Bioelectrochemical interface engineering. (2019)
- Record Type:
- Book
- Title:
- Bioelectrochemical interface engineering. (2019)
- Main Title:
- Bioelectrochemical interface engineering
- Further Information:
- Note: Edited by R. Navanietha Krishnaraj, Rajesh K. Sani.
- Editors:
- Navanietha Krishnaraj, R
Sani, Rajesh K - Contents:
- List of Contributors xxi Preface xxix 1 Electrochemical Performance Analyses of Biofilms 1; J. Jayapriya and V. Ramamurthy 1.1 Introduction 1 1.2 Electrochemical Principles 1 1.3 Cyclic Voltammetry 2 1.4 Electrochemical Impedance Spectroscopy 7 1.5 Electrochemical Noise (ECN) Technique 14 1.6 Conclusion 17 Acknowledgments 17 References 17 Further Reading 19 Take‐home Message 19 Test Yourself 19 2 Direct Electron Transfer in Redox Enzymes and Microorganisms 21; Sheela Berchmans and T. Balamurugan 2.1 Introduction 21 2.2 Wiring Enzymes to the Electrode Surface 22 2.3 Wiring Microorganisms to the Electrode Surface 26 References 30 Take‐home Message 34 Test Yourself 34 3 Electrochemical Techniques and Applications to Characterize Single‐ and Multicellular Electric Microbial Functions 37; Junki Saito, Muralidharan Murugan, Xiao Deng, Alexis Guionet, Waheed Miran, and Akihiro Okamoto 3.1 Introduction to Microbial Electrochemical Functions and Processes 37 3.2 Electrochemical Techniques Related to Single‐cell Processes 38 3.3 Electrochemical Techniques Related to Biofilm Processes 43 3.4 Techniques to Analyze Nanowires 45 References 48 Take‐home Message 52 Test Yourself 52 4 Electrochemical Analysis of Single Cells 55; Maedeh Mozneb, Christine Smothers, Pablo Rodriguez, and Chen‐Zhong Li 4.1 Introduction 55 4.2 Single‐cell Analysis Applications and Current Technologies 56 4.3 Electrochemical Methods for Single‐cell Analysis 57 4.4 Microelectrodes for Single‐cell Analysis 62 4.5List of Contributors xxi Preface xxix 1 Electrochemical Performance Analyses of Biofilms 1; J. Jayapriya and V. Ramamurthy 1.1 Introduction 1 1.2 Electrochemical Principles 1 1.3 Cyclic Voltammetry 2 1.4 Electrochemical Impedance Spectroscopy 7 1.5 Electrochemical Noise (ECN) Technique 14 1.6 Conclusion 17 Acknowledgments 17 References 17 Further Reading 19 Take‐home Message 19 Test Yourself 19 2 Direct Electron Transfer in Redox Enzymes and Microorganisms 21; Sheela Berchmans and T. Balamurugan 2.1 Introduction 21 2.2 Wiring Enzymes to the Electrode Surface 22 2.3 Wiring Microorganisms to the Electrode Surface 26 References 30 Take‐home Message 34 Test Yourself 34 3 Electrochemical Techniques and Applications to Characterize Single‐ and Multicellular Electric Microbial Functions 37; Junki Saito, Muralidharan Murugan, Xiao Deng, Alexis Guionet, Waheed Miran, and Akihiro Okamoto 3.1 Introduction to Microbial Electrochemical Functions and Processes 37 3.2 Electrochemical Techniques Related to Single‐cell Processes 38 3.3 Electrochemical Techniques Related to Biofilm Processes 43 3.4 Techniques to Analyze Nanowires 45 References 48 Take‐home Message 52 Test Yourself 52 4 Electrochemical Analysis of Single Cells 55; Maedeh Mozneb, Christine Smothers, Pablo Rodriguez, and Chen‐Zhong Li 4.1 Introduction 55 4.2 Single‐cell Analysis Applications and Current Technologies 56 4.3 Electrochemical Methods for Single‐cell Analysis 57 4.4 Microelectrodes for Single‐cell Analysis 62 4.5 Electroluminescence‐based Single‐cell Measurements 69 4.6 Lab‐on‐chip‐based Single‐cell Analysis 70 4.7 Conclusion 71 References 71 Take‐home Message 75 Test Yourself 76 5 Biocorrosion 77; C. Chandrasatheesh and J. Jayapriya 5.1 Introduction 77 5.2 Microorganisms Involved in Corrosion 78 5.3 Mechanisms 80 5.4 Biocorrosion Control Strategies 82 5.5 Materials Vulnerable to Biocorrosion 83 5.6 Biocorrosion of Biomedical Implants 84 5.7 Biocorrosion Detection Techniques 85 5.8 Conclusion 86 Acknowledgements 86 References 86 Further Reading 89 Take‐home Message 89 Test Yourself 90 6 Microbial Fuel Cells: A Sustainable Technology for Pollutant Removal and Power Generation 91; Somdipta Bagchi and Manaswini Behera 6.1 Introduction 91 6.2 Microbial Fuel Cells 92 6.3 Measuring Performance 94 6.4 MFC Configuration 98 6.5 Materials 100 6.6 Limitations in MFCs 104 6.7 Other MFC‐based Technologies 106 6.8 Pilot‐scale MFCs 107 References 108 Take‐home Message 115 Test Yourself 115 7 Biophotovoltaics: Molecular Mechanisms and