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Well-researched reference on stable alternative electrocatalysts and electrode materials with the potential to transform chemistry and processes in sensor and energy related technologies.
Applied Polyoxometalate-based Electrocatalysis delivers an overview of the variety of efficient applications of free POM and POM-based (nano)composites as exciting materials in the field of electrocatalysis. With a variety of sizes, shapes, composition, and physical and chemical properties, these composites have important properties, such as the ability to undergo reversible multivalence reductions/oxidations, leading to the formation of mixed-valence species, which brings about favorable electrocatalytic properties with regard to several electrochemical processes.
Edited by a highly qualified independent researcher internationally recognized for her contributions to materials for electrochemical energy-related reactions, Applied Polyoxometalate-based Electrocatalysis includes information on:
General methodologies used in the preparation of free POMs and POM-based nanocomposites and different strategies employed in electrode modification
Role of POM-modified electrodes in oxidative and reductive electrocatalysis, including the detection/sensing of several (bio)molecules of interest and carbon dioxide electroreduction.
Application of POM-based (nano)composites, including the oxygen reduction reaction relevant to fuel cells, the oxygen and hydrogen evolution reactions, and batteries and supercapacitors.
Applied Polyoxometalate-based Electrocatalysis is an essential reference on the subject for chemists, material scientists, chemical engineers, and institutions involved in work related to free POM and POM-based (nano)composites.
Introduction to Polyoxometalates
Design and Strategies to Enhance the Electrochemical Properties of POM Nanomaterials for Electrocatalysis
POM-based Electrocatalysts for L-Cysteine and NADH Oxidation
POM-based Electrocatalysts for Pharmaceutical Molecules Oxidation
POM-based Electrocatalysts for Inorganic Water Contaminants and Hydrogen Peroxide Reduction
POM-based Electrocatalysts for Carbon Dioxide Reduction
POM-based Electrocatalysts for Oxygen Evolution Reaction
POM-based Electrocatalysts for Hydrogen Evolution Reaction
POM-based Electrocatalysts for Oxygen Reduction Reactions
POM-based Nanomaterials for Battery Applications
POM-based Nanomaterials for Supercapacitors