Tabla de Contenidos: “…Plan of the hut. -- Figure 7. Carbonized planks of the internal wall facing of the hut. -- Figure 8. …”

Tabla de Contenidos: “…, Sacha Bourgeois-Gironde -- Urgence environnementale et prix du carbone, Christian Collier -- Les communs environnementaux, Catherine Larrère -- Pollution : histoire d'un accommodement, Judith Rainhorn -- Le monde arctique, Yvette Vaguet -- La gouvernance des grands espaces, François-Michel Le Tourneau -- Identités et différences -- Communauté, appartenance, identité, Nicolas Adell -- Archéologie des identités, du genre et des dominations, Reine-Marie Bérard -- Les approches intersectionnelles, Arthur Vuattoux -- Histoire en réseaux, Philippe Rygiel -- Postcolonial/Décolorual, Émilienne Baneth- Nouailhetas & Laetitia Zecchini -- La diversité linguistique, Guillaume Jacques -- Langues minoritaires, régionales et d'héritage, Mélanie Jouitteau -- Les limites de la diversité linguistique, Evangelia Adamou & Tatiana Nikitina -- Langues orales et langues signées, Carlo Cecchetto & Mirko Santoro -- En société -- Articuler sciences de la nature et sciences sociales, Bernard Lahire -- La santé au prisme des sciences bio-sociales, Alexandra Soulier -- La médecine et les humanités, Emmanuel Didier -- L'égalité juridique entre les sexes, Jean-Louis Halpérin -- La naissance de la propriété, FannyBocquentin -- Les organisations, Olivier Borraz & Christine Musselin -- Inventions et réinventions de l'administration, Philippe Bezes -- L'État en perspective, Marc Abélès -- Dynamiques partagées et conflits -- Histoire et droit, Serge Dauchy -- La Guerre civile européenne, Caterina Zanfi -- Les zones de guerre, Perrine Poupin -- La civilisation, une notion en question, Hervé Inglebert -- La violence, Isabelle Sommier -- Repenser l'histoire du politique, Yves Déloye -- Violences de masse et génocide, Vincent Duclert -- Inégalités -- Les inégalités, Aurélie Quentin -- Les inégalités éducatives, Marco Oberti -- La santé mentale au travail, Dominique Lhuilier. -- Les vaccins sont-ils des biens communs ?…”

Tabla de Contenidos: “…. -- Metabolic Evaluation of Urine from Patients Diagnosed with High Grade (HG) Bladder Cancer -- by SPME-LC-MS Method -- Reprinted from: Molecules 2021, 26, 2194, doi:10.3390/molecules26082194 113 -- Andrea Speltini, Francesca Merlo, Federica Maraschi, Giorgio Marrubini, Anna Faravelli and -- Antonella Profumo -- Magnetic Micro-Solid-Phase Extraction Using a Novel Carbon-Based Composite Coupled with -- HPLC-MS/MS for Steroid Multiclass Determination in Human Plasma -- Reprinted from: Molecules 2021, 26, 2061, doi:10.3390/molecules26072061 125 -- Hiroyuki Kataoka and Daiki Nakayama -- Online In-Tube Solid-Phase Microextraction Coupled with Liquid Chromatography-Tandem -- Mass Spectrometry for Automated Analysis of Four Sulfated Steroid Metabolites in Saliva -- Samples -- Reprinted from: Molecules 2022, 27, 3225, doi:10.3390/molecules27103225 141 -- Hiroyuki Kataoka, Sanae Kaji and Maki Moai -- Risk Assessment of Passive Smoking Based on Analysis of Hair Nicotine and Cotinine as -- Exposure Biomarkers by In-Tube Solid-Phase Microextraction Coupled On-Line to LC-MS/MS -- Reprinted from: Molecules 2021, 26, 7356, doi:10.3390/molecules26237356 153 -- Atsushi Ishizaki and Hiroyuki Kataoka -- Online In-Tube Solid-Phase Microextraction Coupled to Liquid Chromatography-Tandem -- Mass Spectrometry for the Determination of Tobacco-Specific Nitrosamines in Hair Samples -- Reprinted from: Molecules 2021, 26, 2056, doi:10.3390/molecules26072056 163 -- Yuping Zhang, Ning Wang, Zhenyu Lu, Na Chen, Chengxing Cui and Xinxin Chen -- Smart Titanium Wire Used for the Evaluation of Hydrophobic/Hydrophilic Interaction by -- In-Tube Solid Phase Microextraction -- Reprinted from: Molecules 2022, 27, 2353, doi:10.3390/molecules27072353 173.…”