Applications 117; Angelaalincy Maria Joseph, Sangeetha Ramalingam, Pushpalatha Selvaraj, Komal Rani, Kalpana Ramaraju, Gunaseelan Sathaiah, Ashokkumar Balasubramaniem, and Varalakshmi Perumal 7.1 Introduction 117 7.2 Photocurrent Generation with Biological Catalysts 118 7.3 Photosynthetic Microbes as Photobioelectrocatalysts in BESs 119 7.4 Biocatalysts of Photosynthetic Organisms 119 7.5 Electron Transfer in Microalgae During Photosynthesis (Light Reaction) 120 7.6 Electron Transfer Mechanisms in Purple Photosynthetic Bacteria 124 7.7 Electron Transfer Mechanisms of Cyanobacteria 128 7.8 Models of Solar Energy Conversion Devices 129 7.9 Applications and Future Perspectives 131 7.10 Conclusion 132 References 132 Take‐home Message 135 Test Yourself 135 8 An Insight into Plant Microbial Fuel Cells 137; Pranab Jyoti Sarma and Kaustubha Mohanty 8.1 Introduction 137 8.2 Different Types of Plants and Their Bioelectricity Generation Capabilities 138 8.3 Bioprocess Structure 139 8.4 Variation in PMFC Types, Operating Conditions, Design, Electrodes, and Membranes Used 141 8.5 PMFCs as New Electricity Generation Technology 142 8.6 Challenges of PMFCs 144 8.7 Conclusion 144 References 144 Take‐home Message 146 Test Yourself 147 9 Electroanalytical Techniques for Investigating Biofilms in Microbial Fuel Cells 149; Smita S. Kumar, Vivek Kumar, and Suddhasatwa Basu 9.1 Introduction 149 9.2 Conventional Biofilm Investigation Techniques 151 9.3 Electroanalytical Techniques 151 9.4 Electrode Polarization 154 9.5 Voltammetry (LSV) 155 9.6 Scanning Tunneling Microscopy 159 9.7 Electrochemical Quartz Crystal Microbalance (e‐QCM) 159 9.8 Conclusion 160 Acknowledgments 160 References 160 Take‐home Message 162 Test Yourself 162 10 Progress in Development of Electrode Materials in Microbial Fuel Cells 165; Alka Pareek and S. Venkata Mohan 10.1 Introduction 165 10.2 Electrode Materials in MFCs 166 10.3 Effect of Surface Treatment on Electrodes 176 10.4 Conclusion 177 Acknowledgments 177 References 178 Take‐home Message 185 Test Yourself 185 11 Synthetic Biology Strategies to Improve Electron Transfer Rate at the Microbe–Anode Interface in Microbial Fuel Cells 187; Tian Zhang, Dipankar Ghosh, and Pier‐Luc Tremblay 11.1 Introduction 187 11.2 Extracellular Electron Transfer (EET) Mechanisms from the Microbe to the Anode 188 11.3 Synthetic Biology Strategies to Improve the EET Rate from Microbes to Anode 193 11.4 Synthetic Biology to Optimize Current Generation by Yeast 199 11.5 Conclusion 200 References 200 Take‐home Message 207 Test Yourself 208 12 Microbial Electrolysis Cells (MECs): A Promising and Green Approach for Bioenergy and Biochemical Production from Waste Resources 209; Abudukeremu Kadier, Mohd Sahaid Kalil, Pankaj Kumar Rai, Smita S. Kumar, Peyman Abdeshahian, Periyasamy Sivagurunathan, Hassimi Abu Hasan, Aidil Abdul Hamid, and Azah Mohamed 12.1 Introduction 209 12.2 Fundamentals of MEC Technology 210 12.3 Crucial Factors Governing the Performance of MECs 212 12.4 Current Applications of MECs 219 12.5 Conclusion 224 Acknowledgments 224 References 224 Take‐home Message 234 Test Yourself 234 13 Microbial Desalination Cells 235; Swati Sharma, Ademola Hammed, and Halis Simsek 13.1 Introduction 235 13.2 Overview of Desalination Cells 236 13.3 MDC Applications and Concepts 237 13.4 Desalination in MDCs 239 13.5 Different Configurations of MDCs 239 13.6 Conclusion 246 References 246 Take‐home Message 248 Test Yourself 248 14 Microbially Charged Redox Flow Batteries for Bioenergy Storage 251; Márcia S.S. Santos, Luciana Peixoto, Célia Dias‐Ferreira, Adélio Mendes, and M. Madalena Alves 14.1 Introduction 251 14.2 Redox Flow Batteries 251 14.3 Organic Compounds for RFBs 256 14.4 Coupling RFBs with Renewable Energy Production Technologies 259 14.5 Future Perspectives 261 14.6 Conclusion 262 Acknowledgments 262 References 262 & … (more)
- Edition:
- 1st
- Publisher Details:
- Hoboken, New Jersey : John Wiley & Sons, Inc
- Publication Date:
- 2019
- Extent:
- 1 online resource
- Subjects:
- 572.437
Bioelectrochemistry
Bioengineering
Chemical engineering - Languages:
- English
- ISBNs:
- 9781119538424
- Related ISBNs:
- 9781119538561
- Notes:
- Note: Description based on CIP data; resource not viewed.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library HMNTS - ELD.DS.454689
- Ingest File:
- 02_590.xml