‐Double Network Hydrogel for Self‐Powered Strain Sensing and Energy Harvesting

Cai

Liu

et al. 2023

Adv Funct Materials

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Flexible strain sensors have enormous potential in wearable devices, robots, and health monitoring equipment. However, the poor stretchability of strain sensors based on semiconductors and the low sensitivity of resistance change‐based hydrogel strain sensors hinders the comprehensive application. Herein, a flexible piezoionic SnSe‐hydrogel composite with an optimized structure and improved performance is designed. The piezoionic output rises nonlinearly as the applied force increases, with the piezoionic coefficient up to 1780 nV Pa−1 and −7.21 nA Pa−1. The composite can realize the continuous positioning in 1D space based on the piezoionic effect. It also demonstrates self‐powered characteristics, an ultrafast response speed of 6–8 ms, and a high gauge factor of 95.89. The sensor is exemplified to monitor fist clenching and finger bending, which has the potential to discriminate different joint movements. Meanwhile, the device can light up a light–emitting diode under pressure and bending. The as‐prepared piezoionic SnSe‐hydrogel device, having both high stretchability and sensitivity, may shed light on developing high‐performance flexible strain sensors and generators.

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Section: Doi: 101002/adfm202300701mentioning

confidence: 99%

“…[ 8 ] Recently, Odent et al. [ 9 ] reported a 3D‐printed stacked hydrogel shows large piezoionic output. This effect provides a new idea for the development of highly sensitive hydrogel sensors.…”

Section: Introductionmentioning

confidence: 99%

Piezoionic SnSe Nanosheets‐Double Network Hydrogel for Self‐Powered Strain Sensing and Energy Harvesting

Cai

Liu

et al. 2023

Adv Funct Materials

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“…250–252 Hydrogels have recently gained significant attention in the domain of artificial skin due to their resemblance to human tissues, since these materials are soft, high-water content, flexible, wearable and show high biocompatibility. 253–255 The majority of hydrogel-based sensors are piezoresistive, based on the principle that the electrical resistivity of a material changes when mechanical strain is applied. 256–258 However, piezoresistive hydrogels show several disadvantages, including an apparent hysteresis effect, low mechanical durability, ease of temperature variations, and the prerequisite for an external source of power, which pose significant barriers to practical application.…”

Section: Flexible Electronic and Bio-medical Applications Of P-pegsmentioning

confidence: 99%

Perspectives on recent advancements in energy harvesting, sensing and bio-medical applications of piezoelectric gels

et al. 2023

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“…Recently ionic systems have been broadly investigated due to the increased demand for neuromorphic applications, new computing methods, and less energy consumption 2 . Different iontronic devices based on the concept of transmitting, generating or storing signals by ions were developed in the last years [3][4][5][6][7][8][9][10][11][12] . The electric double layer (EDL) formation at the interface between two different materials is considered one of the important processes in iontronics.…”

Section: Introductionmentioning

confidence: 99%