Microbial Electrochemical Technologies 1st Edition by Sonia Tiquia Arashiro, Deepak Pant ISBN 978-1032082080 1032082089

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Product details:

ISBN 10: 1032082089

ISBN 13: 978-1032082080 

Author: Sonia Tiquia Arashiro, Deepak Pant

 This book encompasses the most updated and recent account of research and implementation of Microbial Electrochemical Technologies (METs) from pioneers and experienced researchers in the field who have been working on the interface between electrochemistry and microbiology/biotechnology for many years. It provides a holistic view of the METs, detailing the functional mechanisms, operational configurations, influencing factors governing the reaction process and integration strategies. The book not only provides historical perspectives of the technology and its evolution over the years but also the most recent examples of up-scaling and near future commercialization, making it a must-read for researchers, students, industry practitioners and science enthusiasts.

Table of contents: 

Part I: Fundamentals of Microbial Electrochemistry: Novel Microbial Pathways and Electron Transfer Mechanisms

Chapter 1: Extracellular Electron Transport in Geobacter and Shewanella
Chapter 2: Electrochemical Impedance Spectroscopy: A Noninvasive Tool for Performance Assessment of Bioelectrochemical Systems
Chapter 3: Understanding Bioelectrochemical Limitations via Impedance Spectroscopy

Part II: Optimizing Microbial Electrochemical Systems: Microbial Ecology of Biofilms and Electroactive Microorganisms Strain Improvement

Chapter 4: Steering Redox Metabolism in Pseudomonas putida with Microbial Electrochemical Technologies
Chapter 5: Monitoring Electron Transfer Rates of Electrode-Respiring Cells
Chapter 6: Electrode-Assisted Fermentations: Their Limitations and Future Research Directions
Chapter 7: Challenges and Opportunities of Microbial Symbiosis for Electrosynthesis Applications

Part III: Applications of Microbial Electrochemical Systems in Wastewater Treatment, Bioenergy, Biosensors and Electrosynthesis

Chapter 8: Microbial Electrolysis Cell (MEC): A Versatile Technology for Hydrogen, Value-added Chemicals Production and Wastewater Treatment
Chapter 9: Mechanisms of Heavy Metal Separation in Bioelectrochemical Systems and Relative Significance of Precipitation
Chapter 10: Photosynthetic Algal Microbial Fuel Cell for Simultaneous NH₃-N Removal and Bioelectricity Generation
Chapter 11: Nutrients Removal and Recovery in Bioelectrochemical Systems
Chapter 12: Microbial Fuel Cells: Treatment Efficiency and Comparative Bioelectricity Production from Various Wastewaters

Chapter 13: Bioelectrochemical Systems for Sustainable Groundwater Denitrification and Removal of Arsenic and Chromium

Chapter 14: An Overview of Carbon and Nanoparticles Application in Bioelectrochemical System for Energy Production and Resource Recovery

Chapter 15: Opportunities for Hydrogen Production from Urban/Industrial Wastewater in Bioelectrochemical Systems

Chapter 16: Microbial Fuel Cell Sensors for Water and Wastewater Monitoring

Chapter 17: Bioelectrochemical Enhancement and Intensification of Methane Production from Anaerobic Digestion

Chapter 18: Fluidized Bed Electrodes in Microbial Electrochemistry

Chapter 19: Electricity Production from Carbon Monoxide and Syngas in a Thermophilic Microbial Fuel Cell

Chapter 20: Microbial Electrochemical Technology Drives Metal Recovery

Chapter 21: Plant-Microbial Fuel Cells Serve the Environment and People

Part IV: Applications of Microbial Electrochemical Systems in Bioremediation

Chapter 22: Degradation and Mineralization of Recalcitrant Compounds in Bioelectrochemical Systems

Chapter 23: Enhanced Bioremediation of Petroleum Hydrocarbons Using Microbial Electrochemical Technology

Chapter 24: Electroactive Biochar

Part V: Materials for Microbial Electrochemical Technologies

Chapter 25: Toward a Sustainable Biocatalyst for the Oxygen Reduction Reaction in Microbial Fuel Cells

Chapter 26: Bioelectrochemical Treatment: Present Trends and Prospective

Chapter 27: Graphene Electrodes in Bioelectrochemical Systems

Part VI: Design of Microbial Electrochemical Systems: Toward Scale-up, Modeling and Optimization

Chapter 28: Scale-Up of Bioelectrochemical Systems for Energy Valorization of Waste Streams

Chapter 29: Innovative Bioelectrochemical-Anaerobic Digestion Coupled System for Process Monitoring Optimization and Product Purification of Wastewater

Chapter 30: Modeling of Wastewater Treatment and Methane Production in a Flow-through Microbial System

Chapter 31: Understanding the Significance of Current Density in Microbial Electrochemical Cells

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Sonia Tiquia Arashiro,Deepak Pant,Microbial,Electrochemical,Technologies