Investigation on the Electrocatalytic Hydrogen Evolution Performance of Coordination Polymer-Derived Materials: Roles of Organic Ligands

Abstract: By optimizing the ligands, the structure of a coordination polymer can be adjusted to realize the regulation and optimization of the properties of the coordination polymer materials. Coordination polymers not only exhibit a variety of molecular topologies but also have good application prospects in adsorption, separation, catalysis, photoelectric magnetism, and so on. Recently, coordination polymers are being well used in precursors for electrocatalysts because of their high surface area and porous structure. … Show more

“…For example, Duan et al had controlled the flexibility of their CPs by transferring methyl groups . Qin and coworkers had achieved better electrocatalytic performance in meta-substituted CPs by adjusting the position of carboxyl groups . Chen et al had also achieved different luminescent properties in their crystals by adjusting the positions of functional groups .…”

Fabrication of Substituent-Regulated Two-Dimensional Copper-Based Coordination Polymers as Urease Inhibitors

“…For example, Duan et al had controlled the flexibility of their CPs by transferring methyl groups . Qin and coworkers had achieved better electrocatalytic performance in meta-substituted CPs by adjusting the position of carboxyl groups . Chen et al had also achieved different luminescent properties in their crystals by adjusting the positions of functional groups .…”

Fabrication of Substituent-Regulated Two-Dimensional Copper-Based Coordination Polymers as Urease Inhibitors

“…36,37 Our group selected two ligands with similar structures, namely 4-(1 H -1,2,4-triazol-1-yl) benzoic acid (Hbza) and 3-(1 H -1,2,4-triazol-1-yl) benzoic acid (3-Hbza), and zinc nitrate to construct two coordination polymers with different structures. 38 The electrocatalytic test results show that the derivative materials of the coordination polymer formed using 3-Hbza exhibit better electrocatalytic performance. This study provides strong support for the idea that a slight change in the structure of the ligand can affect the final structure and thus performance.…”

Electrocatalytic hydrogen evolution of MOF-derived materials based on conjugated or unconjugated ligands

Urea oxidation reaction electrocatalysts: Correlation of structure, activity, and selectivity