1. Development history of electrochromism: from high performance to intelligence

2. Structural schematic illustration and digital photographs of the perovskite PECD (a)^[42], schematic illustration of the stacked structure of the near-ultraviolet solar cells and ECD (b)^[45], mechanism and digital photographs of the PECD under irradiation (c)^[46], and structural schematic illustration of the quasi-solid PECD(d)^[43]

3. Schematic illustration of the TENG powered ECD and color-changing photographs of the ECD (a)^[21], schematic illustration and color-changing photographs of the self-powered ECD (b)^[59], wearable piezoelectric-driven self-powered patterned EC supercapacitor (c)^[24], and schematic illustration of the ECD integrated with Al³⁺-based supercapacitor and color-changing photographs of the ECD (d)^[60]

4. Structural schematic illustration of the EC tactile sensor and sequential photographs of a teddy bear show the expression of tactile sensing into visible color changes (a)^[25], schematic illustration of the strain sensor and ECD, and sequential photographs of a hand with color changes together with finger motions (b)^[61],self-powered EC biosensor (c)^[64], and bipolar electrode-enabled EC chemical sensor (d)^[63]

5. Li₄Ti₅O₁₂-based^[77] (a), PANI-based (b)^[71], and PEDOT: Tosylate-based (c)^[78] infrared ECD and corresponding performances

6. PANI-based EC supercapacitor (a)^[101], PEDOT/Ti₃C₂T_x-based EC supercapacitor (b)^[102], transparent stretchable PEDOT:PSS/WO₃-based EC supercapacitor (c)^[99], and PANI-based EC fiber-shaped supercapacitors (d)^[100]

7. Al/PB EC battery (a)^[73], H₂O₂-assisted Al/W₁₈O₄₉NWs EC battery (b)^[107], aqueous hybrid Zn²⁺/Al³⁺EC battery (c)^[110], flexible Zn/PPy EC battery (d)^[111]

8. NPG/PANI-based (a)^[112] and W₁₈O₄₉NW-based (b)^[34] EC actuating films