In the current study, a new type of composite adsorbent was synthesized by amine modification of binder-containing zeolite 4A bodies and its potential application in the post-combustion CO, capture was evaluated. A wide range of aliphatic straight chain amines such as propylamine (PA), butylamine (BA), pentylamine (PEA), and their respective branched chain amines, iso-propylamine (IPA), iso-butylamine (IBA), and iso-pentylamine (IPEA), were used in a smaller fraction to modify binder-containing zeolite 4A bodies. The synthesized materials were characterized by various spectroanalytical techniques to elucidate the effect of amine modification on physicochemical properties of binder-containing zeolite 4A bodies and its reactivity for CO, capture. Among all of the studied hybrid adsorbents, the iso-butylamine-modified binder-containing zeolite 4A bodies (IBA-Z4A) exhibited excellent CO2 adsorption performance with a maximum adsorption capacity of 2.56 mmol g(-1) at 25 degrees C and 1 bar of pressure. Notably, IBA-Z4A also demonstrated excellent purity (98%) and remarkably high CO2/N-2 selectivity (335) as compared to the pristine binder-containing zeolite 4A bodies (24). Such enhanced CO2 adsorption capacity and high CO2/N-2 selectivity values for IBA-Z4A can be attributed to the symbiotic interactions between CO2 and amines governed by the basicity, electron density at the N atom of amines, and the steric effect of adsorbing molecules (CO2 and N-2) at the adsorbent surface. Notably, IBA-Z4A also displayed a marginal isosteric heat of adsorption for CO2 (51 kJ mol(-1)) along with the encouraging thermochemical cyclic stability over five consecutive CO2 adsorption desorption cycles at 25 degrees C and 1 bar, believed to be the best suited for post-combustion CO2 capture.