Finely Tuning Metal Ion Valences of [Fe_3–xM_x(μ₃–OH)(Carboxyl)₆(pyridyl)₂] Cluster-Based ant-MOFs for Highly Improved CO₂ Capture Performances

Abstract: Solvothermal reactions of different trinuclear precursors and 5-(pyridin-4-yl)isophthalic acid (H 2 L) successfully led to four anionic ant topological MOFs as Fe 3−x M x (μ 3 −OH)(CH 3 COO) 2 (L) 2 •(DMA + )•DMF [M = Mn(II), Fe(II), Co(II), x = 0, 1, 2 and 3], namely, NJTU-Bai79 [NJTU-Bai = Nanjing Tech University Bai's group, Mn 3 (μ 3 −OH)], NJTU-Bai80 [Fe 2 Mn(μ 3 −OH)], NJTU-Bai81 [Fe 3 (μ 3 −OH)], and NJTU-Bai82 [Fe 2 Co(μ 3 −OH)], which possess the narrow pores (2.5−6.0 Å). NJTU-Bai80−82 is able to be t… Show more

“…Therefore, Co-MOFs have a high thermodynamic selectivity for the CO 2 molecules. In addition, as displayed in Figure , the action sites and bond energy of the hydrogen bonds between CO 2 and Co-MOF 2 (O–H···O) are obviously better than those between CO 2 and Co-MOF 1 (C–H···O), which leads to the adsorption capacity and selectivity of Co-MOF 2 for CO 2 being better than that of Co-MOF 1 for CO 2 …”

pH-Induced Two Co (II) Metal–Organic Frameworks with Different Topologies: Magnetism and CO₂/CH₄ Separation

“…Therefore, Co-MOFs have a high thermodynamic selectivity for the CO 2 molecules. In addition, as displayed in Figure , the action sites and bond energy of the hydrogen bonds between CO 2 and Co-MOF 2 (O–H···O) are obviously better than those between CO 2 and Co-MOF 1 (C–H···O), which leads to the adsorption capacity and selectivity of Co-MOF 2 for CO 2 being better than that of Co-MOF 1 for CO 2 …”

pH-Induced Two Co (II) Metal–Organic Frameworks with Different Topologies: Magnetism and CO₂/CH₄ Separation