Triboelectric effect-modulated varifocal liquid lens

Electrically modulated varifocal liquid lenses, which are usually modulated by an external high voltage power source, have attracted much attention due to their bright application prospects in artificial optical systems. Here, a triboelectric nanogenerator (TENG)-based varifocal liquid lens (TVLL) has been demonstrated, in which the focal length can be directly modulated by external mechanical sliding. A dielectrophoretic force is generated by the TENG through the transfer of triboelectric charges in the asymmetric electrodes, which is used to continuously change the shape of the air–liquid interface between concave and convex without any complicated boost converter. Moreover, a triboelectric magnifying glass based on the accurate modulation effect of the TVLL on a light beam has been demonstrated. In this work, the TENG is used as a medium to modulate and accurately control the focal length of the liquid lens by an external mechanical stimulus, which may have great applications in micro-optical-electro-mechanical systems (MOEMS), human–machine interaction, artificial vision systems, etc. The triboelectric effect is a type of contact electrification, and a liquid lens with variable focus has been developed using a triboelectric nanogenerator (TENG) where the focal length can be directly controlled by external mechanical sliding. With most artificial optical systems, adjusting the focal length is achieved by varying the spacing between the lenses, which results in complex mechanical designs and demands considerable space. However, a team headed by Chi Zhang at the Chinese Academy of Sciences, Beijing succeeded in producing a TENG-based varifocal liquid lens (TVLL), in which the TENG is used to accurately control the focal length of the lens by means of an external mechanical stimulus. The authors believe that their TVLL has excellent potential for application in such areas as micro-optical electromechanical systems, human-machine interactions, and artificial vision systems.