Enhancing asymmetric supercapacitor performance with NiCo2O4–NiO hybrid electrode fabrication

“…Hollow nanostructures have attracted significant attention in previous studies due to their unique characteristics, including adjustable composition, low density, large surface area, and distinct morphology. 167,168 These attributes collectively improve the electrochemical performance of PB/PBAs. Therefore, it is imperative to develop a cost-effective, straightforward, and self-directing methodologies to fabricate hollow nanostructures by capitalizing on the advantageous configuration of PB/PBAs.…”

From lab to field: Prussian blue frameworks as sustainable cathode materials

“…Hollow nanostructures have attracted significant attention in previous studies due to their unique characteristics, including adjustable composition, low density, large surface area, and distinct morphology. 167,168 These attributes collectively improve the electrochemical performance of PB/PBAs. Therefore, it is imperative to develop a cost-effective, straightforward, and self-directing methodologies to fabricate hollow nanostructures by capitalizing on the advantageous configuration of PB/PBAs.…”

From lab to field: Prussian blue frameworks as sustainable cathode materials

“…The manipulation of battery components at the nanoscale, particularly when utiliz-ing organic liquid electrolytes, has emerged as a focal point of investigation. [15][16][17] Recent studies have delved into the utilization of cathode and anode materials in ASSB technologies, emphasizing the importance of reducing the size of solid electrolytes (SEs) to the nanoscale and enhancing their electro- The study examines the use of nanoscale modifications at interfaces between solid materials, exploring both their advantages and disadvantages. Additionally, it investigates electrode components and nanoscale solid electrolyte materials.…”

“…Most transition metal cathode materials have slow carrier transport kinetics, reducing the energy storage efficiency for SSBs compared to LIBs. Li-rich oxide, 15,16 polyanionic LiFePO 4 , and sulphide FeS 2 17 are especially affected. Nanostructures' tiny size lowers carrier transport pathways, improving ion diffusion and electron conductivity.…”

Revolutionizing energy storage: exploring the nanoscale frontier of all-solid-state batteries

“…This supports the EV system whenever it requires high-power conditions [9]. The characteristics of the supercapacitor are mainly based on the electrode material [10,11]. Adopting solar PV with batteries reduces the grid power requirement, and solar-based EVs (SBEVs) are an emerging technology [12].…”

Novel Machine Learning Control for Power Management Using an Instantaneous Reference Current in Multiple-Source-Fed Electric Vehicles