At its core, reticular chemistry has translated the precision and expertise of organic and
inorganic synthesis to the solid state. While initial excitement over metal–organic …

Reticular chemistry—the linking of well-defined molecular building blocks by strong bonds
into crystalline extended frameworks—has enabled the synthesis of diverse metal–organic …

Materials capable of the safe and efficient capture or degradation of toxic chemicals,
including chemical warfare agents (CWAs) and toxic industrial chemicals (TICs), are …

Conspectus The prediction of crystal structures assembled in three dimensions has been
considered for a long time, simultaneously as a chemical wasteland and a certain growth …

Functional porous metal–organic frameworks (MOFs) have been explored for a number of
potential applications in catalysis, chemical sensing, water capture, gas storage, and …

Reticular chemistry has proven as a notable/distinctive discipline aimed at the deliberate
assembly of periodic solids, offering great opportunities to effectively deploy the gained …

Chiral metal–organic frameworks (CMOFs) are a major part of chiral inorganic–organic
hybrid materials that lead to considerable attention of researchers, especially in recent …

Metal–organic frameworks (MOFs) based on group 3 and 4 metals are considered as the
most promising MOFs for varying practical applications including water adsorption, carbon …

Chiral metal–organic frameworks (CMOFs) have the characteristics of framework structure
diversity and functional tunability, and have important applications in the fields of chiral …

Supermolecular building block (SBB) approaches have been widely used for synthesizing
highly connected metal–organic frameworks (MOFs). However, it remains a challenge to …