Waste Adsorbent-Derived Interconnected Hierarchical Attapulgite@Carbon/NiCo Layered Double Hydroxide Nanocomposites for Advanced Supercapacitors

Abstract: The attapulgite@carbon/NiCo layered double hydroxide nanocomposites based on waste adsorbents are manufactured via simple and eco-friendly calcination and hydrothermal methods, by which they would be considerable electrode materials for advanced supercapacitors. To achieve sustainable development, the spent tetracycline-loaded attapulgite can act as a cost-effective available carbon source as well as a matrix material for carbon species and NiCo layered double hydroxide simultaneously. A controlled amount of a… Show more

“…This provides a practical way to enhance the high specific capacitance. The active materials used in faradaic pseudo-capacitance are mainly conductive polymers, 22 transition metal oxides, 23 hydroxides, [24][25][26] sulfides, 27 and transition metal nitrides, 28 which have a high specific capacitance compared to carbon-based materials, but are more expensive to produce and more complex to process. Ruthenium oxide [29][30][31] (RuO 2 ) was the first metal oxide to be used as a pseudocapacitance electrode material.…”

Hollow nanocages of vanadium nitride-based electrode material designed for superior charging/discharging stability supercapacitors

“…This provides a practical way to enhance the high specific capacitance. The active materials used in faradaic pseudo-capacitance are mainly conductive polymers, 22 transition metal oxides, 23 hydroxides, [24][25][26] sulfides, 27 and transition metal nitrides, 28 which have a high specific capacitance compared to carbon-based materials, but are more expensive to produce and more complex to process. Ruthenium oxide [29][30][31] (RuO 2 ) was the first metal oxide to be used as a pseudocapacitance electrode material.…”

Hollow nanocages of vanadium nitride-based electrode material designed for superior charging/discharging stability supercapacitors

Materials for Sustainable Supercapacitors

Research progress of solid waste-derived carbon materials for electrochemical capacitors through controlled structural regulation