What is induced catalysis?

Induced catalysis is a type of catalysis that occurs when the presence of a catalyst causes a chemical reaction to occur more quickly or efficiently. In induced catalysis, the catalyst itself is not consumed during the reaction, but rather it serves to activate the reactant molecules, allowing them to react more readily. This can be achieved through a variety of mechanisms, such as by providing an alternative, lower energy pathway for the reaction to take place, or by bringing the reactant molecules into closer proximity to each other.

Induced catalysis can be used in a wide range of chemical reactions, including those that involve the synthesis of chemical compounds, the breakdown of compounds, and the conversion of one compound into another. It can also be used to improve the yield, selectivity, and overall efficiency of chemical reactions, making it an important tool in many industrial processes.

There are many different types of catalysts that can be used in induced catalysis, including metals, metal complexes, enzymes, and even light or heat. The choice of catalyst will depend on the specific reaction being performed and the conditions under which it is being carried out.