Tabla de Contenidos: “…Women in green jobs and green innovation in the post-COVID 19 low-carbon transition -- 3.5. Women's role in accelerating the shift towards sustainable consumption patterns -- 3.6. …”

Tabla de Contenidos: “…4 Conclusions -- References -- Assessing a Deterministic Model for Autonomous Driving Through Visual Behavior -- 1 Introduction -- 2 Driving Model -- 3 Experiments -- 3.1 Participants -- 3.2 Instrumentation -- 3.3 Procedure -- 4 Results -- 5 Conclusions -- References -- Tubular Structure of an Urban Electric Vehicle with High Crashworthiness Performance -- 1 Introduction -- 2 Methodology -- 2.1 Torsional and Bending Stiffness -- 2.2 Durability Tests -- 2.3 Crashworthiness Performance -- 3 Results -- 3.1 Torsional and Bending Stiffness -- 3.2 Durability Tests -- 3.3 Crashworthiness Performance -- 4 Conclusions -- References -- On the Use of Carbon Fiber Composites for the Enhancement of the Rollover Resistance of Steel Buses -- 1 Introduction -- 2 Methodology -- 2.1 Bending Collapse Experimental Setup -- 2.2 Concept Modeling of the Structure -- 3 Results -- 4 Conclusions -- References -- Numerical-Experimental Analysis of the Sealing Efficiency Utilizing Stresses Produced to an Engine Gasket Manufactured by CRS of 1⁄4 Hardness with a Nitrile Coating on Both Sides -- 1 Introduction -- 2 Methodology for Performing Thermal Analysis -- 3 Solution and Results of Static Analysis with Thermal Loads -- 4 Conclusions -- References -- Low-Cost Model for the Estimation of Pollutant Emissions Based on GPS and Machine Learning -- 1 Introduction -- 2 Materials and Methods -- 2.1 Proposed Methodology -- 2.2 Data Collection in Real Driving Conditions -- 2.3 Test Routes -- 2.4 Estimation of Pollutants -- 3 Conclusions -- References -- Energy and Thermal Engineering -- Development of a Reactor Network Model to Predict Pollutant Emissions from Aviation Gas Turbines -- 1 Introduction -- 2 Methodology -- 3 Results -- 4 Conclusions -- References -- Electricity and Hydrogen Generation from Food and Vegetable Wastes - Technical and Economic Analysis -- 1 Introduction…”

“…It can decarbonate "hard-to-abate" sectors still relying on fossil fuels, turn low-carbon electricity into a fuel that can be transported using pipelines and provide a green transport alternative, in particular for heavy-duty and long-distance transport. …”

Tabla de Contenidos: “…4 Example Applications -- 5 Conclusions -- References -- Controlling Single Molecule Conjugated Oligomers and Polymers with DNA -- 1 Modular Self-Assembly of Molecular Components -- 2 Conjugated Polymers on DNA Origami -- 3 Work from Other Groups -- 4 Conclusion -- References -- Organizing Charge Flow with DNA -- 1 Origami's Rise -- 2 Making DNA Nanostructures Conductive Through Metallization -- 3 Decorating Origami -- 3.1 DNA Scaffolding for Conductive Metals -- 3.2 DNA Scaffolds for Conductive Polymers -- 3.3 DNA Scaffolds for Carbon Nanotubes -- 3.4 Highly Ordered, Three-Dimensional DNA-CNT Arrays -- 4 The Future of DNA-Organized Electronics -- 4.1 Making DNA More Electronic -- 4.2 Scaffolding Biocompatible Electronic Materials -- References -- DNA Assembly of Dye Aggregates-A Possible Path to Quantum Computing -- 1 Introduction -- 2 The Mathematical Structure of Reality -- 3 Quantum Computers -- 3.1 The Controlled NOT Gate -- 3.2 Quantum Parallelism -- 4 The Frenkel Exciton Hamiltonian -- 5 Energy Eigenvalues of a Homodimer Dye Aggregate and Davydov Splitting -- 6 Coherent Exciton Hopping -- 7 Exciton Transmission Lines -- 8 Representation of an Exciton Qubit -- 9 Basis Change Gates -- 10 Phase Gates -- 11 An Exciton Interferometer -- 12 A Controlled Phase Shift -- 13 A CNOT Gate -- 14 Exciton-Based Quantum Computer Architecture -- 15 But Isn't a Quantum Computer Just an Analog Computer? …”

