Abstract
The consequences of increased fossil fuel consumption on the environment presents a challenge. Carbon dioxide capture is a useful technique to reduce global warming. Therefore, three carvedilol metal (nickel, cobalt, and copper) complexes were synthesized as potential carbon dioxide storage media. The structural and textural properties of metal carvedilol complexes have been established using various techniques. The metal complexes have mesoporous structures in which pore size was approximately 3 nm. Particle size ranged from 51.0 to 393.9 nm with a relatively small surface area (6.126-9.073 m(2)/g). The carvedilol metal complexes have either type-III or IV nitrogen adsorption-desorption isotherm. The complexes showed reasonable capacity towards carbon dioxide uptake (up to 18.21 cm(3)/g) under the optimized condition (40 bar and 323 K).