- Nickel-Catalyzed Amination of Aryl Chlorides with Amides
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A nickel-catalyzed amination of aryl chlorides with diverse amides via C-N bond cleavage has been realized under mild conditions. A broad substrate scope with excellent functional group tolerance at a low catalyst loading makes the protocol powerful for synthesizing various aromatic amines. The aryl chlorides could selectively couple to the amino fragments rather than the carbonyl moieties of amides. Our protocol complements the conventional amination of aryl chlorides and expands the usage of inactive amides.
- Li, Jinpeng,Huang, Changyu,Wen, Daheng,Zheng, Qingshu,Tu, Bo,Tu, Tao
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supporting information
p. 687 - 691
(2021/01/09)
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- Tetracoordinate borates as catalysts for reductive formylation of amines with carbon dioxide
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We report sodium trihydroxyaryl borates as the first robust tetracoordinate organoboron catalysts for reductive functionalization of CO2. These catalysts, easily synthesized from condensing boronic acids with metal hydroxides, activate main group element-hydrogen (E-H) bonds efficiently. In contrast to BX3 type boranes, boronic acids and metal-BAr4 salts, under transition metal-free conditions, sodium trihydroxyaryl borates exhibit high reactivity of reductive N-formylation toward a variety of amines (106 examples), including those with functional groups such as ester, olefin, hydroxyl, cyano, nitro, halogen, MeS-, ether groups, etc. The over-performance to catalyze formylation of challenging pyridyl amines affords a promising alternative method to the use of traditional formylation reagents. Mechanistic investigation supports electrostatic interactions as the key for Si/B-H activation, enabling alkali metal borates as versatile catalysts for hydroborylation, hydrosilylation, and reductive formylation/methylation of CO2.
- Du, Chen-Xia,Huang, Zijun,Jiang, Xiaolin,Li, Yuehui,Makha, Mohamed,Wang, Fang,Zhao, Dongmei
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supporting information
p. 5317 - 5324
(2020/09/17)
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- Copper catalyzed: N-formylation of α-silyl-substituted tertiary N-alkylamines by air
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A site-selective method to prepare N-formyl amines efficiently that relies on the copper(i)-catalyzed oxidation of α-silyl-substituted tertiary N-alkylamines by air at room temperature is described. The oxidative protocol was shown to exhibit excellent functional group tolerance as it was applicable to a wide variety of amine substrates and a number of bioactive molecules and natural products. Moreover, it delinates a ligand-and additive-free amine oxidation process mediated by a low-cost metal salt with oxygen from air taking on the role of both the terminal oxidant and as part of the formylation reagent, which is unprecedented in copper catalysis. It also offers the first synthetic method that can selectively generate α-amino radical species as reactive intermediates from α-silylamines under non-photochemical reaction conditions.
- Bruce, Lachlan David,Chan, Philip Wai Hong,Jin, Jianwen,Xia, Bo,Zhao, Yichao
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supporting information
p. 5296 - 5302
(2020/09/17)
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- UiO-66 as an efficient catalyst for N-formylation of amines with CO2 and dimethylamine borane as a reducing agent
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The most effective way to make the best use of CO2, is the reductive formylation of amines, as formamides have many applications in industry. A new protocol has been developed for reductive N-formylation of amines with CO2 as a C1 carbon source and DMAB (Dimethylamine borane) as a reducing agent in the presence of Zr-containing metal–organic framework (MOF) as an efficient, heterogeneous recyclable catalyst. We used UiO-66 and UiO-66-NH2 as catalysts for N-formylation of amines and observed that both the catalyst performs equally. Therefore, we continued our studies with UiO-66 as a catalyst. The UiO-66 MOF shows good catalytic activity and affording the desired formamides in good to excellent yield. This catalytic system is very efficient for several amines including primary and secondary aliphatic cyclic and aromatic amines. Moreover, the prepared catalyst was recycled up to four recycled without a considerable decrease in catalytic activity.
- Phatake, Vishal V.,Mishra, Ashish A.,Bhanage, Bhalchandra M.
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supporting information
(2019/12/11)
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- Novel clamp metal complex and application thereof
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The invention discloses a method for preparing a novel clamp-shaped complex and application of the novel clamp-shaped complex in the reaction of catalytic hydrogenation of carboxylic acid ester compounds to produce corresponding alcohols and reaction of carbon dioxide catalytic hydrogenation to form formamide compounds. Carboxylic acid esters and hydrogen as raw materials or carbon dioxide, hydrogen and amine compounds as raw materials are reacted in an organic solvent condition or a solvent-free condition in the presence of a transition metal complex as a catalyst to respectively form the corresponding alcohol compounds and/or corresponding formamide compounds. The method has the advantages of being high in reaction efficiency, good in selectivity, mild in conditions, economical, environmentally-friendly, and simple in operation, and has good promotion and application prospects.
