Porous triazine polymer: A novel catalyst for the three‐component reaction

Abstract: A new porous triazine-based covalent organic polymer (Triazine-COP) was prepared through the Schiff-base condensation of 2,4,6-tris(4-formyl phenoxy)-1,3,5-triazine and 4,4 0-oxydianiline, under sonication. The synthesized Triazine-COP with a high surface area was stable in water and other organic solvents. In the next step, Au (III) ions were immobilized on the nitrogen-rich Triazine-COP that on the reduction with NaBH 4 produced the heterogeneous catalyst of gold clusters in nanosize (Au-NCs@Triazine-COPs). … Show more

“…In line with the development of sustainable protocols and inspired by our previous work on the catalytic application of solid-based catalysts and porous materials (PMO, SBA-15, and MOF) in organic reaction transformations, 31,34,52,53,55–65 especially the synthesis of amides, 66–70 herein, we describe a one-pot tandem oxidative amidation reaction using Pd NPs @B-SNTs as an active catalyst and H 2 O 2 as a green oxidant for the synthesis of primary, secondary, and tertiary amides. The catalytic activity domain of Pd NPs @B-SNTs for the synthesis of amides using various structural compounds (primary aromatic and aliphatic alcohols, amine salts, and NH 2 OH·HCl) through oxidative amidation was evaluated.…”

“…The binding energy range of 335–341 eV is correlated to Pd 3d 5/2 and Pd 3d 3/2 of metallic Pd, while the component at 338–344 eV is related to PdO owing to the partial oxidation of the Pd NPs . 55,56 The surface area, pore volume and diameter of the B-SNTs and Pd NPs @B-SNTs are calculated based on the Brunauer–Emmett–Teller (BET) equation (Table 1).…”

Single-pot tandem oxidative/C–H modification amidation process using ultrasmall Pd_NP-encapsulated porous organosilica nanotubes

“…In line with the development of sustainable protocols and inspired by our previous work on the catalytic application of solid-based catalysts and porous materials (PMO, SBA-15, and MOF) in organic reaction transformations, 31,34,52,53,55–65 especially the synthesis of amides, 66–70 herein, we describe a one-pot tandem oxidative amidation reaction using Pd NPs @B-SNTs as an active catalyst and H 2 O 2 as a green oxidant for the synthesis of primary, secondary, and tertiary amides. The catalytic activity domain of Pd NPs @B-SNTs for the synthesis of amides using various structural compounds (primary aromatic and aliphatic alcohols, amine salts, and NH 2 OH·HCl) through oxidative amidation was evaluated.…”

“…The binding energy range of 335–341 eV is correlated to Pd 3d 5/2 and Pd 3d 3/2 of metallic Pd, while the component at 338–344 eV is related to PdO owing to the partial oxidation of the Pd NPs . 55,56 The surface area, pore volume and diameter of the B-SNTs and Pd NPs @B-SNTs are calculated based on the Brunauer–Emmett–Teller (BET) equation (Table 1).…”

Single-pot tandem oxidative/C–H modification amidation process using ultrasmall Pd_NP-encapsulated porous organosilica nanotubes

“…15). 127 Thereafter, the newly-synthesised triazine-COP was immobilized with gold nanoclusters and designated as Au-NCs@Triazine-COPs. The newly-synthesised Au-NCs@Triazine-COPs were then employed as the catalyst for the synthesis of propargylamines using alkynes, aldehydes, and amines via an A 3 coupling reaction.…”

“…Fig 15. Synthesis of Au-NCs@Triazine-COP and its catalytic application in A 3 -coupling reactions 127. (Reproduced from ref 127.…”

Recent advances in the design, synthesis and catalytic applications of triazine-based covalent organic polymers

“…Propargylamines are building blocks, key intermediates, and synthetically versatile components for the synthesis of N- containing biological active structures including oxotremorine analogues, β-lactams, peptides, natural products, and therapeutics drug molecules . Gold, including GNPs, salts, and complexes, being a class of efficient catalysts, has garnered widespread attention in A 3 -coupling reactions. − In this perspective, we focus on the preparation of propargylamines via a transition metal-catalyzed A 3 -coupling reaction in the presence of GNPs. − In this context, the first paper concerning GNP-catalyzed greener preparation of propargylamines was explored by Kidwai and colleagues via an A 3 -coupling reaction of 3CR amine, alkyne, and aldehyde; products were obtained in the presence of 10 mol % GNPs in 67%–96% yield. The particle size of the catalyst was a key issue in this reaction, and the maximum reaction rate has been achieved when the particles of average size were ∼20 nm …”

Gold Nanoparticle-Catalyzed Multicomponent Reactions