Tabla de Contenidos: “…Chapter 7: Artificial intelligence-driven radio channel capacity in 5G and 6G wireless communication systems in the presence of vegetation: Prospect and challenges -- 7.1 Introduction -- 7.2 Radio wave attenuation due to vegetation -- 7.3 Embedded architecture: AI-DR vegetation attenuation prediction system -- 7.4 SCC prediction -- 7.5 Conclusions -- Acknowledgments -- References -- Chapter 8: Smart cabin for office using embedded systems and sensors -- 8.1 Introduction -- 8.1.1 Smart office -- 8.1.2 Motivation -- 8.1.3 Objectives -- 8.2 Cabin security -- 8.2.1 Fingerprint verification -- 8.2.2 Face verification -- 8.2.3 Speech verification -- 8.3 Ambiance monitor -- 8.3.1 Temperature and relative humidity -- 8.3.2 Carbon dioxide -- 8.3.3 Total volatile organic compound (TVOC) -- 8.3.4 Air pressure -- 8.3.5 Dust level -- 8.4 Well-being monitor -- 8.4.1 Physical health -- 8.4.2 Mental health -- 8.4.2.1 Fatigue state -- 8.4.2.2 Emotional state -- 8.5 Data transmission and display -- 8.6 Results -- 8.7 Conclusion -- Acknowledgments -- References -- Chapter 9: Wireless protocols for swarm of sensors: Sigfox, Lorawan, and Nb-IoT -- 9.1 Introduction -- 9.1.1 Basic communication infrastructure -- 9.2 Sigfox -- 9.2.1 Overview -- 9.2.2 Regions of operation -- 9.2.3 Technical characteristics -- 9.2.4 Sigfox diversity -- 9.2.5 Network architecture -- 9.2.6 Message system -- 9.2.7 Summary of characteristics -- 9.3 Lorawan -- 9.3.1 Overview -- 9.3.2 Characteristics -- 9.3.3 Uplink and downlink communication -- 9.3.4 Classes of operation -- 9.3.5 Network architecture -- 9.3.6 Message system -- 9.3.7 Characteristics summary -- 9.4 Nb-IoT -- 9.4.1 Overview -- 9.4.2 Characteristics -- 9.4.3 Message system -- 9.5 Conclusion -- References -- Chapter 10: Design and test of thermal energy harvester for self-powered autonomous electronic load -- 10.1 Introduction…”