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Paragraph 0240; 0241; 0242; 0311-0315
(2019/04/26)
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- Mn-Catalyzed Selective Double and Mono-N-Formylation and N-Methylation of Amines by using CO2
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Functionalization of amines by using CO2 is of fundamental importance considering the abundance of amines and CO2. In this context, the catalytic formylation and methylation of amines represent convenient and successful protocols for selective CO2 utilization as a C1 building block. This study represents the first example of selective catalytic double N-formylation of aryl amines by using a dinuclear Mn complex in the presence of phenylsilane. This robust system also allows for selective formylation and methylation of amines under a range of conditions.
- Huang, Zijun,Jiang, Xiaolin,Zhou, Shaofang,Yang, Peiju,Du, Chen-Xia,Li, Yuehui
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p. 3054 - 3059
(2019/04/10)
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- METHOD FOR PREPARING FORMAMIDE COMPOUND
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Disclosed is a method for preparing a formamide compound, the method uses carbon dioxide, hydrogen and an amine compound as raw materials and a transition metal complex as a catalyst, and the reaction is carried out in an organic solvent or in the absence of a solvent to form a formamide compound. The method of the present invention is an effective method of chemical utilization of carbon dioxide, which has the advantages of high reaction efficiency, a good selectivity, mild conditions, economic and environmental protection, being simple and convenient to operate and the like, and has a good popularization and application prospect.
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Paragraph 0238-0241
(2018/02/28)
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- Method for preparing N-formylated amine compounds
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The invention discloses a method for preparation N-formylated amine compounds. In the method, the amine compounds and 1,3-dihydroxy acetone are taken as reaction raw materials reacting in a reactor for 2-48 hours at the reaction temperature of 0-100DEG C in a reaction medium in the presence of composite catalysts and oxidants, and the N-formylated amine compounds are obtained. The method is simpleand moderate in reaction conditions, cost can be reduced, target products can be obtained with high yield, and the catalysts used have high catalytic activity and are easy to be separated from a reaction system and reuses; the method is environment friendly during the whole process, the reaction raw materials are easy to be converted from biodiesel by-product propylene glycol, and use of glycerolis facilitated.
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Paragraph 0040; 0048; 0049
(2018/11/03)
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- N-Formylation of Amines with CO2 and H2 by Using NHC–Iridium Coordination Assemblies as Solid Molecular Catalysts
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One of the NHC–iridium coordination assemblies containing 1,5-cyclooctadiene (COD) and iodide ion has been demonstrated as robust, efficient, recyclable solid molecular catalyst for N-formylation of diverse primary and secondary amines with CO2 and H2 under mild reaction conditions. Remarkably, in the case of N,N-dimethylformamide production, even at 0.1 mol % catalyst loading under solvent-free conditions, the solid catalyst can be readily recovered by simply filtration and reused more than 10 runs without noticeable loss of activity.
- Zhang, Yang,Wang, Jiaquan,Zhu, Haibo,Tu, Tao
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supporting information
p. 3018 - 3021
(2018/09/06)
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- An Efficient Ruthenium Catalyst Bearing Tetradentate Ligand for Hydrogenations of Carbon Dioxide
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A ruthenium complex with a tetradentate bipyridine ligand was proved to be a highly efficient catalyst for the conversions of CO2. Turnover numbers up to 300 000, 9800, and 2100 were achieved for the hydrogenations of CO2 to formamides, formamides to methanol and amines, and the direct hydrogenation of CO2 to methanol, respectively.
- Zhang, Feng-Hua,Liu, Chong,Li, Wei,Tian, Gui-Long,Xie, Jian-Hua,Zhou, Qi-Lin
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supporting information
p. 1000 - 1002
(2018/09/21)
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- Application of polydopamine sulfamic acid-functionalized magnetic Fe3O4 nanoparticles (Fe3O4@PDA-SO3H) as a heterogeneous and recyclable nanocatalyst for the formylation of alcohols and amines under solvent-free conditions
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Herein, formylation of structurally different amines and alcohols with ethyl formate was carried out in the presence of a catalytic proportion of sulfonic acid supported on polydopamine (PDA)-encapsulated Fe3O4 nanoparticles as a heterogeneous, recyclable, and greatly efficient catalyst; this method provided the corresponding N-formyl compounds in good to excellent yields under solvent-free conditions. The magnetically catalytic system was recovered, by-passing the time-consuming filtration operation using an external magnet device. This procedure also increases the purity of the product and promises economic and ecological advantages. Furthermore, the recovery and reuse of the catalyst was demonstrated five times without detectable loss in the activity.
