Pd nanoparticles with a trace of SnO2 are prepared on a novel graphene-based porous carbon and they show dramatically improved electrocatalytic activity and durability for methanol oxidation compared to porous carbon supported Pd catalysts with SnO2 or graphene-based porous carbon supported Pd catalysts without SnO2.
Ssa-type MOFs constructed from dicopper paddlewheels and bent diisophthalate ligands exhibit a promising potential for gas adsorption which benefits from their rich open copper sites and polyhedron-based cages with suitable sizes. However, the rational construction of such types of MOFs is exceedingly challenging because the bent diisophthalate ligands employed are inclined to exhibit various conformations and thus are prone to form MOFs with varied topologies. In this work, by pre-organizing the ligand's conformation, we successfully targeted an ssa-type MOF ZJNU-57 from a bent diisophthalate ligand. More significantly, ZJNU-57 exhibits excellent hydrolytic stability and high CH and CO uptake capacities as well as impressive CH/CH and CO/CH adsorption selectivities, indicating its promising potential for CH/CH and CO/CH separation, which are relevant to acetylene production and natural gas purification. This work not only provides a rare water-stable MOF based on the Cu(COO) cluster for highly selective adsorption of CH and CO from CH, but also demonstrates that the ligand conformation-controlled assembly strategy may be an efficient approach toward the construction of MOF materials with definite topologies for specific applications.
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