Toward autonomous wearable triboelectric systems integrated on textiles
Gaubert V. Vauche G. Weimmerskirch-Aubatin J. Corbier C. Boddaert X. Delattre R. Djenizian T.
18 November 2022Elsevier Inc.
iScience
2022#25Issue 11
One of the major requirements of smart textiles is to achieve the integration of an energy source for powering embedded electronic systems. In this context, textile triboelectric nanogenerators (T-TENGs) are particularly well suited to imperceptibly play this role in the core of textiles, making them highly appealing for the development of future autonomous systems. This article reviews the wide range of topics related to T-TENGs technology starting from triboelectric generation (textile device and behavior modeling) up to the complete integration of power transfer (rectifier) circuits on textiles. The modeling part deals with the current mathematical models of the triboelectric charge transfer in order to highlight efficient power transfer circuits. Then the materials and architectures used to fabricate different types of T-TENGs are described. Finally, the methods and technologies to seamlessly integrate the power transfer circuit into textiles are discussed: from realizing electrically conductive tracks through to integrating electronic component on textiles.
Biodevices , Bioelectronics , Electronic materials , Energy Resources
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Mines Saint-Etienne, Center of Microelectronics in Provence, Department of Flexible Electronics, Gardanne, 13541, France
Saint-Etienne Jean Monnet University, Roanne Technology University Institute, University of Lyon, LASPI (EA3059), Roanne, 42334, France
SOFILA, 26 rue Henri GORJUS, Lyon, 69004, France
Al-Farabi Kazakh National University, Center of Physical-Chemical Methods of Research and Analysis, Tole bi str., 96A., Almaty, Kazakhstan
Mines Saint-Etienne
Saint-Etienne Jean Monnet University
SOFILA
Al-Farabi Kazakh National University
10 лет помогаем публиковать статьи Международный издатель
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