Triboelectric nanogenerator assisted synthesis and detection of chemical compounds

Abstract

Chemical synthesis and detection by using miniature devices have promising applications in different areas, including human life and environmental protection. With the accelerated growth and wide range of alternatives in these fields, the development of sustainable, dependable, and ubiquitous systems is essential. In this regard, a continuous, long-lasting, and renewable power supply is needed to keep the devices active, which is a key challenge for the successful development and dissemination of such systems. Triboelectric nanogenerators (TENGs) can provide suitable solutions to this critical problem through their self-powered capability. TENGs utilize the surrounding mechanical energies and convert them into usable electrical outputs to aid in synthesizing and detecting various inorganic and organic chemical compounds. This review comprehensively discusses the contribution and potential of TENGs in chemical synthesis and detection according to their design, fabrication, working principles, synthesis, and detection mechanisms. Furthermore, innovative materials and nanotechnology are reviewed to optimize chemical synthesis and detection performance efficiencies. Finally, the current limitations of TENGs for chemical synthesis and detection are discussed for potential future research directions.