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Chapter
Electronic Modulation of Electrocatalysts for Enhanced Water Electrolysis
In this chapter, we discuss electronic modulation techniques that can enhance the performance of electrocatalysts in water electrolysis. The effects of cation do**, heteroatom do**, and the creation of oxy...
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Chapter
Single-Atom Catalyst for Electrochemical Water Splitting
This chapter provides an in-depth exploration of single-atom catalysts (SACs) for electrochemical water splitting. We compare and contrast the features of nanoparticles and SACs, emphasizing the unique propert...
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Chapter
Electrode Setups and Water Electrolysis Technologies
This book chapter offers an inclusive summary of electrode setups and water electrolysis technologies, focusing on electrocatalysts, their function, and their role in electrode potential. The chapter discusses...
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Chapter
Emerging Electrocatalytic Strategies for Hydrogen Production from Water
This chapter explores emerging electrocatalytic strategies for efficient and sustainable hydrogen production from water. First, conventional water electrolysis is discussed, along with its associated challenge...
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Chapter
Electrochemical Methods for Measuring Water Splitting Efficiency
This chapter provides a comprehensive overview of various electrochemical methods for measuring water-splitting efficiency. The discussed techniques include cyclic voltammetry, electrochemical impedance spectr...
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Chapter
Bottlenecks in Water Electrolysis: A Comprehensive Exploration for Hydrogen Production
In this chapter, we comprehensively explore the bottlenecks that hinder efficient hydrogen production through water electrolysis. Various challenges related to membrane use in electrolysis, including selectivi...
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Chapter
Structural Modification of Electrocatalysts for Enhanced Water Electrolysis
This book chapter is a detailed examination of the structural modification of electrocatalysts for achieving enhanced water electrolysis. First, the chapter provides an extensive analysis of the surface struct...
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Chapter
Electrocatalysis Fundamentals for OER and HER
This chapter provides an extensive review of the fundamental principles underlying electrocatalysis in the context of electrochemical water splitting, focusing on the oxygen evolution reaction (OER) and hydrog...
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Chapter
Emerging Techniques for the Synthesis of Self-supported Electrocatalysts
This chapter provides an in-depth overview of emerging techniques for synthesizing self-supported electrocatalysts. The chapter begins by discussing the essential role of electrocatalysts in enhancing electroc...
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Chapter
Best Practices for Accurately Reporting Electrocatalytic Performance of Nanomaterials
This chapter provides a comprehensive overview of recommended guidelines for the precise reporting of the electrochemical performance of nanomaterials. The chapter covers various critical aspects of electrocat...
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Chapter
Integrated OMIC Approaches for Bioenergy Crops
This book chapter discusses the application of integrated OMIC approaches for bioenergy crops. OMIC technologies such as genomics, transcriptomics, proteomics, and metabolomics have been increasingly used to i...
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Chapter
Strategies to Evaluate Nanoremediation Efficiency
Water, soil, and air contamination pose serious dangers to both the environment and human health, on a global scale. There are several developed remediation strategies, including traditional ones like heat tre...
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Chapter
Rice Interactions with Plant Growth Promoting Rhizobacteria
Rice is an important cereal crop that serves as a staple food for half of the world population. The rhizosphere of the rice contributes to its nutrition where plant growth promoting rhizobacteria (PGPR) play a...
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Chapter
Electrocatalysis for the Water Splitting: Recent Strategies for Improving the Performance of Electrocatalyst
Hydrogen, due to its high energy density (over 4 times per kg energy capacity compared to that of petrol or diesel) and clean-burning characteristics (water being the sole by-product), is an ideal fuel. It can...