Phosphine Modulation for Enhanced CO₂ Capture: Quantum Mechanics Predictions of New Materials

Abstract: It is imperative to develop efficient CO2 capture and activation technologies to combat the rising levels of deleterious greenhouse gases in the atmosphere. Using Quantum Mechanics methods (Density Functional Theory), we propose and evaluate several metal-free and metal-containing phosphines that provide strong CO2 binding under ambient conditions. Depending on the electron donating capacity of the phosphine and the ability of the P-bound ligands to hydrogen bond to the CO2, we find that the CO2 binding can be… Show more

“…1 From a chemical point of view, several systems are able to sequestrate and activate CO 2 . 2 Amines, 3–5 ionic liquids and eutectic solvents, 6–8 carbenes, 9–14 guanidines, 15–17 phosphines, 18–21 frustrated Lewis pairs (FLPs) 22–27 and metal organic frameworks (MOFs), 28–30 among others, fulfill these tasks.…”

A theoretical study of the reaction of borata derivatives of benzene, anthracene and pentacene with CO₂

“…1 From a chemical point of view, several systems are able to sequestrate and activate CO 2 . 2 Amines, 3–5 ionic liquids and eutectic solvents, 6–8 carbenes, 9–14 guanidines, 15–17 phosphines, 18–21 frustrated Lewis pairs (FLPs) 22–27 and metal organic frameworks (MOFs), 28–30 among others, fulfill these tasks.…”

A theoretical study of the reaction of borata derivatives of benzene, anthracene and pentacene with CO₂

Dual atom catalysts for rapid electrochemical reduction of CO to ethylene