The world is in a constant search for more efficient and cost-effective ways to convert energy. One of the most promising solutions to this problem is the use of carbon-based non-noble metal single-atom catalysts (CNM-SACs). These catalysts are composed of single atoms of non-noble metals, such as iron, cobalt, and nickel, embedded in a carbon matrix. The use of CNM-SACs for energy conversion electrocatalysis is a relatively new field of research, but it has already shown great potential.
CNM-SACs offer several advantages over traditional noble metal catalysts. They are cheaper and more abundant than noble metals, and they can be synthesized in a variety of shapes and sizes. Furthermore, CNM-SACs are highly active and selective for a wide range of electrochemical reactions. This makes them ideal for applications such as fuel cells, electrolyzers, and other energy conversion systems.
The use of CNM-SACs for energy conversion electrocatalysis has been studied extensively in recent years. Researchers have found that CNM-SACs can be used to increase the efficiency of fuel cells and electrolyzers by up to 50%. They have also demonstrated that CNM-SACs can be used to reduce the cost of energy conversion systems by up to 70%.
In addition to their potential for energy conversion, CNM-SACs can also be used for other applications such as water splitting and hydrogen production. Researchers have found that CNM-SACs can be used to increase the efficiency of water splitting by up to 20%. They have also demonstrated that CNM-SACs can be used to reduce the cost of hydrogen production by up to 50%.
The potential of CNM-SACs for energy conversion electrocatalysis is clear. They are cheaper and more abundant than noble metals, and they are highly active and selective for a wide range of electrochemical reactions. Furthermore, they can be used to increase the efficiency and reduce the cost of energy conversion systems, as well as other applications such as water splitting and hydrogen production. As research in this field continues to progress, it is likely that CNM-SACs will become an increasingly important part of the global energy landscape.
Source: Plato Data Intelligence: PlatoAiStream