51791-24-3

Upstream product

• 1866-38-2 m-Chlorocinnamic acid 
• 456-39-3 3-chlorobenzenediazonium tetrafluoroborate 
• 79-06-1 2-propenamide 
• 1597410-53-1 (E)-S-methyl 4-(3-chlorophenyl)-2-oxobut-3-enethioate 
• 770-23-0 (E)-3-(3-chlorophenyl)propenal 

Downstream Products

• 18655-49-7 3-(3-Chloro-phenyl)-propylamine 

Relevant academic research and scientific papers

Rearrangement of aldoximes to amides in water under air atmosphere catalyzed by water-soluble iridium complex [Cp*Ir(H2O) 3][OTf]2

In the presence of the water-soluble iridium complex [Cp*Ir(H 2O)3][OTf]2, a variety of aldoximes, including aromatic, aliphatic, conjugated unsaturated and non-conjugated unsaturated, were converted into their corresponding amides in water with good to excellent yields. Further, the one-pot synthesis of amides from aldehydes, hydroxylamine hydrochloride and sodium carbonate via a tandem condensation-rearrangement reaction in water was also accomplished. Compared with the reported organometallic catalysts for the rearrangement of aldoximes to amides in water, the present catalyst exhibited some advantages such as being phosphorus ligand-free, having low catalyst loading, and operational convenience under air atmosphere. This journal is the Partner Organisations 2014.

Copper(II)-Catalyzed Reactions of α-Keto Thioesters with Azides via C-C and C-S Bond Cleavages: Synthesis of N-Acylureas and Amides

Cu(II)-catalyzed reaction of α-keto thioesters with trimethylsilyl azide (TMSN3) proceeds with the transformation of the thioester group into urea through C-C and C-S bond cleavages, constituting a practical and straightforward synthesis of N-acylureas. When diphenyl phosphoryl azide (DPPA) is used instead as the azide source in an aqueous environment, primary amides are formed via substitution of the thioester group. The reactions are proposed to proceed through Curtius rearrangement of the initially formed α-keto acyl azide to generate an acyl isocyanate intermediate, which reacts further with an additional amount of azide or water and rearranges to afford the corresponding products. To demonstrate the potentiality of the method, one-step syntheses of pivaloylurea and isovaleroylurea, displaying anticonvulsant activities, have been carried out.

A method of from [...] amide

The invention discloses a method for synthesizing amides from oxime. The method is characterized by adding oxime, water and a water-soluble iridium complex catalyst to a reaction vessel, cooling a reactant to the room temperature after the reaction mixture reacts at 80-120 DEG C for several hours, removing water through selective evaporation, and obtaining a target product through column separation. Compared with existing methods for synthesizing amides through oxime rearrangement in water through transition metal catalysis, the method has the advantages that the used catalyst is low in load and does not contain phosphine ligands severely polluting the environment, so that the reaction can be carried out in the air, without nitrogen protection; therefore the reaction meets the green chemical requirements and has an extensive development prospect.

A method from the aldehyde amide

The invention discloses a method for synthesizing amides from aldehyde. The method comprises the following steps: adding aldehyde, hydroxylamine hydrochloride, alkali and water to a reaction vessel to react at room temperature for half an hour; adding a water-soluble iridium complex after aldehyde is completely transformed into oxime, cooling a reactant to the room temperature after the reaction mixture reacts at 80-120 DEG C for several hours, removing water through selective evaporation, and obtaining a target product through column separation. Compared with existing methods for synthesizing amides by generating oxime through one-pot reaction between aldehyde and hydroxylamine in water and then carrying out rearrangement, the method has the advantages that the used catalyst is low in load and does not contain phosphine ligands severely polluting the environment, so that the reaction can be carried out in the air, without nitrogen protection; therefore the reaction meets the green chemical requirements and has an extensive development prospect.

Heck-Matsuda reactions catalyzed by a hydroxyalkyl-functionalized NHC and palladium acetate

The functionalized NHC obtained from salt 2 is a good ligand for palladium in the Heck-Matsuda reaction of arenediazonium salts and different alkenes. The reaction is performed with low catalyst loading (0.5-1 mol-% of Pd) and in the absence of a base for acrylates. The protocol is also useful for the preparation of cinnamide derivatives. Compound U-77863 has been prepared successfully in good isolated yield. Cyclohexene was found to be an appropriate substrate for the reaction, giving the corresponding 1-arylcyclohexene as a single regioisomer under the studied reaction conditions. The optimal parameters of the reaction were studied by employing a design of experiments approach. Thus, the use of a small set of reactions allows the trends of the different factors to be studied. This study revealed that the best catalytic system is formed by combination of Pd(OAc)2 and salt 2 in a 1:2 ratio. This catalytic system produces better results without the use of a base. Copyright

Method for treating glaucoma

Methods of using prostaglandin agonists for the reduction of intraocular pressure, and accordingly glaucoma.

Prostaglandin agonists and their use to treat bone disorders

This invention relates to prostaglandin agonists, methods of using such prostaglandin agonists, pharmaceutical compositions containing such prostaglandin agonists and kits containing such prostaglandin agonists. The prostaglandin agonists are useful for the treatment of bone disorders including osteoporosis.