A Facile Grinding Method for the Synthesis of 3D Ag Metal–Organic Frameworks (MOFs) Containing Ag₆Mo₇O₂₄ for High‐Performance Supercapacitors

Abstract: Successful synthesis of three kinds of dynamically stable compounds by a simple grinding method is reported, giving Ag6Mo7O24, Ag‐BTC (Ag‐MOF, BTC=benzene‐1,3,5‐tricarboxylic acid), and {Ag6Mo7O24}@Ag‐MOF metal–organic frameworks (MOFs). According to the electrochemical dynamic analysis, these materials have pseudocapacitor behavior and high capacitance. The unique nanorod structure of {Ag6Mo7O24}@Ag‐MOF provides more active sites, faster ion/electron transfer, and electrolyte diffusion pathways, resulting in … Show more

“…Mechanochemical synthesis, a prospective solid‐phase synthesis method, is stimulated and sustained through a mechanical force, involving ball milling or grinding to obtain multi‐functional materials [16,17] . This synthesis method exhibits numerous advantages including simple operation, short synthesis period, and flexible scalability, among others [18,19] . Meanwhile, mechanochemical synthesis is also identified as a green synthesis method, which can avoid bulk solvents and reduce environmental pollution, promising for large‐scale production [20,21] .…”

Synthesis of FeNiCo Ternary Hydroxides through Green Grinding Method with Metal‐Organic Frameworks as Precursors for Oxygen Evolution Reaction

“…Mechanochemical synthesis, a prospective solid‐phase synthesis method, is stimulated and sustained through a mechanical force, involving ball milling or grinding to obtain multi‐functional materials [16,17] . This synthesis method exhibits numerous advantages including simple operation, short synthesis period, and flexible scalability, among others [18,19] . Meanwhile, mechanochemical synthesis is also identified as a green synthesis method, which can avoid bulk solvents and reduce environmental pollution, promising for large‐scale production [20,21] .…”

Synthesis of FeNiCo Ternary Hydroxides through Green Grinding Method with Metal‐Organic Frameworks as Precursors for Oxygen Evolution Reaction

“…[28][29][30][31][32][33][34] Although POMs are used in mechanochemical synthesis, e.g. to exchange the cation 35,36 or to encapsulate the POM inside of a metal-organic framework (MOF) [37][38][39][40] , there is, to the best of our knowledge, no description of a direct mechanochemical synthesis. Such an alternative route could make the use of strong acids obsolete as well as decrease reaction times and the energy consumption.…”

A new route to polyoxometalates via mechanochemistry

“…Moreover, Pang et al 40 synthesized POM-wrapped core–shell ZIF-67@POM heterojunctions on ZIF-67 via a solution method, with the material showing good supercapacitance properties due to the synergistic effect of POM and ZIF-67. Recently, our group prepared {Ag 6 Mo 7 O 24 }@Ag-MOF 41 and Zn-BTC@Ag 5 [BW 12 O 40 ] 42 via a mechanical grinding method with specific capacitance values of 161.7 F g −1 and 55.4 F g −1 , respectively, and excellent cycling stability (retention rates of 92.8% and 98%, respectively, after 5000 cycles), indicating that the POMOFs obtained via a grinding method have good stability. The above findings can prove that the synthesized POMOF materials fully combine the advantages of POMs and MOFs to form supercapacitors with high-speed electron transfer capabilities.…”

“…Additional coordination configurations between metal ions, organic ligands, and POMs were found using a simple grinding method. 47–50 Therefore, on the basis of previous studies, 41,42 {Ag 5 BW 12 O 40 }@[Ag 3 (μ-Hbtc)(μ-H 2 btc)] n hybrids with a core–shell structure were synthesized via a grinding method. The supercapacitance properties, H 2 O 2 sensing properties, and photocatalytic dye-degradation properties of these synthetic hybrids were studied in detail, laying the foundation for further POMOF applications.…”

A hybrid borotungstate-coated metal–organic framework with supercapacitance, photocatalytic dye degradation and H₂O₂ sensing properties