Fig. 4: More efficient triboiontronics via the synergistic effect of dynamically controlling EDL formation and redox reaction.

a The synergistic principle of dynamically controlling EDL formation and redox reaction in the SDC-TING. b The verification experiment of their synergistic effect. c, d, e The I_SC density, Q_SC density, and P_R density of the SDC-TING. f The comparison of the Q_SC density of the conventional solid-liquid TENGs, solid-solid TENGs, DC-TING, PDC-TING, and SDC-TING. g The comparison of the charging performance of different types of generators for 1mF capacitors. h The SDC-TING could be used as an excellent integrated power management system with brilliant application prospects in the field of energy harvesting and storage. i Mimicking human tactile neural circuits, the SDC-TING could construct a bionic neurologic circuit by controlling ion migration behavior.