Evaluation of an Imine-Linked Polymer Organic Framework for Storage and Release of H2S and NO

Abstract: Hydrogen sulfide (H2S) and nitric oxide (NO) are especially known as toxic and polluting gases, yet they are also endogenously produced and play key roles in numerous biological processes. These two opposing aspects of the gases highlight the need for new types of materials to be developed in addition to the most common materials such as activated carbons and zeolites. Herein, a new imine-linked polymer organic framework was obtained using the inexpensive and easy-to-access reagents isophthalaldehyde and 2,4,6… Show more

“…Furthermore, the applications of polymers prepared from 2,4,6-triaminopyrimidine have been conned to the storage and release of NO and H 2 S gases, CO 2 adsorption and catalysis. [40][41][42] However, to our knowledge this type of material has not been used for CO 2 xation into epoxides. Therefore, the application of polymers containing 2,4,6-triaminopyrimidine can be extended for CO 2 utilization.…”

Efficient CO₂ fixation under atmospheric pressure using a metal- and halide-free heterogeneous catalyst

“…Furthermore, the applications of polymers prepared from 2,4,6-triaminopyrimidine have been conned to the storage and release of NO and H 2 S gases, CO 2 adsorption and catalysis. [40][41][42] However, to our knowledge this type of material has not been used for CO 2 xation into epoxides. Therefore, the application of polymers containing 2,4,6-triaminopyrimidine can be extended for CO 2 utilization.…”

Efficient CO₂ fixation under atmospheric pressure using a metal- and halide-free heterogeneous catalyst

Schiff‐base Polymer Immobilized Ruthenium for Efficient Catalytic Cross‐coupling of Secondary Alcohols with 2‐amino‐ and γ‐aminobenzyl Alcohols to Give Quinolines and Pyridines

Azomethine-functionalized organic–inorganic framework: an overview