Koji Tanaka is one of the few scientists who use organometallic complexes as a catalyst for multi-electron reduction reactions. In 1993, Tanaka reported that RuII(bpy)(trpy)(CO) (bpy = 2,2 '-bipyridine, trpy = 2,2': 6',2"-terpyridine) acts as a catalyst, at −1.7V (vs. NHE), for the reduction of CO2 to generate products of economic value like CO, HCOOH, CH3OH, HC(O)H, and products involving C–C bond formation like H(O)CCOOH and HOCH2COOH. In 1994, Tanaka speculated a complete catalytic cycle; however, the detailed information was not available on each intermediate of the reaction. Therefore, we relied on theoretical calculations to analyze each step of the reaction in terms of reduction potential, pKa values, and free energy, to explore the feasibility of the reaction, thereby understanding more of the reaction mechanism than what Tanaka hypothesized. In addition to RuII(bpy)(trpy)(CO), we speculate that RuII (trpy) (OBQ) (CO) (OBQ = ortho-benzoquinone) can act as a catalyst for the CO2 reduction reaction. RuII(trpy)(OBQ)(CO) as a non-innocent ligand and RuII(bpy)(trpy)(CO) as an innocent ligand were compared to determine whether the degree of electron delocalization between the metal and the ligands significantly affects the catalytic ability for CO2 reduction and to determine the catalytic pathways. We successfully predicted the mechanism of CO2 reduction with two different types of ligands (innocent and non-innocent). A non-innocent ligand has the advantage of reducing CO to form methanol easily on the complex, but the CO2 activation after removal of methanol on ethanol is weaker than innocent ligand system (bpy).