Carbonyl-functionalized metallic ionic liquids via coordination for efficient hydrogen sulfide separation and conversion by α, β-unsaturated carboxylate esters

Abstract

The efficient capture and conversion of hydrogen sulfide (H2S) represent a critical challenge in addressing key issues in energy and environmental fields. In this study, we innovatively designed and synthesized a series of carbonyl-functionalized metallic ionic liquids (CMILs), which exhibit dual functionality as both absorbents and catalysts under mild conditions. Experimental results demonstrate that the [Na-15C][LA] system delivers outstanding performance under ambient conditions (30 ℃, 1.0 bar), achieving an H 2 S absorption capacity of 1.73 mol/mol, H 2 S/CO 2 selectivity of 101.2, and an exceptionally high H 2 S/CH 4 selectivity of 1122.2. NMR, FT-IR, and DFT calculations confirm that the carbonyl group serves as the active site for efficient H 2 S capture.Notably, these CMILs function as highly effective catalysts, facilitating the solvent-free conversion 2 of H 2 S with α, β-unsaturated carboxylates into thiols and thioethers under mild conditions. Moreover, the system enables spontaneous phase separation between the catalyst and products without requiring additional components, achieving quantitative conversion (> 99%) while adhering to green chemistry principles. This integrated design provides a novel technical approach for the efficient capture and resource utilization of H2S.