Ionic Liquid Facilitated Melting of the Metal-Organic Framework ZIF-8

Abstract: <div>Hybrid glasses from melt-quenched metal-organic frameworks (MOFs) have been emerging as a new class of materials, which combine the functional properties of crystalline MOFs with the processability of glasses. However, only a handful of the vast variety of crystalline MOFs have been identified as being meltable. Porosity and metal-linker interaction strength have both been identified as crucial parameters in the trade-off between thermal decomposition of the organic linker and, more desirably… Show more

“…[5][6][7][8][9][10] Unfortunately, the current range of meltable MOFs is limited, as most MOFs decompose before they could even melt. [11][12][13][14][15] Additionally, the melting of MOFs involves the rupture of coordination bonds that define the MOF structure, leading to uncertainty regarding the final structure, porosity and -by extension -function of the melted product. [16][17][18] Herein we present a novel approach to transform metalorganic polyhedra (MOPs) into metal-organic films with persistent and designed porosity.…”

Porous and Meltable Metal-Organic Polyhedra for the Generation and Shaping of Porous Mixed-Matrix Composites

“…[5][6][7][8][9][10] Unfortunately, the current range of meltable MOFs is limited, as most MOFs decompose before they could even melt. [11][12][13][14][15] Additionally, the melting of MOFs involves the rupture of coordination bonds that define the MOF structure, leading to uncertainty regarding the final structure, porosity and -by extension -function of the melted product. [16][17][18] Herein we present a novel approach to transform metalorganic polyhedra (MOPs) into metal-organic films with persistent and designed porosity.…”

Porous and Meltable Metal-Organic Polyhedra for the Generation and Shaping of Porous Mixed-Matrix Composites