Inorganic Nanomaterials for Supercapacitor Design

Inorganic Nanomaterials for Supercapacitor Design

Asiri, Abdullah Mohamed; Ahamed, Mohd Imran; Inamuddin, .; Boddula, Rajender

Taylor & Francis Ltd

12/2021

364

Mole

Inglês

9781032238166

15 a 20 dias

612

Descrição não disponível.
Chapter 1 Niobium Based Materials for Supercapacitors Chapter 2 Zinc-Based Materials for Supercapacitors Chapter 3 Defect Engineered Inorganic Materials for Supercapacitors Chapter 4 Vanadium-Based Compounds for Supercapacitors Chapter 5 Future Prospects and Challenges of Inorganic-Based Supercapacitors Chapter 6 Tungsten Based Materials for Supercapacitors Chapter 7 Microwave-Assisted Inorganic Materials for Supercapacitors Chapter 8 Tin-Based Materials for Supercapacitor Chapter 9 Inorganic Materials-Based Next-Generation Supercapacitors Chapter 10 Synthesis Approaches of Inorganic Materials Chapter 11 Metal-Organic Frameworks Derived Materials for Supercapacitors Chapter 12 Surface Morphology Induced Inorganic Materials for Supercapacitors Chapter 13 Molybdenum Based Materials for Supercapacitors Beyond TMDs Chapter 14 Iron-Based Electrode Materials for an Efficient Supercapacitor Chapter 15 Metal-Organic Frameworks for Supercapacitors Chapter 16 Amino Acid-Assisted Inorganic Materials for Supercapacitors Chapter 17 Co-Based Materials for Supercapacitors
RGO Nanocomposite;Energy Density;Supercapacitor;Inorganic nanomaterials;PPy;Metal oxides;Supercapacitor Application;Flexible electronics;Electrochemical Double Layer Capacitor;Novel 2D materials;High Specific Capacitance;Perovskites;American Chemical Society;inorganic supercapacitors;HSC;Transition Metal;inorganic-based materials;SC Electrode;supercapacitor electrode design;Transition Metal Oxide;supercapacitor performance;Chemical Bath Deposition Technique;Electrochemical Performance;Cyclic Stability;Asymmetric Supercapacitor;TMDs;Pseudocapacitive Electrode Material;Electric Vehicles;Charge Storage Mechanism;Electrode Materials;EDLC;Electrochemical Supercapacitance;Specific Capacitance;SEM Image