Hydrogen generation by water electrolysis involves a pair of chemical reactions known as hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). The nature of OER is usually more sluggish kinetically due to the involvement of 4 electrons whereas HER only requires 2 electrons, indicating higher over-potential requirement at the anode where OER occurs. Due to the difficulties of finding the optimal OER catalyst for oxidative environment, it has been decided to replace OER with UOR (Urea Oxidation Reaction) that consumes lesser energy. Urea oxidation reaction (UOR) is able to decrease the over-potential requirement at the anode in order to improve the efficiency of hydrogen generation at the cathode due to the presence o...
Hydrocarbon fuels are a primary source of energy worldwide, but this resource is quickly becoming de...
Water electrolysis is a promising solution to convert renewable energy sources to hydrogen as a high...
Hydrogen (H2) has been regarded as the most promising energy carrier and is predicted to address glo...
Currently, hydrogen production is based on the reforming process, leading to the emission of polluta...
Urea-rich waters are an abundant waste and a source of toxic ammonia emissions1 and nitrate contamin...
Renewable energy-driven hydrogen generation from water electrolysis has been widely recognized as a ...
The electrolysis of water to produce hydrogen gas may form an important part of the world’s future e...
The world population is growing at a rate untenable for our current energy resources to keep up with...
High‐performance water‐splitting electrocatalysts are needed by the energy sector for sustainable hy...
For decades, people have been seeking clean energy sources after realizing the potential hazards of ...
The hydrogen economy is attracting a great deal of attention from governments and major oil companie...
Earth-abundant and highly efficient electrocatalysts for the hydrogen evolution reaction (HER) and o...
The growing demand of energy coupled with the limited supply of the major energy sources such as fos...
Developing sustainable and environmental friendly energy and energy storage devices is highly desira...
Electrochemical water splitting is a catalytic process in which water molecule can be catalytically ...
Hydrocarbon fuels are a primary source of energy worldwide, but this resource is quickly becoming de...
Water electrolysis is a promising solution to convert renewable energy sources to hydrogen as a high...
Hydrogen (H2) has been regarded as the most promising energy carrier and is predicted to address glo...
Currently, hydrogen production is based on the reforming process, leading to the emission of polluta...
Urea-rich waters are an abundant waste and a source of toxic ammonia emissions1 and nitrate contamin...
Renewable energy-driven hydrogen generation from water electrolysis has been widely recognized as a ...
The electrolysis of water to produce hydrogen gas may form an important part of the world’s future e...
The world population is growing at a rate untenable for our current energy resources to keep up with...
High‐performance water‐splitting electrocatalysts are needed by the energy sector for sustainable hy...
For decades, people have been seeking clean energy sources after realizing the potential hazards of ...
The hydrogen economy is attracting a great deal of attention from governments and major oil companie...
Earth-abundant and highly efficient electrocatalysts for the hydrogen evolution reaction (HER) and o...
The growing demand of energy coupled with the limited supply of the major energy sources such as fos...
Developing sustainable and environmental friendly energy and energy storage devices is highly desira...
Electrochemical water splitting is a catalytic process in which water molecule can be catalytically ...
Hydrocarbon fuels are a primary source of energy worldwide, but this resource is quickly becoming de...
Water electrolysis is a promising solution to convert renewable energy sources to hydrogen as a high...
Hydrogen (H2) has been regarded as the most promising energy carrier and is predicted to address glo...