Design, synthesis, and physicochemical study of a biomass-derived CO2 sorbent 2,5-furan-bis(iminoguanidine)

Abstract: Summary In this study, the concept of biomass-based direct air capture is proposed, and the aminoguanidine CO 2 chemical sorbent 2,5-furan-bis(iminoguanidine) (FuBIG) was designed, synthesized, and elucidated for the physicochemical properties in the process of CO 2 capture and release. Results showed that the aqueous solution of FuBIG could readily capture CO 2 from ambient air and provided an insoluble tetrahydrated carbonate sal… Show more

“…The GBIG compound was further examined and modified. For example, the synthesis and evaluation of a modified GBIG chemical sorbent, namely 2,5-furan-bis(iminoguanidine) (FuBIG), was investigated [40]. Firstly, the study reported the determination of two binding modes with nine hydrogen bonds between FuBIG, CO 2 (as CO 3 2− ), and H 2 O using single-crystal XRD analysis.…”

Crystal Engineering of Hydrogen Bonding for Direct Air Capture of CO2: A Quantum Crystallography Perspective

“…The GBIG compound was further examined and modified. For example, the synthesis and evaluation of a modified GBIG chemical sorbent, namely 2,5-furan-bis(iminoguanidine) (FuBIG), was investigated [40]. Firstly, the study reported the determination of two binding modes with nine hydrogen bonds between FuBIG, CO 2 (as CO 3 2− ), and H 2 O using single-crystal XRD analysis.…”

Crystal Engineering of Hydrogen Bonding for Direct Air Capture of CO2: A Quantum Crystallography Perspective

Hybrid Semiconductor Photocatalyst Nanomaterials in CO2 Reduction and Storage Applications

Aminoguanidine-Catalyzed Reductive Cyclization of o-Phenylenediamines with CO₂ in the Presence of Triethoxysilane