Frontiers in Hybrid Ion Capacitors: A Review on Advanced Materials and Emerging Devices

Abstract: Hybrid supercapacitors are the most desirable electrochemical energy storage devices, owing to their versatile and tunable performance characteristics, specifically in energy and power densities, towards applications in research and development. Construction‐wise, optimized assembly of batteries (energy devices) and supercapacitors (power devices) are the key for hybrid supercapacitors. Based on scientific advancements and technological achievements, hybrid ion capacitors are the most important segments in hyb… Show more

“…In AlICs, aqueous electrolytes with aluminum salts such as AlCl 3 and Al 2 (SO 4 ) 3 have been widely used. 99 For example, the P–TiO 2 -MRs//AC AlIC device has been fabricated using AlCl 3 aqueous electrolyte, which delivered a high energy density of 26.3 W h kg −1 and excellent rate capability. 100 For ZnICs, the use of safe and cheap aqueous electrolytes is dominant.…”

Non-lithium-based metal ion capacitors: recent advances and perspectives

“…In AlICs, aqueous electrolytes with aluminum salts such as AlCl 3 and Al 2 (SO 4 ) 3 have been widely used. 99 For example, the P–TiO 2 -MRs//AC AlIC device has been fabricated using AlCl 3 aqueous electrolyte, which delivered a high energy density of 26.3 W h kg −1 and excellent rate capability. 100 For ZnICs, the use of safe and cheap aqueous electrolytes is dominant.…”

Non-lithium-based metal ion capacitors: recent advances and perspectives

“…11–13 The second key factor is the possibility of fabricating devices that can be integrated into controllable biodegradation routes and hence achieve environmental sustainability in electronics development. 14–17…”

“…[11][12][13] The second key factor is the possibility of fabricating devices that can be integrated into controllable biodegradation routes and hence achieve environmental sustainability in electronics development. [14][15][16][17] As part of this abovementioned thrust, organic electrode materials have received increasing interest in the field of organic electronics for two main reasons. On the one hand, organic materials are more environmentally friendly than transition metal oxides, since they can be synthesized from biomass and are consequently biodegradable, combined with relatively low costs.…”

Anthraquinone and its derivatives as sustainable materials for electrochemical applications – a joint experimental and theoretical investigation of the redox potential in solution

“…On the other hand, pseudocapacitors can store energy via reversible Faradaic process at or close to electrode surface; hence, electrical conductivity of the electrode is very important as it can restrict the redox reaction, lowering performance of obtained capacitor [6,7]. To improve performance of SCs, new hybrid storage devices consisting of EDLCs and pseudocapacitors are widely investigated [8]. Asymmetric supercapacitors can provide higher energy storage capability than their combining components forming symmetric capacitors alone [9].…”

Functionalization of Graphene by π–π Stacking with C60/C70/Sc3N@C80 Fullerene Derivatives for Supercapacitor Electrode Materials