Flexible Bioelectronic Tag with a Kirigami‐Based Design for Crosstalk Suppression in Multimodal Sensing

He, Qipei; Sheng, Tianyu; Wang, Bingxiong; Zhang, Deyuan; Zhang, Wenqiang; Li, Daoliang; Wu, Tao; Jiang, Yonggang

doi:10.1002/admt.202300982

Cited by 6 publications

(1 citation statement)

References 43 publications

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“…Meanwhile, pre-stretching strategy can also achieve tension insensitive but pressure sensitive sensing [92]. Besides, technologies such as kirigami-based design [93], serpentine structures and wrinkled shar-pei like hierarchical structures [94] have been adopted to effectively suppress cross-sensitivities caused by strain deformation. However, these strategies typically require sophisticated fabrication processes and presents challenges for integrating high-density device.…”

Section: Strain Deformation Suppressionmentioning

confidence: 99%

Recent advances in multimodal sensing integration and decoupling strategies for tactile perception

Kong,

Li,

Song

et al. 2024

Mater. Futures

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Human skin perceives external environmental stimulus by the synergies between the subcutaneous tactile corpuscles. Soft electronics with multiple sensing capabilities by mimicking the function of human skin are of significance in health monitoring and artificial sensation. The last decade has witnessed unprecedented development and convergence between multimodal tactile sensing devices and soft bioelectronics. Despite these advances, traditional flexible electronics achieve multimodal tactile sensing for pressure, strain, temperature, and humidity by integrating monomodal sensing devices together. This strategy results in high energy consumption, limited integration, and complex manufacturing process. Various multimodal sensors and crosstalk-free sensing mechanisms have been proposed to bridge the gap between natural sensory system and artificial perceptual system. In this review, we provide a comprehensive summary of tactile sensing mechanism, integration design principles, signal-decoupling strategies, and current applications for multimodal tactile perception. Finally, we highlight the current challenges and present the future perspectives to promote the development of multimodal tactile perception.

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Section: Strain Deformation Suppressionmentioning

confidence: 99%

Recent advances in multimodal sensing integration and decoupling strategies for tactile perception

Kong,

Li,

Song

et al. 2024

Mater. Futures

View full text Add to dashboard Cite

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Recent Advances in Wearable Flexible Sensors and Implantable Biotags for Aquatic Animals

Wang,

Gai,

et al. 2024

Adv Materials Technologies

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The impact of human activities and social industrialization on the marine environment and aquatic life cannot be underestimated. By utilizing information transmission intermediates such as underwater wearable sensors, it is possible to promptly and precisely assess the state of the marine environment, as well as the behavior of biological populations, thereby ensuring accurate protection of the marine ecology. Flexible electronic tags maintain accurate monitoring performance while addressing the biocompatibility of sensors. When the tag is attached to an organism's surface or implanted in the body, it can perform real‐time monitoring, providing valuable insights into their biology and behavior. At the same time, allow them to attach to the animal without causing injury or disruption to their inherent behavior. In this paper, implantable electronic tags and wearable flexible sensing systems are examined while exploring their potential applications in this field. The review discusses four aspects of these systems: physical information monitoring in the marine environments, chemical information monitoring in the marine environments, physiological information monitoring in animals, and biochemical information monitoring in animals. Finally, the article explores upcoming challenges and trends in the development of implantable electronic tags and wearable, flexible sensors for aquatic animals.

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Contact and non-contact physiological stress indicators in aquatic models: A review

Sun,

Liu,

Bakarić

et al. 2025

Aquaculture

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Flexible Bioelectronic Tag with a Kirigami‐Based Design for Crosstalk Suppression in Multimodal Sensing

Cited by 6 publications

References 43 publications

Recent advances in multimodal sensing integration and decoupling strategies for tactile perception

Recent advances in multimodal sensing integration and decoupling strategies for tactile perception

Recent Advances in Wearable Flexible Sensors and Implantable Biotags for Aquatic Animals

Contact and non-contact physiological stress indicators in aquatic models: A review

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