Polymer Hydrogel Electrolytes for Flexible and Multifunctional Zinc‐Ion Batteries and Capacitors

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Abstract

Flexibility and multifunctionality are now becoming inevitable worldwide tendencies for electronic devices to meet modern life's convenience, efficiency, and quality demand. To that end, developing flexible and wearable energy storage devices is a must. Recently, aqueous zinc‐ion batteries (ZIBs) and zinc‐ion capacitors (ZICs) stand out as two of the most potent candidates for wearable electronics due to their excellent electrochemical performance, intrinsic safety, low cost, and functional controllability. Simultaneously, polymer electrolytes' introduction and rational design, especially various hydrogels, have endowed conventional ZIBs and ZICs with colorful functions, which has been regarded as a perfect answer for energy suppliers integrated into those advanced wearable electronic devices. This review focuses on the functional hydrogel electrolytes (HEs) and their application for ZIBs and ZICs. Previously reported HEs for ZIBs and ZICs were classified and analyzed, from the flexibility to mechanical endurance, temperature adaptability, electrochemical stability, and finally cell‐level ZIBs and ZICs based on multifunctional HEs. Besides introducing the diverse and exciting functions of HEs, working principles were also analyzed. Ultimately, all the details of these examples were summarized, and the related challenges, constructive solutions, and futural prospects of functional ZIBs and ZICs were also dedicatedly evaluated.

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Flexible and Stretchable Physical Sensor Integrated Platforms for Wearable Human-Activity Monitoringand Personal Healthcare.

Tran Quang Trung, Nae-Eung Lee (2016)

Flexible and stretchable physical sensors that can measure and quantify electrical signals generated by human activities are attracting a great deal of attention as they have unique characteristics, such as ultrathinness, low modulus, light weight, high flexibility, and stretchability. These flexible and stretchable physical sensors conformally attached on the surface of organs or skin can provide a new opportunity for human-activity monitoring and personal healthcare. Consequently, in recent years there has been considerable research effort devoted to the development of flexible and stretchable physical sensors to fulfill the requirements of future technology, and much progress has been achieved. Here, the most recent developments of flexible and stretchable physical sensors are described, including temperature, pressure, and strain sensors, and flexible and stretchable sensor-integrated platforms. The latest successful examples of flexible and stretchable physical sensors for the detection of temperature, pressure, and strain, as well as their novel structures, technological innovations, and challenges, are reviewed first. In the next section, recent progress regarding sensor-integrated wearable platforms is overviewed in detail. Some of the latest achievements regarding self-powered sensor-integrated wearable platform technologies are also reviewed. Further research direction and challenges are also proposed to develop a fully sensor-integrated wearable platform for monitoring human activity and personal healthcare in the near future.