Microbial electrochemical technology : sustainable platform for fuels, chemicals and remediation /

"Biomass, Biofuels, Biochemicals encompasses the potential of microbial electrochemical technologies, delineating their role in developing a technology for abating environmental crisis and enabling transformation to a sustainable future. The book provides new and futuristic methods for bioelect...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Mohan, S. Venkata (Editor ), Varjani, Sunita (Editor ), Pandey, Ashok (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam, Netherlands ; Cambridge, MA : Elsevier, [2019]
Colección:Biomass, biofuels, biochemicals.
Temas:
Electrophysiology.
Microbial biotechnology.
Biochemical engineering.
Bioelectrochemistry.
Biomass.
Biomass energy.
Microbial fuel cells.
Electrophysiology
Biomass
�Electrophysiologie.
Biotechnologie microbienne.
G�enie biochimique.
Bio�electrochimie.
Biomasse.
Bio�energie.
Piles �a combustible microbiennes.
SCIENCE > Life Sciences > Anatomy & Physiology.
Microbial biotechnology
Biomass energy
Biochemical engineering
Bioelectrochemistry
Microbial fuel cells
Microorganisms
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; MICROBIAL ELECTROCHEMICAL TECHNOLOGY; Series: Biomass, Biofuels, Biochemicals; BIOMASS, BIOFUELS, BIOCHEMICALS: MICROBIAL ELECTROCHEMICAL TECHNOLOGY; Copyright; Contents; Contributors; Preface; I
  • MICROBIAL ELECTROCHEMICAL TECHNOLOGY (MET)
  • BASICS; 1.1
  • Microbial Electrochemical Technology: Emerging and Sustainable Platform; 1.1.1 INTRODUCTION; 1.1.2 MICROBIAL ELECTROCHEMICAL TECHNOLOGY ORIGIN; 1.1.2.1 Scientography of MET; 1.1.3 MICROBIAL SYSTEMS ASSOCIATED WITH ENERGY GENERATION; 1.1.4 ELECTROGENS-ELECTROACTIVE MICROORGANISMS
  • 1.1.4.1 Electron Transfer and Conservation of Energy1.1.5 WEAK ELECTRICIGENS-THE FUTURISTIC AND VERSATILE MICROBIOME; 1.1.6 CONCLUSIONS AND PERSPECTIVES; Acknowledgments; References; 1.2
  • Microbial Electrochemical System: Principles and Application; 1.2.1 INTRODUCTION; 1.2.2 BASIC PRINCIPLES OF MICROBIAL ELECTROCHEMICAL SYSTEMS; 1.2.2.1 Brief Development of Microbial Electrochemical Systems; 1.2.2.2 Different Types of Microbial Electrochemical Systems; 1.2.2.3 Common Features of Microbial Electrochemical Systems
  • 1.2.2.3.1 Operational Factors Affecting Performance of Microbial Electrochemical Systems1.2.2.3.1.1 DESIGN FACTORS; 1.2.2.3.1.2 CHEMICAL FACTORS; 1.2.2.3.1.3 BIOLOGICAL ASPECTS; 1.2.2.3.1.4 OPERATING CONDITIONS; 1.2.2.3.2 Basic Biochemistry of Electrogenesis in Microbial Electrochemical Systems; 1.2.3 ANODIC MICROORGANISMS EMPLOYED IN MESS; 1.2.3.1 Different Electron Transfer Modes From Microbes to Anode; 1.2.3.1.1 Mediatorless Mechanism of Electron Transfer; 1.2.3.1.2 Electron Transfer by c-Type Cytochromes; 1.2.3.1.3 Microbial Nanowire; 1.2.3.1.4 Electron Shuttles or Mediators
  • 1.2.4 CATHODIC MICROORGANISMS EMPLOYED IN MESS1.2.5 DIAGNOSIS OF MES PERFORMANCES; 1.2.5.1 Electrode Potential; 1.2.5.2 Polarization and Power Density Curves; 1.2.5.2.1 Strategies to Reduce Overpotentials; 1.2.5.3 Coulombic Efficiency; 1.2.5.4 Cyclic Voltammetry; 1.2.5.5 Electrochemical Impedance Spectroscopy; 1.2.5.6 Tafel Plot Analysis; 1.2.6 BIOCHEMICAL FEATURES OF DIFFERENT MESS AND THEIR APPLICATIONS; 1.2.6.1 MFC for Wastewater Treatment; 1.2.6.2 Microbial Electroremediation Cells; 1.2.6.2.1 Pollutant as Feedstock for MRC at Anode Chamber
  • 1.2.6.2.2 Role of MRC in Subsurface Remediation at Cathode1.2.6.3 Microbial Solar Cells; 1.2.6.4 Microbial Desalination Cells; 1.2.6.5 Benthic Microbial Fuel Cell; 1.2.6.6 Microbial Electrolysis Cell; 1.2.6.7 Microbial Electrosynthesis; 1.2.6.8 MFC as Toxic Sensor and BOD Biosensor; 1.2.6.9 Preparation of Metal Nanoparticles; 1.2.7 CONCLUSION; References; 1.3
  • Carbon-Based Materials in Microbial Fuel Cells; 1.3.1 INTRODUCTION; 1.3.2 ANODE MATERIALS; 1.3.2.1 Granular Carbon; 1.3.2.2 Nanostructured Carbon Materials; 1.3.2.3 Carbon Nanotubes; 1.3.2.3.1 Graphene

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