Advanced material innovations for self-healing high-performance supercapacitors DOI Creative Commons
J. M. Yelwa,

Alhagie Drammeh,

H. Musa

et al.

Academia green energy., Journal Year: 2025, Volume and Issue: 2(1)

Published: Feb. 25, 2025

Self-healing high-performance supercapacitors represent the state-of-the-art in energy storage development, which combines long-term durability and efficiency with self-repair functionality after mechanical or other damages. In this review, a discussion about very basis of supercapacitor technology is presented by studying mechanisms materials used for making self-healable, among things, based on redox-active materials. This review further examines performance analysis, applications, challenges, prospects self-healing consumer electronics, electric vehicles, renewable systems. While these may be promising extending device lifetimes reducing maintenance costs, challenges remain matching electrochemical performance, scalability, economic viability, environmental sustainability. Some identified future research directions entail inclusion cost-effectiveness materials, their integration multifunctional hybrid systems, use advanced technologies such as machine learning to accelerate material discovery. overcoming could inspire new frontiers applications achieving sustainability resiliency next-generation technologies.

Language: Английский

Preparation of high-performance phosphate glasses and their applications in all-solid-state electrochromic devices DOI

Chaoqun Hou,

Yang Ren,

Zexuan Luo

et al.

Ceramics International, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 1, 2025

Language: Английский

Citations

0
Advanced material innovations for self-healing high-performance supercapacitors DOI Creative Commons
J. M. Yelwa,

Alhagie Drammeh,

H. Musa

et al.

Academia green energy., Journal Year: 2025, Volume and Issue: 2(1)

Published: Feb. 25, 2025

Self-healing high-performance supercapacitors represent the state-of-the-art in energy storage development, which combines long-term durability and efficiency with self-repair functionality after mechanical or other damages. In this review, a discussion about very basis of supercapacitor technology is presented by studying mechanisms materials used for making self-healable, among things, based on redox-active materials. This review further examines performance analysis, applications, challenges, prospects self-healing consumer electronics, electric vehicles, renewable systems. While these may be promising extending device lifetimes reducing maintenance costs, challenges remain matching electrochemical performance, scalability, economic viability, environmental sustainability. Some identified future research directions entail inclusion cost-effectiveness materials, their integration multifunctional hybrid systems, use advanced technologies such as machine learning to accelerate material discovery. overcoming could inspire new frontiers applications achieving sustainability resiliency next-generation technologies.

Language: Английский

Citations

0