81979-58-0Relevant academic research and scientific papers
DBU-promoted tandem Michael-addition/cyclization for the synthesis of polysubstituted pyrroles
Yang, Tianyu,Wang, Ke-Hu,Huang, Danfeng,Li, Pengfei,Deng, Zhoubin,Su, Yinpeng,Hu, Yulai
, p. 2291 - 2297 (2019/03/06)
An efficient and transition-metal-free method for the synthesis of the structurally diversified pyrroles is described. Various α,β-unsaturated ynones reacted with N-substituted ethyl glycine ethyl ester hydrochlorides in the presence of DBU to form the co
Application of 2-aryl substituted pyrrole compound in medicine for killing oncomelania hupensis
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Paragraph 0107; 0109; 0112; 0113, (2019/01/08)
The invention relates to an application of 2-aryl substituted pyrrole compound in a medicine for killing oncomelania hupensis and belongs to the technical field of prevention and treatment of bilharziasis, and particularly provides the chemical structure of the 2-aryl substituted pyrrole compound and a preparation method of same. The 2-aryl substituted pyrrole compound, being an active component,is used for preparing the snail killing agent in the forms of suspending agents, emulsions and micro-emulsions for killing the oncomelania hupensis. Immersion killing use amount of the 2-aryl substituted pyrrole compound being the active component of the snail killing agent is 0.1-10.00 mg/l, and immersion killing time is 24-72 h. The use amount of spray application is 1-10 g/m and action timeis 3-7 days. Experiment proves that the 2-aryl substituted pyrrole compound has killing activity on the oncomelania hupensis and is lower than a snail killing agent, niclosamide, in the prior art in toxicity on aquatic organisms. The compound can be processed to prepare the snail killing agents and applied in the field of prevention and treatment of bilharziasis.
Application of 2-aryl substituted pyrrole compound in medicine for killing biomphalarid snails
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Paragraph 0115; 0117; 0120; 0121, (2019/01/08)
The invention relates to an application of 2-aryl substituted pyrrole compound in a medicine for killing biomphalarid snails and belongs to the technical field of prevention and treatment of bilharziasis, and particularly provides the chemical structure of the 2-aryl substituted pyrrole compound and a preparation method of same. The 2-aryl substituted pyrrole compound, being an active component, is used for preparing the snail killing agent in the forms of suspending agents, emulsions and micro-emulsions for killing the biomphalarid snail. Immersion killing use amount of the 2-aryl substitutedpyrrole compound being the active component of the snail killing agent is 0.5-10.00 mg/l, and immersion killing time is 24-72 h. Experiment proves that the 2-aryl substituted pyrrole compound has killing activity on the biomphalarid snails and is lower than a snail killing agent, niclosamide, in the prior art in toxicity on aquatic organisms. The compound can be processed to prepare the snail killing agents and applied in the field of prevention and treatment of bilharziasis.
A solvent-free synthesis of ethyl 3,5-diaryl-1H-pyrrole-2-carboxylates via triethylphosphite mediated reductive cyclization of ethyl 2-nitro-5-oxo-3,5- diarylpentanoates under microwave irradiation
Khajuria, Rajni,Saini, Yeshwinder,Kapoor, Kamal K.
, p. 5699 - 5702 (2013/09/24)
Ethyl 3,5-diaryl-1H-pyrrole-2-carboxylates have been synthesized in good yields from ethyl 2-nitro-5-oxo-3,5-diarylpentanoates by treatment with triethylphosphite under microwave irradiation. The integrity of the mechanism proposed has been augmented by
Rhodium Complex-Catalyzed Reaction of Isonitriles with Carbonyl Compounds: Catalytic Synthesis of Pyrroles
Takaya, Hikaru,Kojima, Sachiko,Murahashi, Shun-Ichi
, p. 421 - 424 (2007/10/03)
(Matrix Presented) Low-valent rhodium complexes are efficient catalysts for the activation of α-C-H bond of isonitriles. Addition of isonitriles to carbonyl compounds proceeds under mild and neutral conditions to give the corresponding α,β-unsaturated for
THE REACTION OF β-AMINOENONES WITH α-AMINO DERIVATIVES. SYNTHESIS OF 2-FUNCTIONALIZED PYRROLES
Alberola, Angel,Andres, Jose M.,Gonzalez, Alfonso,Pedrosa, Rafael,Vicente, Martina
, p. 1049 - 1058 (2007/10/02)
β-Aminoenones react with ethyl glycinate, α-aminoacetonitrile and α-aminoacetamide hydrochlorides leading to 2-fuctionalized pyrroles.Although the trans-amination is a high-yield process, the transformation of the intermediate, in both basic or thermally
THE SYNTHESIS AND CHEMISTRY OF AZOLENINES. PART 18. PREPARATION OF 3-ETHOXYCARBONYL-3H-PYRROLES VIA THE PAAL-KNORR REACTION, AND SIGMATROPIC REARRANGEMENTS INVOLVING COMPETITIVE ESTER MIGRATIONS TO C-2, C-4 AND N.
Chiu, Pak-Han,Sammes, Michael P.
, p. 3439 - 3456 (2007/10/02)
3H-Pyrrole-3-carboxylic esters (4) have been prepared, in some cases together with isomers (5) and (6) having exocyclic double bonds, by cyclization of suitably substituted 2-ethoxycarbonyl-1,4-diketones (1) with liquid ammonia, followed by dehydration of the isolable 2-hydroxy-3,4-dihydro-2H-pyrrole intermediates (2) and (3) with aluminia in boiling solvents.Prolonged heating in toluene or p-xylene converts the 3H-pyrroles (4) quantitatively into isomeric 4-esters (11) and N-esters (13) of 1H-pyrroles via competitive sigmatropic rearrangements.Isolable intermediate 2H-pyrrole-2-carboxylic esters (12) are converted similarly into the same products, under the same conditions.Detection of 3H-pyrroles (4) as intermediates in the latter reaction demonstrates for the first time the reversibility of the thermal 2H-pyrrole to 3H-pyrrole interconversion.