Tabla de Contenidos: “…LOCOS-bound Lateral N-Well to N-Well Bipolar ESD Element 738 16.13 LOCOS-bound Lateral N+ to N-well Bipolar ESD Element 738 16.14 LOCOS-bound Lateral pnp Bipolar ESD Element 739 16.15 LOCOS-bound Thick Oxide MOSFET ESD Element 739 16.16 Shallow Trench Isolation 739 16.17 STI-bound ESD Structures 741 16.18 Substrate Modeling - Electrical and Thermal Discretization 746 16.19 Heavily Doped Substrates 750 16.20 Retrograde Wells and ESD Scaling 766 16.21 Triple Well and Isolated MOSFET CMOS 775 16.22 Summary and Closing Comments 779 References 779 17 ESD in Silicon on Insulator 783 17.1 Silicon on Insulator (SOI) Technologies 783 17.2 Elimination of CMOS Latchup 784 17.3 Lack of Vertical Bipolar Transistors 785 17.4 Floating Gate Tie Downs 785 17.5 Physical Separation of MOSFETs from the Bulk Substrate 785 17.6 SOI ESD Design Fundamental Concepts 786 17.7 SOI Lateral Diode Structure 791 17.8 Transistors - Bulk versus SOI Technology 791 17.9 SOI Buried Resistors (BR) Elements 796 17.10 Dynamic Threshold MOS (DTMOS) SOI MOSFET 797 17.11 SOI P+ Body Contact Abutting n+ Drain 798 17.12 Transmission Line Pulse (TLP) Testing of SOI Diode Designs 798 17.13 SOI ESD with MOSFET Drain and Body Width Ratio Variation 799 17.14 SOI Dual-Gate MOSFET Structure 799 17.15 SOI ESD Design - Mixed Voltage T-Shape Layout Style 800 17.16 SOI ESD Design: Double Diode Network 802 17.17 Bulk to SOI ESD Design Remapping 803 17.18 SOI ESD Diode Design Parameters 804 17.19 SOI ESD Design in Mixed Voltage Interface Environments 808 17.20 Comparison of Bulk with SOI ESD Results 809 17.21 SOI ESD Design with Aluminum Interconnects 810 17.22 SOI ESD Design with Copper Interconnects 812 17.23 SOI ESD Design with Gate Circuitry 813 17.24 Summary and Closing Comments 815 References 815 18 ESD in Analog Circuits 821 18.1 Analog Design Circuits 821 18.2 Single-ended Receivers 822 18.3 Schmitt Trigger Receivers 822 18.4 Differential Receivers 822 18.5 Comparators 824 18.6 Current Sources 825 18.7 Current Mirrors 825 18.8 Widlar Current Mirror 826 18.9 Wilson Current Mirror 826 18.10 Voltage Regulators 827 18.11 Buck Converters 828 18.12 Boost Converters 828 18.13 Buck-Boost Converters 829 18.14 Cuk Converters 830 18.15 Voltage Reference Circuits 830 18.16 Brokaw Bandgap Voltage Reference 830 18.17 Converters 831 18.18 Analog-to-Digital Converter (ADC) 831 18.19 Digital-to-Analog Converters (DAC) 832 18.20 Oscillators 832 18.21 Phase Lock Loop (PLL) Circuits 832 18.22 Delay Locked Loop (DLL) 833 18.23 Analog and ESD Design Synthesis 833 18.24 Analog Chip Architecture - Separation of Analog Power from Digital Power, AVDD-DVDD 836 18.25 ESD Failure in Phase Lock Loop (PLL) and System Clock 837 18.26 ESD Failure in Current Mirrors 837 18.27 ESD Failure in Schmitt Trigger Receivers 838 18.28 ESD Design Practice - Prevent ESD Failure in Schmitt Trigger 840 18.29 Analog-Digital Architecture: Isolated Digital and Analog Domains 841 18.30 ESD Protection Solution - Connectivity of AVDD-to-VDD 842 18.31 ESD Solution: Connectivity of AVSS-to-DVSS 843 18.32 Digital and Analog Domain with ESD Power Clamps 843 18.33 Digital and Analog Domain with Master-Slave ESD Power Clamps 846 18.34 High Voltage, Digital, and Analog Domain Floorplan 846 18.35 Floor-planning of Digital and Analog 846 18.36 Inter-domain Signal Lines ESD Failures 849 18.37 Digital-to-Analog Signal Line ESD Failures 849 18.38 Digital-to-Analog Core Spatial Isolation 851 18.39 Digital-to-Analog Core Ground Coupling 851 18.40 Digital-to-Analog Core Resistive Ground Coupling 852 18.41 Digital-to-Analog Core Diode Ground Coupling 852 18.42 Domain-to-Domain Signal Line ESD Networks 852 18.43 Domain-to-Domain Third-party Coupling Networks 853 18.44 Domain-to-Domain Cross-domain ESD Power Clamp 854 18.45 Digital-to-Analog Domain Moat 855 18.46 Analog and ESD Circuit Integration 855 18.47 Integrated Body Ties 856 18.48 Self-Protecting vs Non-self Protecting Designs 856 References 856 19 ESD in RF CMOS 865 19.1 CMOS and ESD 865 19.2 RF CMOS 865 19.3 RF CMOS and ESD 865 19.4 RF CMOS ESD Failure Mechanisms 865 19.5 RF CMOS - ESD Device Comparisons 866 19.6 RF ESD Metrics 867 19.7 Grounded Gate n-channel MOSFET versus STI Diode 