Yonglin He scite author profile

An ultra‐thermal‐sensitive conductive fluid composed of 1‐octyl‐3‐methyl imidazolium acetate is integrated into different designed elastomers for the rapid and precise detection of multiple physical parameters, such as epidermal temperature, near‐infrared light, and pressure force. The liquid sensor not only detects temperature and pressure simultaneously but also realizes the signal separation through different sensing mechanism.

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Vacuum impregnation of fish gelatin combined with grape seed extract inhibits protein oxidation and degradation of chilled tilapia fillets

Zhang

et al. 2019

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A Skin‐Inspired Integrated Sensor for Synchronous Monitoring of Multiparameter Signals

Gui

Gao

et al. 2017

Adv Funct Materials

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Electronic skins, as the integration of multiple distinct sensors, have aroused broad interests owing to their great potential in sensing applications. However, problems including the interference between sensing components and the difficulty in synchronous monitoring are practically encountered when they are applied to mixed signals. In this work, efforts are devoted to trouble‐free technical strategies for laminating three sensors with different sensing abilities into a skin‐like electronic device. The use of ionic liquid, combined with particular circuit topologies, ensures the reliable stability against mechanical disturbance during the real‐time sensing tests. The intrinsic layered structure and three independent sensing functions of natural skins are successfully presented by this particular device in which three sensors with the ease of preparation are spatially integrated. The changes of temperature, pressure, and infrared light can be recorded simultaneously yet without mutual signal interference. The perfect integration of multiple functional sensors into a single skin‐like device without any signal interference makes an important progress for pursuing the goal of future electronic skins that can practically be used as skin.

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Yonglin He

A Self‐Healing Electronic Sensor Based on Thermal‐Sensitive Fluids

Integrating Ultra‐Thermal‐Sensitive Fluids into Elastomers for Multifunctional Flexible Sensors

Vacuum impregnation of fish gelatin combined with grape seed extract inhibits protein oxidation and degradation of chilled tilapia fillets

A Skin‐Inspired Integrated Sensor for Synchronous Monitoring of Multiparameter Signals

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