Limit search to available items
Did you mean Potentiometer? more »
51 results found. Sorted by relevance | date | title .
Book Cover
E-book
Author Haq, Tanveer ul

Title Electrochemical Water Splitting Fundamentals, Challenges and Advances
Published Singapore : Springer, 2024

Copies

Description 1 online resource (269 p.)
Series Materials Horizons: from Nature to Nanomaterials Series
Materials Horizons: from Nature to Nanomaterials Series
Contents Intro -- Contents -- About the Authors -- Abbreviations -- 1 Electrocatalysis Fundamentals for OER and HER -- 1.1 Hydrogen Energy: A Sustainable Future -- 1.2 Hydrogen Production Technologies -- 1.3 Electrochemical Water Splitting -- 1.4 Mechanism of Hydrogen Evolution Reaction -- 1.5 Mechanism of Oxygen Evolution Reaction -- 1.6 OER Mechanism with Consideration of Spin -- 1.7 d-Band Theory for HER -- 1.8 d-Band Theory for OER -- 1.9 Thermodynamics of Electrochemical Water Splitting -- References -- 2 Electrode Setups and Water Electrolysis Technologies -- 2.1 Introduction
2.2 Voltage and Potential -- 2.3 Electrocatalysts: Function and Role in Electrode Potential -- 2.3.1 Working Electrode -- 2.3.2 Reference Electrode -- 2.3.3 Counterelectrode -- 2.4 Electrode Setups: From 2 to 3 Electrode Systems -- 2.5 Water Electrolysis Technologies -- 2.5.1 Alkaline Water Electrolyzer (AWE) -- 2.5.2 Proton Exchange Membrane Water Electrolyzer (PEMWE) -- 2.5.3 Solid Oxide Electrolysis Cell (SOEC) -- 2.6 Stability of Precious and Non-precious Metals in Different Medium -- References -- 3 Emerging Techniques for the Synthesis of Self-supported Electrocatalysts
3.1 Role of Electrocatalyst -- 3.2 Self-supported Electrocatalyst -- 3.3 Comparative Study of Different Synthesis Techniques for Self-supported Electrocatalysts -- 3.3.1 Electrodeposition -- 3.3.2 Hydro/solvothermal Synthesis -- 3.3.3 Supercritical Hydro/solvothermal Process -- 3.3.4 Chemical Vapor Deposition for the Development of Self-supported Electrocatalyst -- References -- 4 Electrochemical Methods for Measuring Water Splitting Efficiency -- 4.1 Electrochemical Methods -- 4.1.1 Cyclic Voltammogram -- 4.1.2 Electrochemical Impedance Spectroscopy -- 4.1.3 Tafel Plots
4.1.4 Exchange Current Density -- 4.1.5 Turnover Number and Turnover Frequency -- 4.1.6 Faradic Efficiency -- 4.1.7 Chronoamperometry and Chronopotentiometry -- 4.1.8 Corrosion Experiment -- 4.1.9 Electrochemical Active Surface Area -- References -- 5 Best Practices for Accurately Reporting Electrocatalytic Performance of Nanomaterials -- 5.1 Introduction -- 5.2 Electrolyte Preparations -- 5.2.1 Removal of Fe Impurities -- 5.3 How to Reliably Report the Overpotential -- 5.4 How to Calculate the Tafel Slope -- 5.4.1 Tafel Plot from Polarization Curve
5.4.2 Tafel Plot from Amperometry/Potentiometry -- 5.4.3 Tafel Slope from EIS -- 5.5 How to Properly Report TOF -- 5.5.1 Redox Peak Integration -- 5.6 Double-Layer Capacitance -- 5.7 Mass and Specific Activity -- 5.7.1 BET Surface Area Normalized Activity -- 5.7.2 ECSA Normalized Activity -- 5.8 Faradic Efficiency and Its Significance -- References -- 6 Bottlenecks in Water Electrolysis: A Comprehensive Exploration for Hydrogen Production -- 6.1 Challenges in Water Electrolysis -- 6.2 Membrane Challenges in Electrolysis -- 6.3 Metal Corrosion -- 6.3.1 Solution Composition and Concentrations
Notes Description based upon print version of record
6.3.2 Diffusion Rate of Ions
Genre/Form Electronic books
Form Electronic book
Author Haik, Yousef
ISBN 9789819998609
9819998603