Rational Design of Triboelectric Materials and Devices for Self‐Powered Food Sensing

Bai, Yayu; Zhao, Tong; Cai, Chenchen; Zhang, Song; Wang, Jinlong; Liu, Yanhua; Chi, Mingchao; Liu, Tao; Du, Guoli; Wei, Zhiting; Meng, Xiangjiang; Shao, Yuzheng; Wang, Shuangfei; Luo, Bin; Nie, Shuangxi

doi:10.1002/smll.202407359

Small

2024

DOI: 10.1002/smll.202407359

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Rational Design of Triboelectric Materials and Devices for Self‐Powered Food Sensing

Yayu Bai,

Tong Zhao,

Chenchen Cai

et al.

Abstract: Against the backdrop of rapid advancements in 5G and Internet of Things (IoT) technologies, there is an urgent need to upgrade food sensing systems to achieve automation, digitalization, and intelligence. However, this transformation process faces numerous challenges. Triboelectric nanogenerators (TENGs), as an emerging energy conversion and sensing technology, play a crucial role in this context. They not only provide power to functional devices but also serve as sensors in multifunctional self‐powered food s… Show more

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Cited by 2 publications

References 157 publications

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Biomimetic Superhydrophobic Triboelectric Surface Prepared by Interfacial Self‐Assembly for Water Harvesting

Zhang,

et al. 2024

Adv Funct Materials

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Extracting water from air offers a promising route to address the global challenge of water scarcity. However, bionic engineering surfaces for water harvesting often struggle with efficiently coordinating droplet nucleation and desorption. The recently emerging triboelectric effect at the liquid–solid interface offers a novel approach for developing bionic fog harvesting surfaces. In this study, inspired by Namib Desert beetles and lotus leaves, a biomimetic superhydrophobic surface with nanoscale hydrophilic domains is prepared via interfacial self‐assembly, exhibiting heterogeneous wettability for effective water harvesting. The essence of interfacial self‐assembly lies in the synergy of non‐covalent interaction forces, driving the self‐assembly of nanoparticles into surface micro‐nano hierarchical structures, thereby regulating wettability and increasing potential nucleation sites. Additionally, the triboelectric effect can directly utilize the triboelectric charges to facilitate droplet migration. The triboelectric effect can be generated by flexible mechanical input induced by walking, which enhances interfacial mass transfer, thereby rapidly improving droplet removal and achieving a 39.02% increase in water harvesting efficiency. This study has opened up a new breakthrough for the design of portable and efficient water harvesting systems.

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Biomimetic Superhydrophobic Triboelectric Surface Prepared by Interfacial Self‐Assembly for Water Harvesting

Zhang,

et al. 2024

Adv Funct Materials

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A self-damping triboelectric tactile patch for self-powered wearable electronics

Du,

Zhao,

Shao

et al. 2024

eScience

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Rational Design of Triboelectric Materials and Devices for Self‐Powered Food Sensing

Cited by 2 publications

References 157 publications

Biomimetic Superhydrophobic Triboelectric Surface Prepared by Interfacial Self‐Assembly for Water Harvesting

Biomimetic Superhydrophobic Triboelectric Surface Prepared by Interfacial Self‐Assembly for Water Harvesting

A self-damping triboelectric tactile patch for self-powered wearable electronics

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