Investigations of conducting polymers, carbon materials, oxide and sulfide materials for supercapacitor applications: a review

“…In contrast, pseudocapacitive electrode materials store charges via reversible surface/near-surface faradaic redox reactions and depict remarkable specic capacitances (>200 F g −1 ). 7 Adopting a pseudocapacitive electrode in SCs is a practical approach for constructing SCs with considerable energy densities (10-50 W h kg −1 ). Even though several conductive polymers (CPs) (i.e., polyaniline (PANI), polypyrrole (PPy), and poly (3,4-ethylenedioxythiophene) (PEDOT)) have been proven to be promising pseudocapacitive materials with high capacitance and excellent conductivity, 8 they are p-type doping CPs and usually performed as positive electrode materials in aqueous electrolyte devices.…”

“…In contrast, pseudocapacitive electrode materials store charges via reversible surface/near-surface faradaic redox reactions and depict remarkable specific capacitances (>200 F g −1 ). 7 Adopting a pseudocapacitive electrode in SCs is a practical approach for constructing SCs with considerable energy densities (10–50 W h kg −1 ). Even though several conductive polymers (CPs) ( i.e.…”

Aromatic polyaroxydiazole pseudocapacitive anode materials with tunable electrochemical performance through side group engineering

“…In contrast, pseudocapacitive electrode materials store charges via reversible surface/near-surface faradaic redox reactions and depict remarkable specic capacitances (>200 F g −1 ). 7 Adopting a pseudocapacitive electrode in SCs is a practical approach for constructing SCs with considerable energy densities (10-50 W h kg −1 ). Even though several conductive polymers (CPs) (i.e., polyaniline (PANI), polypyrrole (PPy), and poly (3,4-ethylenedioxythiophene) (PEDOT)) have been proven to be promising pseudocapacitive materials with high capacitance and excellent conductivity, 8 they are p-type doping CPs and usually performed as positive electrode materials in aqueous electrolyte devices.…”

“…In contrast, pseudocapacitive electrode materials store charges via reversible surface/near-surface faradaic redox reactions and depict remarkable specific capacitances (>200 F g −1 ). 7 Adopting a pseudocapacitive electrode in SCs is a practical approach for constructing SCs with considerable energy densities (10–50 W h kg −1 ). Even though several conductive polymers (CPs) ( i.e.…”

Aromatic polyaroxydiazole pseudocapacitive anode materials with tunable electrochemical performance through side group engineering

“…Nickel oxide/high conductive carbon composites are promising electrode materials because of the high theoretical specific capacitance of NiO (2583 F g −1 ) [13]. However due to their inherently low conductivity (about 10 −4 S cm −1 ), NiO-based electrodes only reach a fraction of their theoretical capacitance [14,15].…”

Optimized 3D interconnected foam-like NiO@rGO composite as a binder-free electrode for high-performance asymmetric supercapacitor

“…Porous carbon electrode, doped with different heteroatoms and even oxides, tends to be potential electrode material with high capacitance, and therefore improve the energy density of ES [ 1 , 2 , 3 ]. Various carbon precursors have been introduced in order to simplify the synthesis procedure of doped carbon materials.…”

“…In addition to this, DES found application in the synthesis of different nanomaterials and also in the synthesis of carbon materials. DES are the new generation of carbon precursors which satisfy most green chemistry principles in carbon material synthesis [ 1 , 14 ]. The use of DES offers one-step synthesis route for preparation of different heteroatom-doped carbon materials.…”

Deep Eutectic Solvent for Facile Synthesis of Mn3O4@N-Doped Carbon for Aqueous Multivalent-Based Supercapacitors: New Concept for Increasing Capacitance and Operating Voltage