Hierarchical ternary composites using coaxial polyphosphazene-coated MoO3 nanowires as substrate for advanced supercapacitors

“…The rapid development of energy storage devices requires advancements in electrode materials to achieve high specific capacitance and acceptable stability. 7 The application of non-faradaic charge storage materials, such as metal derivatives, [8][9][10][11][12][13][14] carbon-based electrodes [15][16][17][18] and CPs, 15,[19][20][21] is restricted due to their lower specific capacitance (200 Fg À1 ) than pseudocapacitive materials. Because reversible redox reactions at the bulk and surface of the electrode can create charge storage, the most promising materials are those that offer pseudocapacitive attitude.…”

Transfiguring energy with an advantageous supercapacitor integrating MoS₂/carbon quantum dots bi‐composites into a high‐performance polypyrrole matrix for unprecedented efficiency

“…The rapid development of energy storage devices requires advancements in electrode materials to achieve high specific capacitance and acceptable stability. 7 The application of non-faradaic charge storage materials, such as metal derivatives, [8][9][10][11][12][13][14] carbon-based electrodes [15][16][17][18] and CPs, 15,[19][20][21] is restricted due to their lower specific capacitance (200 Fg À1 ) than pseudocapacitive materials. Because reversible redox reactions at the bulk and surface of the electrode can create charge storage, the most promising materials are those that offer pseudocapacitive attitude.…”

Transfiguring energy with an advantageous supercapacitor integrating MoS₂/carbon quantum dots bi‐composites into a high‐performance polypyrrole matrix for unprecedented efficiency

The layered black phosphorus modified by heteroatomic carbon microspheres for energy storage

Construct an in-situ heterostructure of TiO2/MoO3 to facilitate high-rate diffusion of Li+ and achieve high-energy density in asymmetric supercapacitors