868 19.8 Silicon-controlled Rectifier 869 19.9 SCR versus GGNMOS 869 19.10 Shallow Trench Isolation and Polysilicon Gated Diodes 869 19.11 RF ESD Design 870 19.12 RF ESD Design Layout - Circular RF ESD Devices 870 19.13 Disadvantage of RF ESD Circular Element 871 19.14 RF ESD Design - ESD Wiring Design 872 19.15 RF ESD Design - Loading Capacitance 872 19.16 Metal Capacitance 873 19.17 Analog Metal (AM) 873 19.18 RF ESD Design Practices 874 19.19 RF Passives - ESD and Schottky Barrier Diodes 874 19.20 Schottky Barrier Diodes and Metallurgy 875 19.21 Silicon Germanium Schottky Barrier Diodes 876 19.22 Schottky Barrier RF ESD Design Practice 877 19.23 RF Passives - ESD and Inductors 877 19.24 Quality Factor, Q 878 19.25 Incremental Model of an Inductor 878 19.26 Inductor Coil Parameters 878 19.27 RF Passives - ESD and Capacitors 882 19.28 Capacitors and RF Applications 882 19.29 Capacitors in ESD Networks 882 19.30 Types of Radio Frequency Capacitors 883 19.31 Metal-Oxide-Semiconductor and Metal-Insulator-Metal Capacitors 883 19.32 Varactors and Hyper-abrupt Junction Varactor Capacitors 884 19.33 Metal-ILD-Metal Capacitors 884 19.34 Vertical Parallel Plate (VPP) Capacitors 884 19.35 Tips: ESD RF Design Practices for Capacitors 885 19.36 Summary and Closing Comments 886 Problems 886 References 888 20 ESD in Silicon Germanium 891 20.1 Heterojunctions Bipolar Transistors 891 20.2 Silicon Germanium 891 20.3 Silicon Germanium HBT Devices 892 20.4 Silicon Germanium Device Structure 893 20.5 Silicon Germanium Film Deposition 894 20.6 Silicon Germanium Emitter-Base Region 895 20.7 Silicon Germanium Physics 895 20.8 Silicon Germanium Bandgap 896 20.9 Silicon Germanium Intrinsic Temperature 896 20.10 Position-dependent Silicon Germanium Profile 896 20.11 Position-dependent Intrinsic Temperature 897 20.12 SiGe Collector Current with Graded Germanium Concentration 897 20.13 Silicon Germanium ESD and Time Constants 898 20.14 Silicon Germanium Base Transit Time 898 20.15 Silicon Germanium Breakdown Voltages 898 20.16 Silicon Germanium ESD Measurements 899 20.17 Silicon Germanium Collector-to-Emitter ESD Stress 899 20.18 Transmission Line Pulse Testing of Silicon Germanium HBT 899 20.19 Transmission Line Pulse (TLP) I-V Characteristic 899 20.20 Wunsch-Bell Characteristic of Silicon Germanium HBT 901 20.21 Comparison of Silicon Germanium HBT and Silicon BJT 901 20.22 Wunsch-Bell Characteristic of SiGe HBT versus Si BJT 902 20.23 Intrinsic Base Resistance in SiGe HBT 904 20.24 SiGe HBT Electro-thermal HBM Simulation of Collector-Emitter Stress 904 20.25 Silicon Germanium Transistor Emitter-Base Design 905 20.26 Epitaxial-Base Hetero-Junction Bipolar Transistor (HBT) Emitter-Base Design 907 20.27 Self-aligned Silicon Germanium HBT Device 907 20.28 Non-Self Aligned Silicon Germanium HBT 908 20.29 Emitter-Base Design RF Frequency Performance Metrics 908 20.30 SiGe HBT Emitter-Base Resistance Model 909 20.31 SiGe HBT Emitter-Base Design and Silicide Placement 909 20.32 Silicide Material and ESD 910 20.33 Titanium Silicide and ESD 911 20.34 Cobalt Salicide 913 20.35 Self-aligned (SA) Emitter Base Design 914 20.36 Non-Self Aligned (NSA) Emitter Base Design 917 20.37 Non-Self Aligned HBT Human Body Model (HBM) Step Stress 918 20.38 Transmission Line Pulse (TLP) Step Stress 918 20.39 RF Testing of SiGe HBT Emitter-Base Configuration 921 20.40 Unity Current Gain Cutoff Frequency - Collector Current Plots 923 20.41 f MAX and f T 924 20.42 Electrothermal Simulation of Emitter-Base Stress 925 20.43 Field-Oxide (FOX) Isolation Defined Silicon Germanium Heterojunction Bipolar Transistor HBM Data 926 20.44 Silicon Germanium HBT Multiple-emitter Study 927 20.45 RF ESD Design Practice 927 20.46 Silicon Germanium ESD Failure Mechanisms 928 20.47 Summary and Closing Comments 928 References 928 21 ESD in Silicon Germanium Carbon 935 21.1 Heterojunctions and Silicon Germanium Carbon Technology 935 21.2 Silicon Germanium Carbon 935 21.3 Silicon Germanium Carbon Collector-Emitter ESD Measurements 937 21.4 Silicon Germanium Transistor Emitter-Base Design 940 21.5 Silicon Germanium Carbon - ESD-Induced S-Parameter Degradation 943 21.6 Silicon Germanium Carbon ESD Failure Mechanisms 945 21.7.…”

