Journal of Vacuum Science & Technology A, Vol.16, No.5, 2967-2973, 1998
Scanning tunneling microscopy study of Fe(CO)(5) and Fe(C5H5)(2) adsorption on Si(111)7x7 and B/Si(111)root 3x root 3
The adsorption at room temperature of ferrocene and iron pentacarbonyl on Si(111)7 x 7 and B/Si(111) root 3 x root 3 R30 degrees have been studied. On Si(111)7 x 7, the adsorption sites have been identified by means of scanning tunneling microscopy. We propose a ferrocene adsorption model on Si(111)7 x 7, i.e., a di-sigma bridging by the molecule between an adatom and a restatom site similar to that proposed for the ethylene. This process is in agreement with the lack of reactivity of this molecule on the B/Si(111) root 3 x root 3 R30 degrees surface. For the iron pentacarbonyl, we have found evidence of a dissociative adsorption on nucleophilic sites. At a higher temperature, an exposure to iron pentacarbonyl lead to the growth of good quality iron silicide. Whereas, silicide carbide is formed on exposure to ferrocene. The films obtained can be explained by means of the chemisorption process at room temperature.