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Table of Contents
Part 1. The Principle of Bio-electrochemical Systems+61. Bio-electrochemical systems: Principles and Application
2. Bioelectrochemically assisted anaerobic digestion: Principles and Perspectives
3. An insight into Biological Photovoltaic Cell based Electrochemical System
4. Electro-fermentation technology: Emerging platform
5. Electrochemical losses and their role in power generation
6. Electricity-driven microbial factory for value-added resources recovery from waste streams
Part 2. Catalysts controlling BES implementation
7. Effective cathode catalysts for O2 reduction
8. Role of Biocatalysts in Microbial Electrosynthesis for value-added product via CO2 sequestration
9. Biocatalysts in electro-fermentation systems: Mixed culture and pure cultures
10. Bacterial metabolism coupled energetic
11. Electrotrophs and Electricigens; Key players in Microbial Electrophysiology
12. Biofilms: Engineering approaches to enhance process efficiency
13. The enhanced mechanism of heterotrophic denitrification in bioelectrochemical system
14. Nanotechnology approaches: Tunable electrode surfaces for bioelectrocatalytic conversion of greenhouse gases into valuable products.
2. Bioelectrochemically assisted anaerobic digestion: Principles and Perspectives
3. An insight into Biological Photovoltaic Cell based Electrochemical System
4. Electro-fermentation technology: Emerging platform
5. Electrochemical losses and their role in power generation
6. Electricity-driven microbial factory for value-added resources recovery from waste streams
Part 2. Catalysts controlling BES implementation
7. Effective cathode catalysts for O2 reduction
8. Role of Biocatalysts in Microbial Electrosynthesis for value-added product via CO2 sequestration
9. Biocatalysts in electro-fermentation systems: Mixed culture and pure cultures
10. Bacterial metabolism coupled energetic
11. Electrotrophs and Electricigens; Key players in Microbial Electrophysiology
12. Biofilms: Engineering approaches to enhance process efficiency
13. The enhanced mechanism of heterotrophic denitrification in bioelectrochemical system
14. Nanotechnology approaches: Tunable electrode surfaces for bioelectrocatalytic conversion of greenhouse gases into valuable products.