A Flexible Dual‐Mode Capacitive Sensor for Highly Sensitive Touchless and Tactile Sensing in Human‐Machine Interactions

Liu, Weijie; Xiang, Feihe; Mei, Deqing; Wang, Yancheng

doi:10.1002/admt.202301685

Cited by 8 publications

(5 citation statements)

References 38 publications

(47 reference statements)

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“…Furthermore, by integrating the transparent sensors into eyeglasses, we are allowed to detect the small motion of a blink, giving a demonstration of information encoding and translation through the combination of blink and Morse code, which may enable disabled patients, for instance, LIS patients, to communicate. We envision that such electret-based noncontact soft sensors can be further improved to be stretchable and capable of detecting long-distance objects for more powerful applications in the field of human-machine interfaces (HMIs). − …”

Section: Discussionmentioning

confidence: 99%

Facile Electret-Based Self-Powered Soft Sensor for Noncontact Positioning and Information Translation

Liu,

Chen,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

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Noncontact sensors have demonstrated significant potential in human-machine interactions (HMIs) in terms of hygiene and less wear and tear. The development of soft, stable, and simply structured noncontact sensors is highly desired for their practical applications in HMIs. This work reports on electret-based self-powered noncontact sensors that are soft, transparent, stable, and easy to manufacture. The sensors contain a three-layer structure with a thickness of 0.34 mm that is fabricated by simply stacking a polymeric electret layer, an electrode layer, and a substrate layer together. The fabricated sensors show high charge-retention capability, keeping over 98% of the initial surface potential even after 90 h, and can accurately and repeatedly sense external approaching objects with impressive durability. The intensity of the detected signal shows a strong dependence on the distance between the object and the sensor, capable of sensing a distance as small as 2 mm. Furthermore, the sensors can report stable signals in response to external objects over 3000 cycles. By virtue of the signal dependence on distance, an intelligent noncontact positioning system is developed that can precisely detect the location of an approaching object. Finally, by integrating with eyeglasses, the transparent sensor successfully captures the movements of blinks for information translation. This work may contribute to the development of stable and easily manufactured noncontact soft sensors for HMI applications, for instance, assisting with communication for locked-in syndrome patients.

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Section: Discussionmentioning

confidence: 99%

Facile Electret-Based Self-Powered Soft Sensor for Noncontact Positioning and Information Translation

Liu,

Chen,

Liu

et al. 2024

ACS Appl. Mater. Interfaces

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“…Figures 3C, 4D, 5A, 5B, 6C, 12A, 12C, 13A, 13C a nd 14A are cited from the researches in refs. [62,72,82,83,95,199,200,215,217,224,225] , respectively, showing partial body parts of the participants in the experiment. The purpose of these citations is to present the relevant research results and experimental methods more intuitively.…”

Section: Declarationsmentioning

confidence: 97%

“…Some scholars installed e-skins at the joint positions of hands or gloves and achieved synchronized control of a robotic hand by decoding the characteristic information transmitted by these e-skins in real time [220] . For the latter, the basic strategy is to install e-skins on the surface of the machinery so as to give the machinery tactile ability [221][222][223] [Figure 14A (i) and Figure 14B (i)] [224][225][226][227][228][229] .…”

Section: As Shown In [Figurementioning

confidence: 99%

“…Lu et al developed hydroxypropyl cellulose (HPC)-based eutectic gels with high conductivity, transparency, and anti-freezing properties with 98.1% resilience suitable for wearable applications by introducing HPC into a metal salt-based deep eutectic solvent (MDES) [225] . Self-powered e-skin composed of this Eutectic Gel-Based Triboelectric Nanogenerator (E-TENG) prepared using this eutectic gel possesses excellent performance.…”

Section: As Shown In [Figurementioning

confidence: 99%

“…Luo et al demonstrated a capacitive-dielectric integrated pressure sensor, micro-conformal electrodedielectric integration (MEDI), which has a complex structure of graphene nanowalls (pyramid-shaped top electrode)/PDMS (pyramid-shaped dielectric layer)/ZnO (pyramid-shaped dielectric layer)/poly(methyl [224] , (ii) structure, sensing characteristics and synchronization control of e-skin based on E-TENG [225] , (iii) demonstration of remote control of a robotic arm using the SR/TSH/dispersant/PPMS e-skin [226] ; (B) Schematic diagram of mechanical tactility: (i) concept of mechanical tactile [227] , (ii) demonstration of mechanical haptics of MXene/PU-MXene e-skin [228] , (iii) mechanical haptic signals and its recognition of braille text of MEDI e-skin [229] . E-TENG: Eutectic Gel-Based Triboelectric Nanogenerator; GNWs: graphene nanowalls; PDMS: polydimethylsiloxane; MEDI: micro-conformal electrode-dielectric integration.…”

Section: As Shown In [Figurementioning

confidence: 99%

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Pang

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The skin, a vital medium for human-environment communication, stands as an indispensable and pivotal element in the realms of both production and daily life. As the landscape of science and technology undergoes gradual evolution and the demand for seamless human-machine interfaces continues to surge, an escalating need emerges for a counterpart to our biological skin - electronic skins (e-skins). Achieving high-performance sensing capabilities comparable to our skin has consistently posed a formidable challenge. In this article, we systematically outline fundamental strategies enabling e-skins with capabilities including strain sensing, pressure sensing, shear sensing, temperature sensing, humidity sensing, and self-healing. Subsequently, complex e-skin systems and current major applications were briefly introduced. We conclude by envisioning the future trajectory, anticipating continued advancements and transformative innovations shaping the dynamic landscape of e-skin technology. This article provides a profound insight into the current state of e-skins, potentially inspiring scholars to explore new possibilities.

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Fringing‐Effect‐Based Capacitive Proximity Sensors

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et al. 2024

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Proximity sensing technology, which can obtain information without physical contact, has become an ideal choice in scenarios where physical contact is not feasible. Despite substantial advancements in tactile sensing, proximity sensing technology still holds great potential and has yet to be fully developed. Among numerous proximity sensing technologies, the fringing‐effect‐based capacitive proximity sensor (FE‐CPS) has garnered considerable attention due to its low cost, low power consumption, wide sensing range, and flexible and versatile structural design. However, research on FE‐CPS has not yet formed a complete system, and its development and intellectualization are still in their infancy, urgently requiring a systematic review to advance its development. This paper systematically summarizes the recent advances in FE‐CPS, from basic theory to practical applications. The working principle and typical structure of FE‐CPS are first introduced, followed by a discussion of methods for optimizing device performance. Furthermore, the application scenarios of FE‐CPS in intelligent pre‐alarm systems, intelligent control systems, and intelligent material perception systems are reviewed. Finally, the future development and challenges faced by FE‐CPS are prospected.

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A Flexible Dual‐Mode Capacitive Sensor for Highly Sensitive Touchless and Tactile Sensing in Human‐Machine Interactions

Cited by 8 publications

References 38 publications

Facile Electret-Based Self-Powered Soft Sensor for Noncontact Positioning and Information Translation

Facile Electret-Based Self-Powered Soft Sensor for Noncontact Positioning and Information Translation

Latest developments and trends in electronic skin devices

Fringing‐Effect‐Based Capacitive Proximity Sensors

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