Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
The article contains sections titled: 1. Chlor‐Alkali Electrolysis 1.1. Molten Salt Electrolysis 1.2. Production of Chlorine 1.3. Electrosynthesis of Hypochlorite 1.4. Electrosynthesis of Chlorate 1.5. Electrosynthesis of Perchlorate 1.6. Chlorine Production Using Gas‐Diffusion Electrodes 2. Water Electrolysis for Hydrogen Production 3. Anodic Generation of Peroxodisulfuric Acid and Peroxodisulfates 4. Electrowinning and Electrorefining of Metals 4.1. Aqueous Electrolytes 4.2. Melts 5. Electrochemical Processes in Nuclear Fuel Reprocessing 5.1. Electroredox Separation Processes 5.2. Electroreduction Processes 5.3. Electrooxidation 5.4. Corrosion 6. Electrochemical Water and Effluent Treatment 6.1. Cathodic Treatment 6.1.1. Optimization of Cell Design 6.1.2. Electrochemical Reactors and Their Applications 6.1.3. Operation Data of Electrochemical Cells 6.2. Electrodialysis 6.3. Anodic Treatment 6.3.1. Direct Oxidation at the Anode 6.3.2. Indirect Oxidation 7. Electrochemical Gas Purification 7.1. General Aspects 7.2. New Process Developments 8. Electrochemical Shaping
The article contains sections titled: 1. Chlor‐Alkali Electrolysis 1.1. Molten Salt Electrolysis 1.2. Production of Chlorine 1.3. Electrosynthesis of Hypochlorite 1.4. Electrosynthesis of Chlorate 1.5. Electrosynthesis of Perchlorate 1.6. Chlorine Production Using Gas‐Diffusion Electrodes 2. Water Electrolysis for Hydrogen Production 3. Anodic Generation of Peroxodisulfuric Acid and Peroxodisulfates 4. Electrowinning and Electrorefining of Metals 4.1. Aqueous Electrolytes 4.2. Melts 5. Electrochemical Processes in Nuclear Fuel Reprocessing 5.1. Electroredox Separation Processes 5.2. Electroreduction Processes 5.3. Electrooxidation 5.4. Corrosion 6. Electrochemical Water and Effluent Treatment 6.1. Cathodic Treatment 6.1.1. Optimization of Cell Design 6.1.2. Electrochemical Reactors and Their Applications 6.1.3. Operation Data of Electrochemical Cells 6.2. Electrodialysis 6.3. Anodic Treatment 6.3.1. Direct Oxidation at the Anode 6.3.2. Indirect Oxidation 7. Electrochemical Gas Purification 7.1. General Aspects 7.2. New Process Developments 8. Electrochemical Shaping
The article contains sections titled: 1. Introduction 2. Perspectives of Electroorganic Reactions in Industry 3. Syntheses 3.1. Direct vs. Indirect or Mediated Electrochemical Reactions 3.2. Technically Important Processes Ordered by Reaction Classes 3.2.1. Electrochemical Substitution 3.2.2. Electrochemical Addition 3.2.3. Electrochemical Transformations of Functional Groups 3.2.4. Electrochemical Cleavage and Elimination 3.2.5. Electrochemical Coupling 3.2.6. Bioelectrosynthesis 3.3. Organic Electrochemistry for a Cleaner Environment 4. Experimental Factors and Techniques 4.1. Solvent ‐ Electrolyte Systems 4.2. Electrodes 4.2.1. Cathodes 4.2.2. Anodes 4.2.3. Other Factors Influenced by the Electrode Material 4.3. Electrochemical Cells 4.3.1. General Considerations 4.3.2. Cell Design 5. Economic Aspects
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.