Porous Materials and Electrochemistry Porous Materials, Concept, and Classifications Mixed Porous Materials Electrochemistry and Porous Materials Synthesis of Porous Materials Material-Modified Electrodes Electrode-Modified Materials General Electrochemical Considerations Diffusive Aspects Voltammetry and Related Techniques Resistive and Capacitive Effects Electrochemical Impedance Spectroscopy Other Techniques Electrochemical Processes Involving Porous Materials General Approach Continuous Layer Microheterogeneous Deposits Distribution of Species Refinements Fractal Surfaces Electrocatalysis Electrocatalysis by Surface-Confined Species Electrocatalysis at Microparticulate Deposits of Porous Materials Modeling Electrocatalysis at Microheterogeneous Deposits of Porous Materials: the Steady-State Approach Modeling Electrocatalysis at Microheterogeneous Deposits of Porous Materials: Transient Responses Electrocatalytic Mechanisms Electrochemistry of Aluminosilicates Zeolites Electrochemistry of Zeolite-Associated Species Topological Redox Isomers Species Distribution Mesoporous Materials Electrochemistry of Related Materials Speciation: The Maya Blue Problem Electrochemistry of Metal-Organic Frameworks Ion Insertion-Driven Electrochemistry of MOFs Metal Deposition Electrochemistry of MOFs Sensing and Electrocatalysis Electrochemistry of Porous Oxides and Related Materials Electrochemistry of Metal Oxides and Metal Oxohydroxides Electrochemistry of Layered Hydroxides and Related Materials Electrochemistry of POMs Electrochemistry of Doped Materials Porous Anodic Metal Oxide Films Electrocatalysis at Metal Oxides and Related Materials Site-Characteristic Electrochemistry Electrochemistry of Porous Carbons and Nanotubes Carbons as Electrochemical Materials Porous Carbons Carbon Nanotubes and Nanoribbons Fullerenes Direct Electrochemical Synthesis of Fullerenes and Nanotubes Capacitance Response Carbon Functionalization Electrocatalytic Ability Electrochemistry of Porous Polymers and Hybrid Materials Organic-Inorganic Hybrid Materials and Nanocomposites Porous Polymers Hybrid Materials Based on Modification of Conducting Organic Polymers Hybrid Materials Based on Modification with Condt;/P> Refinements Fractal Surfaces Electrocatalysis Electrocatalysis by Surface-Confined Species Electrocatalysis at Microparticulate Deposits of Porous Materials Modeling Electrocatalysis at Microheterogeneous Deposits of Porous Materials: the Steady-State Approach Modeling Electrocatalysis at Microheterogeneous Deposits of Porous Materials: Transient Responses Electrocatalytic Mechanisms Electrochemistry of Aluminosilicates Zeolites Electrochemistry of Zeolite-Associated Species Topological Redox Isomers Species Distribution Mesoporous Materials Electrochemistry of Related Materials Speciation: The Maya Blue Problem Electrochemistry of Metal-Organic Frameworks Ion Insertion-Driven Electrochemistry of MOFs Metal Deposition Electrochemistry of MOFs Sensing and Electrocatalysis Electrochemistry of Porous Oxides and Related Materials Electrochemistry of Metal Oxides and Metal Oxohydroxides Electrochemistry of Layered Hydroxides and Related Materials Electrochemistry of POMs Electrochemistry of Doped Materials Porous Anodic Metal Oxide Films Electrocatalysis at Metal Oxides and Related Materials Site-Characteristic Electrochemistry Electrochemistry of Porous Carbons and Nanotubes Carbons as Electrochemical Materials Porous Carbons Carbon Nanotubes and Nanoribbons Fullerenes Direct Electrochemical Synthesis of Fullerenes and Nanotubes Capacitance Response Carbon Functionalization Electrocatalytic Ability Electrochemistry of Porous Polymers and Hybrid Materials Organic-Inorganic Hybrid Materials and Nanocomposites Porous Polymers Hybrid Materials Based on Modification of Conducting Organic Polymers Hybrid Materials Based on Modification with