Computational Study on Metal-Ion-Decorated Prismane Molecules for Selective Adsorption of CO₂ from Flue Gas Mixtures

Abstract: Selective adsorption of CO 2 from flue gas is extremely significant because of its increasing concentration in air and its deleterious effect on the environment. In this work, we have explored metal-ion-bound prismane molecules for selective CO 2 adsorption from the flue gas mixture. The Ca 2+ -bound prismane complex exhibits superior CO 2 selectivity and adsorption capacity. The calculated binding energy and molecular electrostatic potential (MESP) analysis showed that the rectangular face of prismane binds s… Show more

“…38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60…”

“…In the case of CO 2 , the gravimetric density reaches 75.26 wt%, which is closer to previously reported systems such as metal-organic-framework, 60 Si-B-N sheets, 61 and metal-doped prismane system. 38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60 Further, the binding energy has been decomposed into physically meaningful components such as exchange, induction, electrostatic, and dispersion.…”

“…38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60 Further, the binding energy has been decomposed into physically meaningful components such as exchange, induction, electrostatic, and dispersion. Numerical values of different energies are provided in Table S2 (ESI †).…”

“…In 2014, Wang et al characterized a boron-based transition metal-centered wheel-like anionic cluster for CO 2 separation from a flue gas mixture. 38 The interaction energy of their anionic cluster with CO 2 was greater compared to N 2 and CH 4 , which is essential for CO 2 separation. In 2020, Wakchaure and Ganguly explored metal–ion-bound prismane molecules for the selective adsorption of CO 2 from a flue gas mixture.…”

“…Further, some modifications such as the doping of nitrogen, some alkali and alkaline earth metal cations (Li + , K + , Mg 2+ , Ca 2+ ) as well as transition metals (Sc, Ti, V, Cr, Mn, Fe, Co) enhanced the adsorption capability of CO 2 on the MOFs, carbon-based structure, silicates, etc. [31][32][33][34][35][36][37][38][39] Few demerits were also found with the carbonbased structure like deformation with increasing temperature, poor pore size for proper CO 2 separation especially for carbon porous materials, etc. [40][41][42][43] To overcome these limitations, such as its stability, durability, and selectivity, we need to find some way to improve the interaction of CO 2 with the adduct, which will lead to effective separation from other gases in a mixture of flue gas.…”

Anin silicostudy of the selective adsorption and separation of CO₂from a flue gas mixture (CH₄, CO₂, N₂) by ZnLi₅⁺clusters

“…38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60…”

“…In the case of CO 2 , the gravimetric density reaches 75.26 wt%, which is closer to previously reported systems such as metal-organic-framework, 60 Si-B-N sheets, 61 and metal-doped prismane system. 38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60 Further, the binding energy has been decomposed into physically meaningful components such as exchange, induction, electrostatic, and dispersion.…”

“…38 Similarly, CH 4 and N 2 show better gravimetric density as compared to MOFs and reported alkali-doped prismane complexes. 38,60 Further, the binding energy has been decomposed into physically meaningful components such as exchange, induction, electrostatic, and dispersion. Numerical values of different energies are provided in Table S2 (ESI †).…”

“…In 2014, Wang et al characterized a boron-based transition metal-centered wheel-like anionic cluster for CO 2 separation from a flue gas mixture. 38 The interaction energy of their anionic cluster with CO 2 was greater compared to N 2 and CH 4 , which is essential for CO 2 separation. In 2020, Wakchaure and Ganguly explored metal–ion-bound prismane molecules for the selective adsorption of CO 2 from a flue gas mixture.…”

“…Further, some modifications such as the doping of nitrogen, some alkali and alkaline earth metal cations (Li + , K + , Mg 2+ , Ca 2+ ) as well as transition metals (Sc, Ti, V, Cr, Mn, Fe, Co) enhanced the adsorption capability of CO 2 on the MOFs, carbon-based structure, silicates, etc. [31][32][33][34][35][36][37][38][39] Few demerits were also found with the carbonbased structure like deformation with increasing temperature, poor pore size for proper CO 2 separation especially for carbon porous materials, etc. [40][41][42][43] To overcome these limitations, such as its stability, durability, and selectivity, we need to find some way to improve the interaction of CO 2 with the adduct, which will lead to effective separation from other gases in a mixture of flue gas.…”

Anin silicostudy of the selective adsorption and separation of CO₂from a flue gas mixture (CH₄, CO₂, N₂) by ZnLi₅⁺clusters

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