In industrial catalysis, alkali cations are frequently used to promote activity or selectivity. Scanning tunneling microscopy, ambient-pressure X-ray photoelecron spectroscopy, and density-functional calculations were used to study the structure and reactivity of potassium oxides in contact with the Au(111) surface. Three different types of oxides (K 2 O 2 , K 2 O and KO y with y < 0.5) were observed on top of the gold substrate at 300-525 K. Initially, small aggregates of K 2 O 2 /K 2 O (1-2nm in size) were seen at the elbows of the herringbone structure. After increasing the K coverage (> 0.15 ML), large islands of the oxide (20-40 nm in size) appeared. These islands contained a mixture of K 2 O and KO y (y < 0.5). A key correlation was found involving the structure, oxidation state, and chemical activity of the alkali oxide. The small aggregates of potassium oxide had a very high catalytic activity for the oxidation of CO, being much more than plain promoters.