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Foreword; Preface; About the Editors; Contents of Volume 1; Contents of Volume 2; Part I: Sensors for Measurement of Global Parameters; Chapter 1: Chemical Oxygen Demand; 1.1 Introduction; 1.2 Sensors; 1.2.1 Pt/PbO2 Ring-Disc Electrode; 1.2.2 F-Doped PbO2-Modified Electrode; 1.2.3 Rhodium Oxide-Titania Electrode; 1.2.4 Boron-Doped Diamond Electrode; 1.2.5 Nano Copper-Modified Electrode; 1.2.6 Activated Glassy Carbon Electrode; 1.2.7 Cobalt Oxide-Modified Glassy Carbon Electrode; 1.2.8 Nickel Nanoparticles; 1.2.9 Nickel-Copper Alloy Electrode; 1.3 Total Organic Carbon (TOC); References
Chapter 2: Biochemical Oxygen Demand (BOD)2.1 Introduction; 2.2 Sensors for the Determination of BOD; 2.2.1 Ferricyanide-Mediated BOD Sensor; 2.2.2 Hybrid Material for BOD Sensor; 2.2.3 Mediated BOD Sensor; 2.2.4 Multi-Species-Based BOD Sensor; 2.2.5 Miniaturized Electrochemical Respirometer; 2.3 Related Sensors: Bioactivity; References; Chapter 3: Dissolved Oxygen; 3.1 Introduction; 3.2 Membrane-Covered Electrodes; 3.2.1 Clarkś Electrode; 3.2.2 Pt-LaF3-Sensing Membrane; 3.2.3 PIDS or TiO2 Membrane-Coated Sensor; 3.3 Modified Electrodes; 3.3.1 Poly(Nile Blue)-Modified Electrode
3.3.2 Metalloporphyrin-Modified Electrode3.3.3 Cobalt Tetrasulfonate Phthalocyanine (CoTSPc)-Modified Electrode; 3.3.4 Vitamin B12-Modified Electrode; 3.3.5 Manganese Phthalocyanine-Modified Electrode; 3.3.6 Poly(Methylene Blue)-Modified Electrode; 3.3.7 Nickel-Salen-Modified Electrode; 3.3.8 Anthraquinone-Modified Electrode; 3.4 Miniaturized Dissolved Oxygen Sensors; 3.4.1 Solid-State Oxygen Sensor; 3.4.2 Microelectrodes; References; Chapter 4: pH Measurements; 4.1 Introduction; 4.2 Glass Electrode; 4.3 Solid-State pH Sensors; 4.4 Metallic Electrodes; 4.5 Metal Oxide Probes
4.5.1 Ruthenium Oxide4.5.2 Cu2O-Doped RuO2; 4.5.3 MnO2; 4.5.4 Titanates; 4.5.5 Titania Nanotubes; 4.5.6 Zinc Oxide; 4.5.7 CuO; 4.5.8 Iridium Oxide; 4.6 Nano-Structured Material-Based pH Sensors; 4.6.1 Silicon Nanowires; 4.6.2 Silica Nanoparticles; 4.6.3 SnO2 Nanorods; 4.6.4 Carbon Nanotubes as Sensitive Coatings; 4.7 Polymer-Based pH Sensors; 4.8 Graphene-Based pH Sensor; 4.9 Miniaturized pH Sensors; 4.9.1 Antimony Nanowires for pH Sensors; 4.9.2 Carbon Fiber Microelectrode; 4.10 Tattoo-Based Ion-Selective Electrode; 4.11 Textile-Based pH Sensor; References
Part II: Sensors and Biosensors for Inorganic Compounds of Environmental ImportanceChapter 5: Metals; 5.1 Frequently Determined Heavy Metals and Metalloids; 5.1.1 Choice of the Individual Methods and Procedures; 5.1.2 Basic Principles and Mechanisms; 5.1.3 Electroanalysis of Heavy Metals and Environmental Samples; 5.2 Iron Metals and Metals from Group III-VII of the Periodical System of the Elements; 5.2.1 Choice of Methods and Their Basic Principles; 5.2.2 Electrochemical Methods for Environmental Analysis; 5.3 Precious Metals and Some Other Heavy-Metal Elements
Chapter 2: Biochemical Oxygen Demand (BOD)2.1 Introduction; 2.2 Sensors for the Determination of BOD; 2.2.1 Ferricyanide-Mediated BOD Sensor; 2.2.2 Hybrid Material for BOD Sensor; 2.2.3 Mediated BOD Sensor; 2.2.4 Multi-Species-Based BOD Sensor; 2.2.5 Miniaturized Electrochemical Respirometer; 2.3 Related Sensors: Bioactivity; References; Chapter 3: Dissolved Oxygen; 3.1 Introduction; 3.2 Membrane-Covered Electrodes; 3.2.1 Clarkś Electrode; 3.2.2 Pt-LaF3-Sensing Membrane; 3.2.3 PIDS or TiO2 Membrane-Coated Sensor; 3.3 Modified Electrodes; 3.3.1 Poly(Nile Blue)-Modified Electrode
3.3.2 Metalloporphyrin-Modified Electrode3.3.3 Cobalt Tetrasulfonate Phthalocyanine (CoTSPc)-Modified Electrode; 3.3.4 Vitamin B12-Modified Electrode; 3.3.5 Manganese Phthalocyanine-Modified Electrode; 3.3.6 Poly(Methylene Blue)-Modified Electrode; 3.3.7 Nickel-Salen-Modified Electrode; 3.3.8 Anthraquinone-Modified Electrode; 3.4 Miniaturized Dissolved Oxygen Sensors; 3.4.1 Solid-State Oxygen Sensor; 3.4.2 Microelectrodes; References; Chapter 4: pH Measurements; 4.1 Introduction; 4.2 Glass Electrode; 4.3 Solid-State pH Sensors; 4.4 Metallic Electrodes; 4.5 Metal Oxide Probes
4.5.1 Ruthenium Oxide4.5.2 Cu2O-Doped RuO2; 4.5.3 MnO2; 4.5.4 Titanates; 4.5.5 Titania Nanotubes; 4.5.6 Zinc Oxide; 4.5.7 CuO; 4.5.8 Iridium Oxide; 4.6 Nano-Structured Material-Based pH Sensors; 4.6.1 Silicon Nanowires; 4.6.2 Silica Nanoparticles; 4.6.3 SnO2 Nanorods; 4.6.4 Carbon Nanotubes as Sensitive Coatings; 4.7 Polymer-Based pH Sensors; 4.8 Graphene-Based pH Sensor; 4.9 Miniaturized pH Sensors; 4.9.1 Antimony Nanowires for pH Sensors; 4.9.2 Carbon Fiber Microelectrode; 4.10 Tattoo-Based Ion-Selective Electrode; 4.11 Textile-Based pH Sensor; References
Part II: Sensors and Biosensors for Inorganic Compounds of Environmental ImportanceChapter 5: Metals; 5.1 Frequently Determined Heavy Metals and Metalloids; 5.1.1 Choice of the Individual Methods and Procedures; 5.1.2 Basic Principles and Mechanisms; 5.1.3 Electroanalysis of Heavy Metals and Environmental Samples; 5.2 Iron Metals and Metals from Group III-VII of the Periodical System of the Elements; 5.2.1 Choice of Methods and Their Basic Principles; 5.2.2 Electrochemical Methods for Environmental Analysis; 5.3 Precious Metals and Some Other Heavy-Metal Elements