Self-activation of catalyst and functionalization of metal surfaces

Why can solid surfaces promote a variety of chemical reactions? We supposed that active sites or active compounds are formed over the catalyst surface during catalysis or in pretreatment. Three topics are discussed from this viewpoint in this review. The first topic is an activation of inactive MoO_x film to super-active olefin metathesis catalyst, where Mo=CHR sites are prepared on MoO_x. A total mechanism for the productive and the cross metathesis of propene was firstly established on an activated catalyst by using deuterium labeled olefins. In the second topic, a new concept of quasi-compounds is discussed by using scanning tunneling microscopy (STM), and it is shown that the reaction of quasi-compounds yields (Cu)₆ cluster and (–Cu–O–) strings on Ag(110). In the third topic, a self-activation of Pt–Rh alloy and Pt/Rh bimetallic surfaces during the reaction of NO + H₂ is discussed by using single crystal surfaces. STM image showed that a Pt–Rh(100) surface is activated by reacting with oxygen where a specific array of Pt and Rh atoms is established. Formation of similar active sites on the other crystallographic surfaces is responsible for structure insensitive catalysis of Pt/Rh bimetallic surfaces.