Photo-thermal anti/de-icing and electro-thermal anti/de-icing have been widely used in the field of anti/de-icing in recent years. The combination of electro@photo-thermal can achieve all-weather anti/de-icing. However, there is no need for anti/de-icing in hot environments, but the photo-thermal conversion does not automatically stop. And the photo-thermal conversion will cause the surface to overheat, seriously affecting the safety and normal operation of the machine, which is a great challenge in practical applications. Based on this, an electro@photo-thermal material with adaptive temperature control performance was proposed in this work. Specifically, the carbon cloth was used as an electro-thermal substrate, and the thermochromic powder mixed with polydimethylsiloxane (PDMS) was used as a photo-thermal component. The photo-thermal conversion experiment shows that when the temperature reaches the threshold temperature, the color of the material can be changed from black to white to reduce the absorption of sunlight, thus avoiding the overheating phenomenon. The anti/de-icing experiment also shows that the material meets the all-weather anti/de-icing requirements. In addition, continuous tape stripping experiments and acid-base soaking experiments also verified the excellent hydrophobicity of the material. The research provides new ideas for all-weather anti/de-icing systems with adaptive temperature control performance.