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Electrode Materials and Prediction of Cycle Stability and Remaining Service Life of Supercapacitors

Wen Jiang, Jingchen Wang, Rui Guo, Jinwei Wang, Jilong Song, Kai Wang

2026Coatings16 citationsDOIOpen Access PDF

Abstract

This paper reviews the research progress of supercapacitors (SCs), including the influence of electrode materials on energy storage mechanism and performance, and life prediction. Supercapacitors show application potential in many fields due to their high-power density, fast charge–discharge capability, long cycle life, and environmental protection characteristics. In this paper, the energy storage mechanism of the double-layer capacitor, pseudocapacitor, and asymmetric supercapacitor are discussed. New electrode materials, such as carbon-based materials, metal oxides, and conductive polymers, are reviewed based on the performance optimization measures that are involved in the microstructure design of electrode materials, and integrate the rule prediction of supercapacitors into comprehensive learning. When designing and using supercapacitors, we should not only pay attention to their life but also pay attention to their remaining service life in real time. The paper also mentions the progress of life prediction technology, which is of great significance to improve the reliability and maintenance efficiency of energy storage equipment, and ensure the long-term stable operation of energy storage systems. Future research directions include increasing energy density, extending life, adapting to extreme environments, developing flexible and wearable devices, intelligent management, and reducing costs.

Topics & Concepts

SupercapacitorEnergy storageService lifeReliability (semiconductor)Reliability engineeringService (business)Computer scienceWearable computerProcess engineeringKey (lock)Energy (signal processing)ElectrodeMechanism (biology)Electrical conductorEfficient energy useWearable technologyMaterials scienceField (mathematics)EngineeringComputer data storageEnergy densityStability (learning theory)Automotive engineeringSupercapacitor Materials and FabricationElectric and Hybrid Vehicle TechnologiesSmart Materials for Construction
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