The separation of related molecules with similar physical/chemical properties is of prime
industrial importance and practically entails a substantial energy penalty, typically …

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 …

When designing metal–organic frameworks (MOFs), linker design is one of the most
important factors in constructing a wide variety of structures. Judicious choice of linker size …

In the past two decades, reticular chemistry has developed into a powerful tool for the design
and synthesis of porous, crystalline framework materials. The discovery of the first …

Pore space partition (PSP) concept is a synthetic design concept and can also serve as a
structure analysis method useful for next-step synthetic planning and execution. PSP …

Hydrolytically stable adsorbents, with notable water uptake, are of prime importance and
offer great potential for many water-adsorption-related applications. Nevertheless, deliberate …

Develo** porous materials with ultrahigh surface areas for gas storage (for example,
methane) is attractive but challenging. Here, we report two isostructural three-dimensional …

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 …

Reticular chemistry, the chemistry of linking molecular building blocks by strong bonds to
make crystalline open frameworks, has significantly expanded the scope of chemical …

Metal–organic frameworks (MOFs) are highly versatile materials that find applications in
several fields. Highly stable zirconium/hafnium-based MOFs were recently introduced and …