期刊
MATERIALS
卷 16, 期 18, 页码 -出版社
MDPI
DOI: 10.3390/ma16186133
关键词
carbon-based materials; transition metal oxides; polymers; transition metal hydroxides; metal sulphides; MXenes; electrodes; printing technologies; micro-supercapacitors
The development of scientific and technological foundations for high-performance energy storage devices is crucial due to the rapid advancement of microelectronics. Printing technologies offer new opportunities for the production of micro-supercapacitors, which can enhance efficiency and reduce manufacturing costs.
The development of scientific and technological foundations for the creation of high-performance energy storage devices is becoming increasingly important due to the rapid development of microelectronics, including flexible and wearable microelectronics. Supercapacitors are indispensable devices for the power supply of systems requiring high power, high charging-discharging rates, cyclic stability, and long service life and a wide range of operating temperatures (from -40 to 70 degrees C). The use of printing technologies gives an opportunity to move the production of such devices to a new level due to the possibility of the automated formation of micro-supercapacitors (including flexible, stretchable, wearable) with the required type of geometric implementation, to reduce time and labour costs for their creation, and to expand the prospects of their commercialization and widespread use. Within the framework of this review, we have focused on the consideration of the key commonly used supercapacitor electrode materials and highlighted examples of their successful printing in the process of assembling miniature energy storage devices.
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