Fig. 5: Function demonstration of the textile-type multi-threshold logic switch circuit composed of a fiber section with multiple circuit units.

a Schematic diagram of indoor environment condition control application for the textile-type multi-threshold logic switch circuit. b The circuit connection of the textile-type multi-threshold logic switch with a wireless chip for controlling one humidifier and one air-conditioner simultaneously. c The logic switch circuit textile worn on the human body turns on a dehumidifier and turns off a humidifier when indoor humidity exceeds 70%. d The logic switch circuit textile worn on the human body turns on a humidifier and turns off a dehumidifier when indoor humidity falls below 40%. e Schematic diagram of outdoor on-body humidity control application for the textile-type multi-threshold logic switch circuit. f The circuit connection of the textile-type multi-threshold logic switch with an electrochemical dehumidifier textile (D-textile) for on-body humidity control. g Structure and working principle of the D-textile with an area of 8.4 cm². h Structure of the MnO₂/Carbon fiber anode in the D-textile. i SEM image of the dendritic MnO₂ on the fiber anode. j Performance of the MnO₂/Carbon fiber anode with different MnO₂. k Oxygen generation of the D-textile at a current density of 3 A/cm². l Photograph of a sweated textile before and after the textile-type multi-threshold logic switch activates the D-textile.