Abstract:BackgroundAmides are the essential building blocks of natural products and bioactive molecules. One of the most common structures discovered in medicinal and bioactive compounds is amide derivatives. The synthesis of N‐(pyridin‐2‐yl)arylamide compounds has recently been assessed using various methods. In particular, there is growing interest in employing heterogeneous catalysts to catalyze organic synthesis reactions. Metal organic frameworks based on nickel centers were synthesized using the solvothermal meth… Show more
“…Several papers are specifically dedicated to catalysis and reaction engineering, placing a strong focus on the advancements in catalyst development. Nguyen et al 8 conducted research exploring the application of Ni-based metal-organic frameworks as heterogeneous catalysts for synthesizing N-(pyridin-2-yl)arylamides, crucial constituents in medicinal and bioactive compounds. The Ni-based catalyst exhibited commendable efficacy, yielding the target compound at 85%, and displayed the ability to be retrieved and reused with minimal degradation of catalytic activity.…”
Section: Special Issue: 6th International Conference Of Chemical Engi...mentioning
confidence: 99%
“…Several papers are specifically dedicated to catalysis and reaction engineering, placing a strong focus on the advancements in catalyst development. Nguyen et al 8 . conducted research exploring the application of Ni‐based metal–organic frameworks as heterogeneous catalysts for synthesizing N‐(pyridin‐2‐yl)arylamides, crucial constituents in medicinal and bioactive compounds.…”
“…Several papers are specifically dedicated to catalysis and reaction engineering, placing a strong focus on the advancements in catalyst development. Nguyen et al 8 conducted research exploring the application of Ni-based metal-organic frameworks as heterogeneous catalysts for synthesizing N-(pyridin-2-yl)arylamides, crucial constituents in medicinal and bioactive compounds. The Ni-based catalyst exhibited commendable efficacy, yielding the target compound at 85%, and displayed the ability to be retrieved and reused with minimal degradation of catalytic activity.…”
Section: Special Issue: 6th International Conference Of Chemical Engi...mentioning
confidence: 99%
“…Several papers are specifically dedicated to catalysis and reaction engineering, placing a strong focus on the advancements in catalyst development. Nguyen et al 8 . conducted research exploring the application of Ni‐based metal–organic frameworks as heterogeneous catalysts for synthesizing N‐(pyridin‐2‐yl)arylamides, crucial constituents in medicinal and bioactive compounds.…”
Metal–metal hydroxide/oxide interface catalysts are valued for their multiple active sites, enabling synergistic reactions in close proximity for advanced catalytic applications.
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