Condy of Related Materials Speciation: The Maya Blue Problem Electrochemistry of Metal-Organic Frameworks Ion Insertion-Driven Electrochemistry of MOFs Metal Deposition Electrochemistry of MOFs Sensing and Electrocatalysis Electrochemistry of Porous Oxides and Related Materials Electrochemistry of Metal Oxides and Metal Oxohydroxides Electrochemistry of Layered Hydroxides and Related Materials Electrochemistry of POMs Electrochemistry of Doped Materials Porous Anodic Metal Oxide Films Electrocatalysis at Metal Oxides and Related Materials Site-Characteristic Electrochemistry Electrochemistry of Porous Carbons and Nanotubes Carbons as Electrochemical Materials Porous Carbons Carbon Nanotubes and Nanoribbons Fullerenes Direct Electrochemical Synthesis of Fullerenes and Nanotubes Capacitance Response Carbon Functionalization Electrocatalytic Ability Electrochemistry of Porous Polymers and Hybrid Materials Organic-Inorganic Hybrid Materials and Nanocomposites Porous Polymers Hybrid Materials Based on Modification of Conducting Organic Polymers Hybrid Materials Based on Modification with Cond Electrochemistry of Porous Carbons and Nanotubes Carbons as Electrochemical Materials Porous Carbons Carbon Nanotubes and Nanoribbons Fullerenes Direct Electrochemical Synthesis of Fullerenes and Nanotubes Capacitance Response Carbon Functionalization Electrocatalytic Ability Electrochemistry of Porous Polymers and Hybrid Materials Organic-Inorganic Hybrid Materials and Nanocomposites Porous Polymers Hybrid Materials Based on Modification of Conducting Organic Polymers Hybrid Materials Based on Modification with Conducting Polymers Electrochemical Monitoring of Polymerization in Hybrid Systems Dispersion of Metal and Metal Oxide Nanoparticles into Porous Solids Electrochemical Sensing via Porous Materials Electrochemical Sensing Gas Sensors with Porous Materials Solid-State pH and Ion-Selective Electrodes Amperometric Sensing Voltammetric Sensing and Selectivity Enantioselective Electrochemical Sensing Electrochemical Modeling of Electronic Systems Supercapacitors, Batteries, Fuel Cells, and Related Applications Electrical Energy Storage and Conversion Capacitors and Supercapacitors Nickel Batteries Lithium Batteries Fuel Cells Electrocogeneration Magnetoelectrochemistry and Photoelectrochemistry of Porous Materials Magnetoelectrochemistry Photoelectrochemistry Photon Energy and Redox Processes Photoelectrochemical Cells Electrochemically Induced Luminescence and Electrochromic Materials Photochemical Modulation of Electrocatalytic Processes Microporous Materials in Electrosynthesis and Environmental Remediation Electrosynthesis Electrolytic Procedures Involving Porous Electrodes Electrocatalytic Processes Oxygen Evolution Reaction Hydrogen Evolution Reaction Electrocatalytic Oxidation of Alcohols Electrochemical Degradation of Contaminants Degradation/Generation Photoelectrochemical Degradation References Index Nickel Batteries Lithium Batteries Fuel Cells Electrocogeneration Magnetoelectrochemistry and Photoelectrochemistry of Porous Materials Magnetoelectrochemistry Photoelectrochemistry Photon Energy and Redox Processes Photoelectrochemical Cells Electrochemically Induced Luminescence and Electrochromic Materials Photochemical Modulation of Electrocatalytic Processes Microporous Materials in Electrosynthesis and Environmental Remediation Electrosynthesis Electrolytic Procedures Involving Porous Electrodes Electrocatalytic Processes Oxygen Evolution Reaction Hydrogen Evolution Reaction Electrocatalytic Oxidation of Alcohols Electrochemical Degradation of Contaminants Degradation/Generation Photoelectrochemical Degradation References Index n Hydrogen Evolution Reaction Electrocatalytic Oxidation of Alcohols Electrochemical Degradation of Contaminants Degradation/Generation Photoelectrochemical Degradation References Index.