Preface VOLUME I: DESIGN PRINCIPLES 1 Design Principles for Heteroatom-Doped Carbon Materials as Metal-Free Catalysts 2 Design of Carbon-Based Metal-Free Electrocatalysts 3 Defective Carbons for Electrocatalytic Oxygen Reduction 4 Designing Porous Structures and Active Sites in Carbon-Based Electrocatalysts 5 Porous Organic Polymers as a Molecular Platform for Designing Porous Carbons 6 Nanocarbons from Synthetic Polymer Precursors and their Catalytic Properties 7 Heteroatom-Doped Three-Dimensional Carbon-Based Catalysts for Energy Conversion and Storage by Metal-Free Electrocatalysis 8 Active Sites in Nitrogen-Doped Carbon Materials for Oxygen Reduction Reaction 9 Unraveling the Active Site on Metal-Free Carbon-Based Catalysts for Multifunctional Applications 10 Carbocatalysis: Analyzing the Sources of Organic Transformations VOLUME II: APPLICATIONS 11 Carbon-Based Metal-Free Catalysts for Renewable Energy Technologies 12 Carbon-Based Metal-Free Catalysts for Electrocatalysis of ORR 13 Hydrothermal Carbon Materials for the Oxygen Reduction Reaction 14 Carbon-Based Electrochemical Oxygen Reduction and Hydrogen Evolution Catalysts 15 Carbon-Based Metal-Free Catalysts for Photoelectrocatalysis 16 Metal-Free Nanoporous Carbons in Photocatalysis 17 Functionalized Graphene-Based Metal-Free Electrocatalysts for Oxygen Reduction Reaction in Fuel Cells 18 Carbon-Based Metal-Free Catalysts for Metal-Air Batteries 19 Carbon-Based Metal-Free Catalysts for Chemical Catalysis 20 Carbon-Based Metal-Free Catalysts for Chemical Productions 21 Heteroatom-Doped Carbon Supported Metal Catalysts for Electrochemical Energy schovat popis