Self-powered pressure sensor based on microfluidic triboelectric principle for human–machine interface applications

Goh, Qi Lun; Chee, Pei Song; Lim, Eng-Hock; Liew, Guo Guang

doi:10.1088/1361-665x/ac01a5

Cited by 20 publications

(5 citation statements)

References 53 publications

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“…Recently, Wolterink et al presented a 3D-printed piezoresistive shear and normal force sensor that can measure up to 10 N force on a fingertip phantom placed inside the sensing structure [ 30 ]. Goh et al and Hu et al proposed flexible and wearable pressure sensors based on the triboelectric principle [ 31 , 32 ]. They designed their respective sensors focusing on implementing them for a human–machine interface.…”

Section: Introductionmentioning

confidence: 99%

Soft Multi-Directional Force Sensor for Underwater Robotic Application

Subad

Saikot

Park

2022

Sensors

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Tactile information is crucial for recognizing physical interactions, manipulation of an object, and motion planning for a robotic gripper; however, concurrent tactile technologies have certain limitations over directional force sensing. In particular, they are expensive, difficult to fabricate, and mostly unsuitable for underwater use. Here, we present a facile and cost-effective synthesis technique of a flexible multi-directional force sensing system, which is also favorable to be utilized in underwater environments. We made use of four flex sensors within a silicone-made hemispherical shell structure. Each sensor was placed 90° apart and aligned with the curve of the hemispherical shape. If the force is applied on the top of the hemisphere, all the flex sensors would bend uniformly and yield nearly identical readings. When force is applied from a different direction, a set of flex sensors would characterize distinctive output patterns to localize the point of contact as well as the direction and magnitude of the force. The deformation of the fabricated soft sensor due to applied force was simulated numerically and compared with the experimental results. The fabricated sensor was experimentally calibrated and tested for characterization including an underwater demonstration. This study would widen the scope of identification of multi-directional force sensing, especially for underwater soft robotic applications.

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Section: Introductionmentioning

confidence: 99%

Soft Multi-Directional Force Sensor for Underwater Robotic Application

Subad

Saikot

Park

2022

Sensors

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“…Goh and co-workers proposed a wearable and stretchable self-powered pressure sensor based on the principle of microfluidic triboelectricity. 94 The sensor was fabricated by encapsulating DI water inside a PDMS microchannel. Here, DI water and PDMS are used as positive and negative materials, respectively.…”

Section: Ionic Solutionsmentioning

confidence: 99%

Self-powered ionic tactile sensors

et al. 2023

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“…With the development of society, the HMI is rapidly developing as a platform for information exchange between humans and machines [138][139][140]. Pressure sensors are one of the most basic components of the HMI and are attracting increasing attention for their diverse HMI applications.…”

Section: Human-computer Interaction Interface (Hmi)mentioning

confidence: 99%

Recent Development of Mechanical Stimuli Detectable Sensors, Their Future, and Challenges: A Review

Zhu

Kim

Jeong

2023

Sensors

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By virtue of their wide applications in transportation, healthcare, smart home, and security, development of sensors detecting mechanical stimuli, which are many force types (pressure, shear, bending, tensile, and flexure) is an attractive research direction for promoting the advancement of science and technology. Sensing capabilities of various force types based on structural design, which combine unique structure and materials, have emerged as a highly promising field due to their various industrial applications in wearable devices, artificial skin, and Internet of Things (IoT). In this review, we focus on various sensors detecting one or two mechanical stimuli and their structure, materials, and applications. In addition, for multiforce sensing, sensing mechanism are discussed regarding responses in external stimuli such as piezoresistive, piezoelectric, and capacitance phenomena. Lastly, the prospects and challenges of sensors for multiforce sensing are discussed and summarized, along with research that has emerged.

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Self-powered pressure sensor based on microfluidic triboelectric principle for human–machine interface applications

Cited by 20 publications

References 53 publications

Soft Multi-Directional Force Sensor for Underwater Robotic Application

Soft Multi-Directional Force Sensor for Underwater Robotic Application

Self-powered ionic tactile sensors

Recent Development of Mechanical Stimuli Detectable Sensors, Their Future, and Challenges: A Review

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