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This handbook focuses on electrocatalytic materials, a field that has experienced significant advancements in recent decades, primarily driven by nanoscale catalyst design improvements. These advancements have been crucial in the development and enhancement of alternative energy technologies relying on electrochemical reactions. Electrocatalytic materials play a vital role in reducing over-potentials required for electrochemical device operation. As a prominent subset of catalysts, they facilitate essential reactions for energy conversion and storage through electron transfer processes. However, studying electrocatalytic materials presents challenges due to complex reaction networks, diverse selectivity possibilities, and intricate reaction mechanisms.
This book offers an extensive description of electrocatalysis and the materials used in electrocatalytic processes. It covers cutting-edge studies and in-depth discussions on the applications of electrocatalytic materials in energy conversion and storage (including fuel cells, water splitting, batteries, etc.), sensors, and other potential applications. It also addresses the broader implications of electrocatalysis in academia and industry. Each section of the book highlights the latest developments, contemporary challenges, and state-of-the-art investigations aimed at producing valuable outcomes for end users. With contributions from diverse experts, this comprehensive resource is essential for researchers, scientists, industrialists, educators, and students.
High-Entropy Coordination Compounds and Their Derivatives as Electrocatalytic Materials
Carbon Nanotubes as an Effective Electrocatalytic Material
Graphene and Its Perspective Application as Electrocatalytic Materials
Graphene-Based Electrocatalytic Materials for Fuel Cells
Metal Oxide-Based Materials for Urea Oxidation Reaction
Metal Oxide-Based Electrocatalytic Materials
Optimizing the Electrocatalytic Discovery with Machine Learning as a Novel Paradigm
Earth-Abundant Electrocatalytic Material for Electrochemical Water Splitting
Graphene Quantum Dots-Based Electrocatalytic Materials For Electrochemical Water Splitting
Graphene-Based Electrocatalytic Materials Towards Electrochemical Water Splitting
Metal Oxide-Based Electrocatalytic Materials for Overall Water Splitting
Metal–Organic Framework as Electrocatalyst in Electrochemical Water Splitting
A Novel on Performance Analysis of Proton Exchange Membrane Fuel Cell System with Metaheuristic Optimization Based MPPT Controller
Numerical Simulation of Methylammonium Tin Bromide Based Perovskite Solar Cells
Nanotechnology Carriers for the Management, Electrochemical Detection and Diagnosis of Glaucoma
Exploring Chitosan Hydrogels: Electrochemical Detection to Biomedical Applications
Effect of Micro and Nano Reinforcement Materials on Mechanical and Electrochemical Properties of Aluminum Matrix Composites
Liquid Chromatography and Electrochemical Mass Spectrometry Based Detection of Vilazodone from Biological Matrices
Electrocatalytic Materials in Physiotherapy: Advancing Rehabilitation and Pain Management
Green Battery: Sustainable Way of Energy Storage