- Taheri, Sepideh,Veisi, Hojat,Hekmati, Malak
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p. 5075 - 5081
(2017/07/11)
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- Glycerol as a Building Block for Prochiral Aminoketone, N-Formamide, and N-Methyl Amine Synthesis
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Prochiral aminoketones are key intermediates for the synthesis of optically active amino alcohols, and glycerol is one of the main biomass-based alcohols available in industry. In this work, glycerol was catalytically activated and purposefully converted with amines to generate highly valuable prochiral aminoketones, as well as N-formamides and N-methyl amines, over CuNiAlOx catalyst. The catalyst structure can be anticipated as nano-Ni species on or in CuAlOx via the formation of nano- Cu?Ni alloy particles. This concept may present a novel and valuable methodology for glycerol utilization.
- Dai, Xingchao,Rabeah, Jabor,Yuan, Hangkong,Brückner, Angelika,Cui, Xinjiang,Shi, Feng
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p. 3133 - 3138
(2016/11/29)
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- Supported nano-gold-catalyzed N-formylation of amines with paraformaldehyde in water under ambient conditions
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A simple and efficient Au/Al2O3 catalyst was prepared by the co-precipitation method for the oxidative N-formylation of amines with paraformaldehyde. Under the optimized reaction conditions, excellent amine conversion and N-formamide selectivity can be obtained with up to 97% yield with water as the solvent under ambient conditions. This catalyst tolerated a wide range of primary amines and second amines, and it can be reused for at least five runs without obvious deactivation.
- Ke, Zhengang,Zhang, Yan,Cui, Xinjiang,Shi, Feng
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p. 808 - 816
(2016/02/12)
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- Formamide Synthesis through Borinic Acid Catalysed Transamidation under Mild Conditions
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A highly efficient and mild transamidation of amides with amines co-catalysed by borinic acid and acetic acid has been reported. A wide range of functionalised formamides was synthesized in excellent yields, including important chiral α-amino acid derivatives, with minor racemisation being observed. Experiments suggested that the reaction rely on a cooperative catalysis involving an enhanced boron-derived Lewis acidity rather than an improved Br?nsted acidity of acetic acid. Amide bonds are reputedly difficult to activate due to their high resonance stabilization. An unusual mild activation of dimethylformamide and formamide by borinic acid 1 (see scheme), illustrated by a general formylation of a wide range of amines, including chiral α-amino esters, has been reported.
- Mohy El Dine, Tharwat,Evans, David,Rouden, Jacques,Blanchet, Jér?me
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supporting information
p. 5894 - 5898
(2016/04/26)
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- Highly efficient ruthenium-catalyzed N-formylation of amines with H2 and CO2
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A highly efficient catalyst system based on ruthenium-pincer-type complexes has been discovered for N-formylation of various amines with CO2 and H2, thus affording the corresponding formamides with excellent productivity (turnover numbers of up to 1940000 in a single batch) and selectivity. Using a simple catalyst recycling protocol, the catalyst was reused for 12 runs in N,N-dimethylformamide production without significant loss of activity, thus demonstrating the potential for practical utilization of this cost-effective process.
- Zhang, Lei,Han, Zhaobin,Zhao, Xiaoyu,Wang, Zheng,Ding, Kuiling
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supporting information
p. 6186 - 6189
(2015/05/20)
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- An efficient copper catalyzed formylation of amines utilizing CO2 and hydrogen
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Trans-Bis-(glycinato)copper(ii) complex was found to be a highly active, economical and efficient heterogeneous catalyst for the formylation of amines utilizing CO2 and hydrogen under solvent free conditions. This journal is
- Kumar, Subodh,Jain, Suman L.
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p. 64277 - 64279
(2015/02/19)
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- Amine formylation via carbon dioxide recycling catalyzed by a simple and efficient heterogeneous palladium catalyst
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A simple and efficient Pd/Al2O3-NR-RD catalyst was prepared by depositing palladium on a shape controllable Al2O 3-NR support through a two-step process that involves hydrothermal synthesis of Al2O3-NRs followed by reductive-deposition of palladium. This catalyst showed high activity in the catalytic formylation of amines by CO2-H2 under mild conditions with up to 96% yield.
