None-linker-bonded node sites in metal organic framework are catalytic sites for many reactions. Works on understanding the bonding of ligands on these node sites and elucidating their key roles in MOF catalysis are emerging…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…
Metal-organic frameworks (MOFs), structurally well-defined porous materials built from inorganic metal oxide units connected by organic linkers, present unique isolated active sites and catalytic environments for performing chemical reactions…