Formate species have been proposed to be either critical intermediates or spectators in the water–gas shift (WGS) and methanol synthesis processes. CeO x –Cu y O/Cu(111) has been shown to be a very active inverse catalyst for the WGS reaction. We present here the study of formate species obtained from the deprotonation of formic acid (HCOOH) on the inverse catalysts. Exposure of CeO x –Cu y O/Cu(111) to HCOOH at 300K leads to the formation of formates on both ceria and Cu sites. The formates isolated on CeO x –Cu y O/Cu(111) systems cannot be hydrogenated even at a pressure of 200Torr H 2 at 300–350K. The formate species localized on ceria sites are thermally more stable than those on Cu sites, and the thermal decomposition of all of the formates occurs by dehydrogenation releasing CO 2 and H 2 . Evidence of reverse spillover of formates from the oxide to the metal was observed on CeO 2−x /Cu(111) inverse catalysts.