Amidation via ligand-free direct oxidative C(sp3)-H/NH coupling with Cu-CPO-27 metal-organic framework as a recyclable heterogeneous catalyst

“…Next, the reaction should be carried out at the temperatures around 100 o C with reference to the previous researches. [7][8]19 Hence, the effect of temperature on reaction was investigated from 80 o C to 140 o C (entries [13][14][15]. No or only trace amount of the product was detected when the reaction was carried out under 120 o C (entries [13][14].…”

“…7 Cheng and coworkers implemented the same transformation deploying 10 mol% Cu(acac)2 complex as catalyst. 8 While our previous method using Cu-CPO-27 used 7.5% mol of the catalyst, 19 the employment of Cu2(BDC)2(DABCO) catalyst not only did not require additional ligands but also replaced Cu-CPO-27 by a cheaper heterogeneous catalyst.…”

“…[15][16][17][18] In this manuscript, we would like to illustrate an efficient access to N-cyclohexylbenzamide via direct oxidative C-N coupling reaction. To the best of our knowledge, this synthetic route was previously conducted under Cu-CPO-27 as a heterogeneous catalyst, 19 but the material for synthesizing this MOF is very expensive. Therefore, in this study, Cu2(BDC)2DABCO was investigated as an alternative due to its much cheaper cost of starting materials.…”

Cu₂(BDC)₂DABCO as an efficient heterogeneous catalyst for the oxidative C-N coupling reaction between amides and unactivated alkanes

“…Next, the reaction should be carried out at the temperatures around 100 o C with reference to the previous researches. [7][8]19 Hence, the effect of temperature on reaction was investigated from 80 o C to 140 o C (entries [13][14][15]. No or only trace amount of the product was detected when the reaction was carried out under 120 o C (entries [13][14].…”

“…7 Cheng and coworkers implemented the same transformation deploying 10 mol% Cu(acac)2 complex as catalyst. 8 While our previous method using Cu-CPO-27 used 7.5% mol of the catalyst, 19 the employment of Cu2(BDC)2(DABCO) catalyst not only did not require additional ligands but also replaced Cu-CPO-27 by a cheaper heterogeneous catalyst.…”

“…[15][16][17][18] In this manuscript, we would like to illustrate an efficient access to N-cyclohexylbenzamide via direct oxidative C-N coupling reaction. To the best of our knowledge, this synthetic route was previously conducted under Cu-CPO-27 as a heterogeneous catalyst, 19 but the material for synthesizing this MOF is very expensive. Therefore, in this study, Cu2(BDC)2DABCO was investigated as an alternative due to its much cheaper cost of starting materials.…”

Cu₂(BDC)₂DABCO as an efficient heterogeneous catalyst for the oxidative C-N coupling reaction between amides and unactivated alkanes

“…[36] Zn-MOF-74 is intensively studied for gas storage [36] and separation [37] as well as in catalysis. [38][39][40][41][42][43][44][45] It has a3 Dh oneycomblike framework with 1D channels of ca. 11 , [46] built from organic linkers on the edges and ZnO 6 at the corners.…”

“…It is focused on a material, which is recognised as the MOF with the highest density of open metal sites, namely [Zn 2 (dobdc)(H 2 O) 2 ] (H 4 dobdc=2,5‐dioxido‐1,4‐benzenedicarboxylic acid), known as Zn‐MOF‐74 [36] . Zn‐MOF‐74 is intensively studied for gas storage [36] and separation [37] as well as in catalysis [38–45] . It has a 3D honeycomb‐like framework with 1D channels of ca.…”

Synthesis of Chiral MOF‐74 Frameworks by Post‐Synthetic Modification by Using an Amino Acid

Catalytic Alkane Amidation and Related Reactions