Enhanced adsorption and reduction performance of nitrate by Fe–Pd–Fe3O4 embedded multi-walled carbon nanotubes

“…This analysis aimed to determine the bonding nature of the compounds as well. [10][11][12][13] By employing GGA (generalized gradient approximation) and GGA + U methods, researchers analyzed the optical properties of several systems including rare earth. [14][15][16][17] It was found that the TB-mBJ approximation of the TB-mBJ potential is better suited for systems lacking correlated electrons, such as insulators and semiconductors.…”

Probing the physical properties for prospective high energy applications of QMnF₃ (Q = Ga, In) halide perovskites compounds employing the framework of density functional theory

“…This analysis aimed to determine the bonding nature of the compounds as well. [10][11][12][13] By employing GGA (generalized gradient approximation) and GGA + U methods, researchers analyzed the optical properties of several systems including rare earth. [14][15][16][17] It was found that the TB-mBJ approximation of the TB-mBJ potential is better suited for systems lacking correlated electrons, such as insulators and semiconductors.…”

Probing the physical properties for prospective high energy applications of QMnF₃ (Q = Ga, In) halide perovskites compounds employing the framework of density functional theory

“…For centuries, the ancient Greek, classic Roman, and Islamic empires created the agricultural revolution by performing catalysis through controlled ammonia synthesis. Commercial production of base chemicals with large-scale production such as sulfuric acid by catalytic processes started the industrial revolution. ,− Due to their large-scale applications of catalysts, high price, and scarce reserves, development of a cost-effective, high-activity, nonprecious metal-based electrocatalysts is urgent because of enhanced activities, high stability, and catalytic activity. − …”

MOFs as Versatile Catalysts: Synthesis Strategies and Applications in Value-Added Compound Production

“…[28][29][30] Fe 3 O 4 nanoparticles are well known and can be used as a suitable support for functionalization with metals, organic catalysts, N-heterocyclic carbenes and chiral catalysts. [31][32][33] Recent advances have shown that the improvement of catalyst performance can be achieved through structural modications of magnetic nanoparticles. 34 Using Fe 3 O 4 NPs as a support substrate, modern catalysts that have higher specic surface area than conventional catalysts can be obtained, and in addition to consuming fewer precious metals, their efficiency, which makes creating a catalyst cheaper and more effective, can be increased.…”

Fe₃O₄@ABA-aniline-CuI nanocomposite as a highly efficient and reusable nanocatalyst for the synthesis of benzothiazole-sulfide aryls and heteroaryls