Syntheses, crystal structures and fluorescent properties of two metal-organic frameworks based on pamoic acid

“…Metal–organic frameworks (MOFs) are a class of functional materials with open framework structures containing potential voids, which have great potential for use across a broad range of applications, such as gas sorption/separation, − catalysis, − chemical sensing, , magnetism, , and fluorescence. − In recent years, plenty of research studies have focused on selectively capturing CO 2 from flue gas, natural gas, and other greenhouse gas sources, − involving CO 2 /N 2 and CO 2 /CH 4 separation, which aim to alleviate the damage caused by global warming. There are many advantages of MOFs for CO 2 sorption and separation from gas mixtures, including their chemical stability, large surface areas, and tunable void volumes and binding sites.…”

Zn Metal–Organic Framework with High Stability and Sorption Selectivity for CO₂

“…Metal–organic frameworks (MOFs) are a class of functional materials with open framework structures containing potential voids, which have great potential for use across a broad range of applications, such as gas sorption/separation, − catalysis, − chemical sensing, , magnetism, , and fluorescence. − In recent years, plenty of research studies have focused on selectively capturing CO 2 from flue gas, natural gas, and other greenhouse gas sources, − involving CO 2 /N 2 and CO 2 /CH 4 separation, which aim to alleviate the damage caused by global warming. There are many advantages of MOFs for CO 2 sorption and separation from gas mixtures, including their chemical stability, large surface areas, and tunable void volumes and binding sites.…”

Zn Metal–Organic Framework with High Stability and Sorption Selectivity for CO₂

Photophysical and Fluorescence Nitroaromatic Sensing Properties of Methylated Derivative of a Pamoic Acid Ester

A new 3D three-interpenetration metal–organic framework and its photocatalytic property: A combined experimental and theoretical investigation