- Cui, Xinjiang,Zhang, Yan,Deng, Youquan,Shi, Feng
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supporting information
p. 189 - 191
(2014/01/06)
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- Nano rod-shaped and reusable basic Al2O3 catalyst for N-formylation of amines under solvent-free conditions: A novel, practical and convenient 'NOSE' approach
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An expeditious, simple, highly efficient, practical and green protocol for the N-formylation of alkyl/aryl amines and indole derivatives catalyzed by novel nano rod-shaped basic Al2O3 under solvent-free conditions has been developed. The catalyst is efficiently recycled up to the 5th run, an important point in the domain of green chemistry. The methodology provides cleaner conversion, shorter reaction times and high selectivity which makes the protocol attractive. The Royal Society of Chemistry 2012.
- Das, Vijay Kumar,Devi, Rashmi Rekha,Raul, Prasanta Kumar,Thakur, Ashim Jyoti
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supporting information; experimental part
p. 847 - 854
(2012/04/23)
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- Microwave assisted amine formylation by a heterogeneous HCO 2H/SiO2 system
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A simple, fast and efficient procedure has been developed for the synthesis of formamides by treating a silica gel/formic acid mixture with amines under microwave irradiation.
- Khoramabadi-zad, Ahmad,Veisi, Hojat,Akbari, Safar-Ali,Shiri, Azam
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p. 479 - 481
(2008/02/11)
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- Thermal and microwave-assisted N-formylation using solid-supported reagents
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A rapid and easy route to formamides by microwave assisted N-formylation of primary and secondary amines is described. Using an insoluble polymer or an inorganic solid-supported reagent as a formylating agent, microwave irradiation furnished the corresponding formamides in high yields, with reduced reaction time and solvent volume over the conventional approach.
- Desai, Bimbisar,Danks, Timothy N.,Wagner, Gabriele
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p. 955 - 957
(2007/10/03)
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- Convenient N-Formylation of Secondary Amines: KF-Al2O 3-Promoted Synthesis of Formamide Derivatives via Dichlorocarbene Generated from Chloroform
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The treatment of secondary amines with chloroform in the presence of KF-Al2O3 in acetonitrile brought about highly facile and efficient N-formylation to give the corresponding formamides in good to excellent yields. The N-formylation reaction not only involves mild conditions, simple operations and high yields but high chemoselectivity as well.
- Mihara, Masatoshi,Ishino, Yoshio,Minakata, Satoshi,Komatsu, Mitsuo
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p. 2317 - 2320
(2007/10/03)
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- Rutheniumcluster als Katalysatoren fuer die Carbonylierung von cyclischen Aminen
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The tri- and tetra-nuclear ruthenium clusters Ru3(CO)12, - and - have been found to catalyse the carbonylation of cyclic amines such as piperidine, 3-methylpiperidine, pyrrolidine, heptamethylene imine, morpholine and piperazine to give the corresponding formamides.The catalytic reaction works with only carbon monoxide or a mixture of carbon dioxide and hydrogen.In the case of the neutral catalyst precursor, carbamoyl clusters of the type (μ2-H)Ru3(CO)10(μ2,η2-OCNR2) have been isolated from the reaction mixture.
- Suess-Fink, Georg,Langenbahn, Meinhard,Jenke, Thomas
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p. 103 - 110
(2007/10/02)
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- Process for formylation
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Organic basic nitrogen compounds are formylated in the presence of acetic anhydride by adding the nitrogen compound as a salt and carrying out the formylation with an alkali or ammonium formate in an organic solvent having limited miscibility with water.
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- 3-(Disubstituted)aminoisothiazolo[3,4-d]pyrimidines
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Novel 3-(disubstituted)aminoisothiazolo[3,4-d]-pyrimidines of the formula Wherein R 1, R 2 and R 3 are respectively alkyl, alkenyl, aryl, aralkyl or aralkenyl, each of which may be substituted, or R 1 and R 2 form together with the adjacent nitrogen a heterocyclic ring which may be substituted, R 4 is hydrogen or alkyl and X is oxygen or imino with a proviso that when X is imino R 4 is hydrogen, show an eminent adenosine-3',5'-cyclic phosphate phosphodiesterase-inhibitory activity, and exhibit excellent pharmacological actions such as antiinflammatory and sedative activities
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