Magnetic nanofluid-based liquid marble for a self-powered mechanosensation

Droplet Pub Date : 2024-04-23 DOI:10.1002/dro2.122
Manhui Chen, Ziwei Liu, Yike Li, Shanfei Zhang, Peng Chen, Pengyu Zhang, Bin Su
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Abstract

Magnetic nanofluid possesses the characteristic of interfering with the propagation of the magnetic field, endowing it with the sensing property in motion. However, the residual adhesion of magnetic nanofluid as it flows over solid surfaces remains an open question. Liquid marbles allow for quantities of liquids to be encapsulated by hydrophobic particles, ensuring a unique nonstick property for utilization in different applications. In this study, being capsuled by hydrophobic nano-/microscale powders, a magnetic nanofluid-based liquid marble (MNLM) with well mechanical stability has been fabricated. A magnetic nanofluid posture detector (MNPD), which consists of an MNLM, a magnetic tube, and coils, has been assembled that can convert mechanical energy to electricity as it freely rolls on the solid surface. Gesture recognition can be achieved when combining five MNPDs with fingers. The fabricated MNPD possesses a good signal recognition capability, which can separately distinguish the bending of each finger. Moreover, a variety of language hand gestures with specific meanings (digits, letters, “OK,” and “I Love You”) can be further recognized through corresponding combinations. The potential of MNPD in the realm of gesture recognition will offer a novel avenue for flexible wearables.

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基于磁性纳米流体的自供电机械感应液体大理石
纳米磁流体具有干扰磁场传播的特性,使其具有运动感应特性。然而,磁性纳米流体在固体表面流动时的残余附着力仍是一个未决问题。液体大理石可以将大量液体包裹在疏水颗粒中,确保其具有独特的不粘性,可用于不同的应用领域。在这项研究中,通过疏水性纳米/微尺度粉末的封装,制造出了一种具有良好机械稳定性的磁性纳米流体液体大理石(MNLM)。磁性纳米流体姿态探测器(MNPD)由磁性纳米流体大理石、磁性管和线圈组成,可在固体表面自由滚动时将机械能转化为电能。将五个 MNPD 与手指组合在一起可实现手势识别。制造出的 MNPD 具有良好的信号识别能力,可以分别识别每个手指的弯曲。此外,通过相应的组合,还能进一步识别具有特定含义的各种语言手势(数字、字母、"OK "和 "我爱你")。MNPD 在手势识别领域的潜力将为灵活的可穿戴设备提供一条新的途径。
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Issue Information Front Cover, Volume 3, Number 4, October 2024 Inside Back Cover, Volume 3, Number 4, October 2024 Back Cover, Volume 3, Number 4, October 2024 Inside Front Cover, Volume 3, Number 4, October 2024
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