Electrochemical Energy Conversion and Storage Systems for Future Sustainability:Technological Advanc
INTRODUCTIONCOMPOUND FORMATION: METAL CHALCOGENIDESSYNTHETIC PROTOCOLS FOR METAL CHALCOGENIDE COMPOUNDSBOTTOM-UP APPROACHTOP-DOWN APPROACHMechanical Exfoliation TechniqueLiquid Phase ExfoliationElectrochemical ExfoliationLAYER TRANSFER TECHNIQUE AND ANALYSIS THEREOFCOMPARISON OF EXFOLIATED AND CVD-GROWN TMDCSPHYSICO-CHEMICAL PROPERTIESMECHANICAL PROPERTIESTHERMAL PROPERTIESELECTRICAL PROPERTIESOPTICAL PROPERTIESTHERMOELECTRIC PROPERTIESENERGY APPLICATIONS OF METAL CHALCOGENIDE COMPOUNDSENERGY STORAGE: SUPERCAPACITORCONCLUSION AND FUTURE PROSPECTSKEYWORDSREFERENCESPhotoelectrochemical Reduction of CO2 and Electrochemical Oxidation of COINTRODUCTIONPHOTOELECTROCHEMICAL REDUCTION OF CO2BACKGROUNDCHALLENGES IN CО2 PHOTOREDUCTION ENERGETICS AND SELECTIVITYWORKING PRINCIPLE OF PHOTOELECTROCHEMICAL ELECTROCHEMICAL CELLSTATE OF THE ART PHOTOELECTROCATALYSTSELECTROCHEMICAL OXIDATION OF COBACKGROUNDWORKING PRINCIPLEMECHANISMSTATE OF THE ART ELECTROCATALYSTSMETALS AND THEIR VARIOUS ALLOYSMetalsMetal AlloysMETALS ON VARIOUS SUPPORTSCONCLUSIONKEYWORDSREFERENCESHybrid Polymer Nanocomposites for Energy Storage/Conversion Devices: From Synthesis to ApplicationsINTRODUCTIONTHE BASIC PRINCIPLE OF SECONDARY BATTERIESHYBRID POLYMER ELECTROLYTES (HPE) AND CLASSIFICATIONESSENTIAL PROPERTIES OF HYBRID POLYMER ELECTROLYTE (HPE)CHALLENGES TO SUPPRESS DENDRITE GROWTHPREPARATION TECHNIQUESCHARACTERIZATION TECHNIQUESSTATE-OF-THE-ART STATUSPATENTS IN THE AREACONCLUSIONSACKNOWLEDGMENTSKEYWORDSREFERENCESProcess, Design, and Technological Integration of Flexible MicrosupercapacitorsINTRODUCTIONGENERAL CHARACTERISTICS AND CONFIGURATION OF FLEXIBLE MSCSFABRICATION PROCESSES AND DESIGN OF FLEXIBLE MSCSMATERIAL EVOLUTION FOR MSC APPLICATIONINTEGRATION TECHNOLOGY OF MSCS WITH ELECTRONIC DEVICESMSC-PHOTO DETECTOR INTEGRATED SYSTEMMSC-SENSOR INTEGRATED SYSTEMMSC-NANOGENERATOR INTEGRATED SYSTEMCONCLUSIONKEYWORDSREFERENCESCatalytic Activities of Carbon-Based Nanostructures for Electrochemical CО2 Reduction: A Density Functional ApproachINTRODUCTIONELECTROCHEMICAL CО2 REDUCTION (ECR)CATALYSTS FOR ELECTROCHEMICAL CO2 REDUCTION (ECR)THEORETICAL APPROACHCOMPUTATIONAL HYDROGEN ELECTRODE (CHE) METHODCARBON-BASED NANOSTRUCTURES AS ELECTRO CATALYSTS FOR ECRNITROGEN-DOPED GRAPHENEMETAL DIMER DOPED GRAPHENECARBON NANOTUBES (CNTS)NITROGEN-DOPED CARBON NANOTUBES (NCNT)COVALENTLY CONNECTED CARBON NANOTUBES (CNTS)CONCLUSIONKEYWORDSREFERENCESCatalyst for Hydrogen Oxidation Reaction and Its Application to Energy StorageINTRODUCTIONGENERAL MECHANISM OF HORTYPES OF ELECTROCATALYSTS FOR HORPLATINUM-BASED CATALYSTSPALLADIUM BASED CATALYSTSRUTHENIUM BASED CATALYSTSIRIDIUM BASED CATALYSTSNICKEL-BASED CATALYSTSTRANSITION METAL PHOSPHIDES (TMPS)CONCLUSIONKEYWORDSREFERENCESTheoretical and Computational Investigations of Li-Ion Battery Materials and ElectrolytesINTRODUCTIONENERGY STORAGEBATTERY SYSTEMLI-ION BATTERY: COMPUTATIONAL APPROACHELECTRODE MATERIALS PARAMETERSLITHIUM-ION BATTERY (LIB)POSITIVE ELECTRODE (CATHODE) MATERIALSLAYERED TRANSITION METAL OXIDESSPINEL TRANSITION METAL OXIDESOLIVINE АS CATHODE MATERIALTAVORITEAS CATHODE MATERIALNEGATIVE ELECTRODE (ANODE) MATERIALSELECTROLYTESCONCLUSIONKEYWORDSREFERENCESEffect of Morphology and Doping on the Photoelectrochemical Performance of Zinc OxideINTRODUCTIONPHOTOELECTROCHEMICAL WATER SPLITTINGBASIC PHOTOELECTROCHEMICAL SET UPPREPARATION OF PHOTOELECTRODESCHOOSING AN ELECTROLYTEBASIC PRINCIPLES OF A PHOTOELECTROCHEMICAL PROCESSIMPORTANT CRITERION FOR AN EFFICIENT PHOTO ELECTRODEEFFICIENCY MEASUREMENT OF PHOTOELECTRODESZINC OXIDE NANOSTRUCTURESEFFECT OF MORPHOLOGY ON PEC PERFORMANCE OFZNO NANOSTRUCTURESD NANOSTRUCTURESD NANOSTRUCTURESEFFECT OF DOPING ON THE PHOTOELECTROCHEMICAL PERFORMANCECONCLUSIONKEYWORDSREFERENCESMethanol and Formic Acid Oxidation: Selective Fuel Cell ProcessesINTRODUCTIONPERFORMANCES OF NANOPARTICLES (NPS) FOR METHANOL FUEL CELLPERFORMANCES OF NANOPARTICLES (NPS) FOR FORMIC ACID (FA) FUEL CELLCONCLUSIONACKNOWLEDGMENTSKEYWORDSREFERENCES
