Organic transformation by light-driven catalysis, especially, photocatalysis and photothermal
catalysis, denoted as photo (thermal) catalysis, is an efficient, green, and economical route …

Metal-organic frameworks (MOFs) and covalent-organic frameworks (COFs) are constituting
two new classes of highly crystalline advanced permeable materials that have purchased …

Limited by single metal active sites and low electrical conductivity, designing nickel‐based
metal–organic framework (MOF) materials with high capacity and high energy density …

Metal–organic frameworks (MOFs) are increasingly being investigated as electrocatalysts for
the oxygen evolution reaction (OER). Despite their promising catalytic activity, many …

Metal–organic frameworks (MOFs), constructed from organic linkers and inorganic building
blocks, are well-known for their high crystallinity, high surface areas, and high component …

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 …

Gas separation is a very important industrial process for manufacturing chemicals, fuels,
plastics, and polymers but is also energy intensive through the traditional cryogenic …

In recent years, metal–organic frameworks (MOFs) have been regarded as one of the most
important classes of materials. The combination of various metal clusters and ligands …

Mixed‐metal metal–organic frameworks (MM‐MOFs) can be considered to be those MOFs
having two different metals anywhere in the structure. Herein we summarize the various …