Liquid Phase Deposition of Nanostructured Materials for Supercapacitor Applications

“…Furthermore, study shed information on the synergistic effects that occur from their interaction. This interaction not only enhances charge transfer kinetics but also electron transport routes 25 . Furthermore, a quantitative examination of catalytic activity has provided vital insights into the relationship among nanocoral morphology, surface area, and catalytic efficiency 26 .…”

“…This interaction not only enhances charge transfer kinetics but also electron transport routes. 25 Furthermore, a quantitative examination of catalytic activity has provided vital insights into the relationship among nanocoral morphology, surface area, and catalytic efficiency. 26 These findings highlight the multifarious nature of the improved catalytic activity and conductivity observed in porous and irregular nanocoral particles, paving the path for their widespread use in domains, such as energy conversion, environmental remediation, and electrocatalysis.…”

Tailored engineering of zinc carbide triggered by N‐enriched carbon nanotubes for prospective water splitting

“…Furthermore, study shed information on the synergistic effects that occur from their interaction. This interaction not only enhances charge transfer kinetics but also electron transport routes 25 . Furthermore, a quantitative examination of catalytic activity has provided vital insights into the relationship among nanocoral morphology, surface area, and catalytic efficiency 26 .…”

“…This interaction not only enhances charge transfer kinetics but also electron transport routes. 25 Furthermore, a quantitative examination of catalytic activity has provided vital insights into the relationship among nanocoral morphology, surface area, and catalytic efficiency. 26 These findings highlight the multifarious nature of the improved catalytic activity and conductivity observed in porous and irregular nanocoral particles, paving the path for their widespread use in domains, such as energy conversion, environmental remediation, and electrocatalysis.…”

Tailored engineering of zinc carbide triggered by N‐enriched carbon nanotubes for prospective water splitting

Chemically Deposited Iron Chalcogenide-Based Carbon Composites for Supercapacitor Applications