Tabla de Contenidos: “…Rembrandt -- Retrato con sanguina y carbón…”

Tabla de Contenidos: “…Vente de produits pétroliers soumis à la taxe carbone de la Colombie Britannique -- Marchés de capitaux et changement climatique -- Assurance : un moyen de composer avec le changement climatique - mais aussi de le réduire ? …”

Tabla de Contenidos: “…Encadré 10.4. Les puits de carbone et le Protocole de Kyoto…”

Tabla de Contenidos: “…Émissions de dioxyde de carbone et intensité des émissions -- Graphique 31. …”

Tabla de Contenidos: “…Émissions de gaz à effet de serre en équivalent dioxyde de carbone : 1995-97 -- Tableau 3. Émissions nettes de dioxyde de carbone liées aux changements d'affectation des terres... -- Tableau 4. …”

Tabla de Contenidos: “…6.2.2 Indirect particle heating receivers -- 6.2.2.1 Gravity-driven particle flow-through enclosures -- 6.2.2.2 Fluidized particle flow-through tubes -- 6.2.3 Summary of particle receiver technologies -- 6.3 Other high-performance receiver designs -- 6.3.1 Light-trapping receiver designs -- 6.3.1.1 Surface features -- 6.3.1.2 Spiky receiver -- 6.3.1.3 Bladed geometries -- 6.3.1.4 Fractal-like geometries -- 6.3.2 Air curtains -- 6.4 Summary and conclusions -- Acknowledgments -- References -- 7 - Next generation of liquid metal and other high-performance receiver designs for concentrating solar thermal (CST) central tower -- 7.1 Introduction -- 7.2 Thermophysical properties of liquid metals -- 7.3 Liquid metals in central receiver systems -- 7.3.1 Experience in central receiver systems -- 7.3.2 The CRS-SSPS project of the International Energy Agency -- 7.3.3 Other projects with liquid metals in solar receivers -- 7.4 Innovative power conversion cycles with liquid metals as heat transfer fluid -- 7.5 Conclusions and outlook -- References -- 4 - Advances in the power block and thermal storage systems -- 8 - Supercritical CO2 and other advanced power cycles for concentrating solar thermal (CST) systems -- 8.1 Introduction -- 8.2 Stand-alone cycles -- 8.2.1 Steam Rankine cycles -- 8.2.2 Gas Brayton cycles -- 8.2.2.1 Air Brayton cycle -- 8.2.2.2 Helium Brayton cycle -- 8.2.2.3 Supercritical carbon dioxide Brayton cycles -- Simple cycle -- Recompression cycle -- Partial cooling cycle -- 8.2.3 Comparison of the presented cycles -- 8.3 Combined cycles -- 8.3.1 Organic Rankine cycle -- 8.3.2 Supercritical organic Rankine cycle -- 8.3.3 Absorption power cycles -- 8.3.3.1 Kalina cycle -- 8.3.3.2 Goswami cycle -- 8.4 Summary and conclusions -- References -- 9 - Advances in dry cooling for concentrating solar thermal (CST) power plants -- 9.1 Introduction…”

Tabla de Contenidos: “…Ionic liquids in green energy -- 3.1 Conversion of CO2 into fuel or fuel components -- 3.2 Conversion of CO2 -- 3.2.1 Carbon monoxide -- 3.2.2 Formic acid -- 3.2.3 Alcohols -- 3.3 Biomass conversion to biofuels -- 3.4 Biodiesel -- 3.5 Electrochemical sensors -- 3.6 Carbon nanotubes -- 3.7 Energy storage devices -- 3.7.1 Li-ion batteries -- 3.7.2 Vanadium redox flow batteries -- 4. …”

