FTIR Study of CO₂ Adsorption on Amine-Grafted SBA-15: Elucidation of Adsorbed Species

Citations Over TimeTop 10% of 2011 papers

Abstract

The interaction between amines and CO2 offers a possible route for the catalytic activation of CO2. In situ infrared spectroscopy was used to study the interaction of CO2 with amine-grafted SBA-15. We employed three different types of amine-grafted SBA-15 surfaces to quantify the effect distinct tethered amine moieties have on the chemistry of CO2 interacting with amine-grafted SBA-15. When the SBA-15 surface has a low density of amines and is “capped” to mitigate against interactions with surface-bound moieties, no new chemical species are observed on exposure to carbon dioxide. An ionic carbamate and a surface-bound carbamate are observed on the other SBA-15 surfaces on exposure to CO2. The formation of carbamates decreases the bond order of the carbon oxygen bond of the carbon dioxide molecule. The role of the different amine moieties and the surface silanol groups in the formation of the carbamates is discussed. Our results suggest that controlling the local environment around surface-grafted amines, which could be achieved by the use of suitably engineered surface environments, could facilitate the adsorption and activation of CO2.

Related Papers

• → Adsorption Species Distribution and Multicomponent Adsorption Mechanism of SO₂, NO, and CO₂ on Commercial Adsorbents(2017)51 cited
• → Adsorption of methylene blue and bright blue dyes on bayleaf capertree pods powder: Understanding the adsorption mechanism by a theoretical study(2021)43 cited
• The study of Zn~(2+) and Cd~(2+) adsorption on activated carbon modified with KMnO_4(2010)
• [Adsorption properties of dye compounds on the sediments in Qinghe].(2002)
• → Preparation of corn stalk adsorbent and its adsorption performance for Pb2+ in aqueous solution(2022)