Emerging Vanadium‐Doped Cobalt Chloride Carbonate Hydroxide for Flexible Electrochromic Micro‐Supercapacitor: Charged‐State Prediction from RGB Input by ANN Model

Multifunctional devices integrated with electrochromic and supercapacitance properties are fascinating because of their extensive usage in modern electronic applications. In this work, vanadium‐doped cobalt chloride carbonate hydroxide hydrate nanostructures (V‐C3H NSs) are successfully synthesized and show unique electrochromic and supercapacitor properties. The V‐C3H NSs material exhibits a high specific capacitance of 1219.9 F g−1 at 1 mV s−1 with a capacitance retention of 100% over 30 000 CV cycles. The electrochromic performance of the V‐C3H NSs material is confirmed through in situ spectroelectrochemical measurements, where the switching time, coloration efficiency (CE), and optical modulation (∆T) are found to be 15.7 and 18.8 s, 65.85 cm2 C−1 and 69%, respectively. A coupled multilayer artificial neural network (ANN) model is framed to predict potential and current from red (R), green (G), and blue (B) color values. The optimized V‐C3H NSs are used as the active materials in the fabrication of flexible/wearable electrochromic micro‐supercapacitor devices (FEMSDs) through a cost‐effective mask‐assisted vacuum filtration method. The fabricated FEMSD exhibits an areal capacitance of 47.15 mF cm−2 at 1 mV s−1 and offers a maximum areal energy and power density of 104.78 Wh cm−2 and 0.04 mW cm−2, respectively. This material's interesting energy storage and electrochromic properties are promising in multifunctional electrochromic energy storage applications. Here, a new synthesis route is developed for a novel vanadium‐doped cobalt chloride carbonate hydroxide hydrate nanostructures (V‐C3H NSs) with unique electrochromic supercapacitor properties and used in the fabrication of flexible/wearable electrochromic micro‐supercapacitor devices (FEMSDs). A coupled multilayer artificial neural network (ANN) model is framed to predict potential and current from red (R), green (G), and blue (B) color values.