Tabla de Contenidos: “….) -- CONCLUSIONES -- NOTAS DE REFERENCIA -- BIBLIOGRAFÍA CITADA -- BIBLIOGRAFÍA -- LOS AUTORES -- MARÍA DEL PILAR BOLPE -- NICOLÁS CAMPODÓNICO -- NORA CARBONE -- JULIETA DE BATTISTA -- ANAHÍ EVANGELINA ERBETTA -- MARTINA FERNÁNDEZ RAONE -- MARINA FOGOLA ARENA -- MARA GARCÍA -- MERCEDES KOPELOVICH -- ANDREA LÓPEZ BONANNI -- DIANA EDITH LOZANO -- MARÍA INÉS MACHADO -- JULIA MARTIN -- NICOLÁS A: MAUGERI -- MARÍA LUJÁN MORENO -- GRAZIELA NAPOLITANO -- GASTÓN PIAZZE -- MARÍA CRISTINA PIRO -- MARÍA ROMÉ -- ESTELA SOENGAS -- GRACIELA SOSA CÓRDOBA -- JESICA VARELA -- LUIS HORACIO VOLTA -- SILVIA ZAMORANO -- SERGIO ZANASSI…”

Tabla de Contenidos: “…Cover -- Copyright -- Contents -- Chapter 1: Pollutants in groundwater -- 1.1 Introduction -- 1.2 Pollution Sources -- 1.3 Relevant Classes of Contaminants -- 1.3.1 Inorganic species -- 1.3.1.1 Arsenic -- 1.3.1.2 Fluoride -- 1.3.1.3 Nitrogen species -- 1.3.1.4 Metals -- 1.3.2 Organic pollutants -- 1.3.2.1 Aromatic hydrocarbons (BTEX) -- 1.3.2.2 Chlorinated hydrocarbons -- 1.3.2.3 Pesticides -- 1.3.2.4 Polycyclic aromatic hydrocarbons -- 1.3.2.5 Polychlorinated biphenyls -- 1.3.3 Chemicals of emerging concern -- 1.3.3.1 Pharmaceuticals -- 1.3.3.2 Endocrine disrupting compounds (EDCs) -- 1.4 References -- Chapter 2: Filtration materials for groundwater treatment -- 2.1 Introduction -- 2.2 Extraction of Ions of Toxic Metals from Groundwater by Sorbents, Ion Exchangers -- 2.3 Reactive Materials -- 2.4 The Use of Production Wastes in Groundwater Treatment -- 2.5 Biological Active Media -- 2.6 References -- Chapter 3: Technologies for ground water treatment -- 3.1 Pump-and-treat technologies -- 3.1.1 Introduction -- 3.1.2 Site Characterizations -- 3.1.3 Treatment Methods -- 3.1.3.1 Membrane filtration -- 3.1.3.2 Forward osmosis -- 3.1.3.3 Nanotechnologies -- 3.1.3.4 Electrocoagulation -- 3.1.3.5 Electrodialysis -- 3.1.3.6 Adsorption -- 3.1.3.7 Chemical oxidation -- 3.1.3.7.1 Ozone chemistry -- 3.1.3.8 Metal precipitation -- 3.1.3.8.1 Hydroxide precipitation -- 3.1.3.8.2 Sulfide precipitation -- 3.1.3.8.3 Carbonate precipitation -- 3.1.3.9 Ion exchange -- 3.1.3.10 UV treatment -- 3.1.3.11 Biodegradation -- 3.1.4 Summary -- 3.1.5 Conclusion -- 3.1.6 References -- 3.2 Near-well subsurface treatment technologies for sustainable drinking water production -- 3.2.1 Introduction -- 3.2.2 The Challenge and Potential for OMP Removal Using Subsurface Reactors -- 3.2.3 Subsurface Reactors: Characteristics and Specifics…”

Tabla de Contenidos: “…L'utilisation de puits de carbone dans le cadre de la Stratégie nationale de lutte ... -- Tableau 21. …”

Tabla de Contenidos: “…Sci. 2021, 22, 1884, doi:10.3390/ijms22041884 125 -- George Anderson, Annalucia Carbone and Gianluigi Mazzoccoli -- Tryptophan Metabolites and Aryl Hydrocarbon Receptor in Severe Acute Respiratory -- Syndrome, Coronavirus-2 (SARS-CoV-2) Pathophysiology -- Reprinted from: Int. …”