Femtosecond Laser-Induced Supermetalphobicity for Design and Fabrication of Flexible Tactile Electronic Skin Sensor

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Underwater gas self-transportation along femtosecond laser-written open superhydrophobic surface microchannels (<100 μm) for bubble/gas manipulation

Jiale Yong et al.

Summary: In this study, we report a method to achieve self-transportation of gas in water through laser-induced superhydrophobic microchannels. This technique has potential applications in manipulating gas at the microscopic level.

INTERNATIONAL JOURNAL OF EXTREME MANUFACTURING (2022)

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Low-cost gastrointestinal manometry via silicone-liquid-metal pressure transducers resembling a quipu

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Review Chemistry, Multidisciplinary

First Decade of Interfacial Iontronic Sensing: From Droplet Sensors to Artificial Skins

Yu Chang et al.

Summary: Iontronic sensing technology, utilizing the supercapacitive nature of the electrical double layer at the electrolytic-electronic interface, offers ultrahigh device sensitivity and resolution, suitable for static and dynamic stimuli, with thin and flexible device architectures, providing a unique combination of features to tackle challenges in pressure and tactile sensing applications.

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Selvaraj Veerapandian et al.

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NATURE MATERIALS (2021)

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Zhijun Ma et al.

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SCIENCE ADVANCES (2021)

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Recent Progress in Flexible Tactile Sensors for Human-Interactive Systems: From Sensors to Advanced Applications

Soonjae Pyo et al.

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NATURE ELECTRONICS (2021)

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Highly sensitive electronic skin with a linear response based on the strategy of controlling the contact area

Yan Zheng et al.

Summary: By controlling the contact area between the elastic electrode and dielectric layer, reducing signal distortion, and utilizing ferroelectric polymers and ionic gels with high capacitance, the sensitivity of the device has been improved and the pressure detection range has become more linear. The successful application of the linear-response E-skin in physiological signal monitoring and basic object information collection demonstrates the rationality of the design and opens up possibilities for real-life applications of capacitive electronic skin.

NANO ENERGY (2021)

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Multi-sized planar capacitive pressure sensor with ultra-high sensitivity

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NANO ENERGY (2021)

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NATURE ELECTRONICS (2021)

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INTERNATIONAL JOURNAL OF EXTREME MANUFACTURING (2021)

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Inverse desert beetle-like ZIF-8/PAN composite nanofibrous membrane for highly efficient separation of oil-in-water emulsions

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Summary: Inspired by the water-collection ability of desert beetles, an inverse desert beetle-like membrane was constructed to effectively separate highly emulsified oily wastewater, demonstrating superior oil capture and reducing membrane blocking.

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Designing Supermetalphobic Surfaces that Greatly Repel Liquid Metal by Femtosecond Laser Processing: Does the Surface Chemistry or Microstructure Play a Crucial Role?

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Femtosecond Laser-Induced Supermetalphobicity for Design and Fabrication of Flexible Tactile Electronic Skin Sensor

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