In this work, amine-impregnated activated carbon was prepared from oil sands coke, for use in CO2 capture. Delayed oil sands coke was activated using microwave heating and KOH as activation agent. The resulting material was then impregnated with one of diethanolamine, methyl diethanolamine, or tetraethylene pentamine. Analysis of the bulk and surface composition of the impregnated samples using elemental analysis and X-ray photoelectron spectroscopy suggested that the amines were deposited on the surface of the activated carbon. Materials impregnated with diethanolamine performed best for CO2 capture; the highest adsorption capacity achieved was 5.63 mmol CO2/g adsorbent for activated carbon impregnated with 1.15 mmol N/g activated carbon nearly 75% higher than reported values for zeolite 13X. Adsorption of CO2 on the amine impregnated activated carbon at 40, 50, 60, and 75 degrees C showed that the highest adsorption capacity was obtained at 50 degrees C. Using oil sands delayed coke as a precursor for activated carbon transformed a petroleum waste material into an effective CO2 adsorbent. Modifying the prepared activated carbon with amines improved CO2 uptake capacity, creating a useful adsorbent for potential use in CO, capture.