119-81-3Relevant articles and documents
Fused tricyclic derivative as FGFR4 inhibitor
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Paragraph 0597-0602, (2021/05/12)
The present invention provides a fused tricyclic derivative that is the selective inhibitor of fibroblast growth factor receptor 4 (FGFR4), a pharmaceutical composition containing the compound, a method of making the compound and a method of treating cell proliferative diseases, such as cancer, using the compounds of the invention.
Electrochemical Nitration with Nitrite
Blum, Stephan P.,Nickel, Christean,Sch?ffer, Lukas,Karakaya, Tarik,Waldvogel, Siegfried R.
, p. 4936 - 4940 (2021/10/25)
Aromatic nitration has tremendous importance in organic chemistry as nitroaromatic compounds serve as versatile building blocks. This study represents the electrochemical aromatic nitration with NBu4NO2, which serves a dual role as supporting electrolyte and as a safe, readily available, and easy-to-handle nitro source. Stoichiometric amounts of 1,1,1-3,3,3-hexafluoroisopropan-2-ol (HFIP) in MeCN significantly increase the yield by solvent control. The reaction mechanism is based on electrochemical oxidation of nitrite to NO2, which initiates the nitration reaction in a divided electrolysis cell with inexpensive graphite electrodes. Overall, the reaction is demonstrated for 20 examples with yields of up to 88 %. Scalability is demonstrated by a 13-fold scale-up.
Transition-metal-free mono- or dinitration of protected anilines
Dai, Enrui,Dong, Ying,Dong, Yongrui,Kong, Rui,Liang, Deqiang,Liu, Guangzhang,Ma, Yinhai,Wu, Qiong
, (2020/04/27)
An amide-assisted arene nitration is presented, and both mono- and dinitration of protected anilines could be effected by using NaNO2 and NaNO3 as the mono- and bisnitrating agents, respectively. This divergent synthesis is transition-metal- and acid-free, and features a broad substrate scope, low cost, and ortho–para selectivity.
Method for synthesizing 4-methoxy-2-nitroaniline by adopting continuous flow reactor
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Paragraph 0038; 0040; 0044; 0047; 0049; 0053; 0056; 0058, (2020/10/05)
The invention relates to the technical field of organic synthesis, and discloses a method for synthesizing 4-methoxy-2-nitroaniline by using a continuous flow reactor. The method comprises the following steps: S1, respectively adding a 4-methoxyaniline solution and acetic anhydride into a continuous flow reactor I, and carrying out an acetylation reaction to obtain a reaction solution I containing4-methoxyacetanilide; S2, respectively adding a nitration reagent and the reaction solution I into a continuous flow reactor II, and carrying out a nitration reaction to obtain a reaction solution IIcontaining 4-methoxy-2-nitroacetanilide; S3, respectively adding hydrolysate and the reaction solution II into a continuous flow reactor III, and carrying out a hydrolysis reaction to obtain a reaction solution III containing 4-methoxy-2-nitroaniline; and S4, carrying out post-treatment on the reaction solution III to obtain 4-methoxy-2-nitroaniline. The method is high in reaction speed, small inamount of byproduct 4-methoxy-3-nitroaniline, high in heat and mass transfer efficiency, high in reaction safety, high in selectivity, high in yield and purity and convenient in after-treatment.
3-(Ethoxycarbonyl)-1-(5-methyl-5-(nitrosooxy)hexyl)pyridin-1-ium cation: A green alternative to tert-butyl nitrite for synthesis of nitro-group-containing arenes and drugs at room temperature
Chaudhary, Renu,Natarajan, Palani,Rani, Neetu,Sakshi,Venugopalan, Paloth
supporting information, (2019/12/30)
Due to their remarkable properties, task-specific ionic liquids have turned out to be progressively popular over the last few years in the field of green organic synthesis. Herein, for the first time, we report that a new task-specific nitrite-based ionic liquid such as 3-(ethoxycarbonyl)-1-(5-methyl-5-(nitrosooxy)hexyl)pyridin-1-ium bis(trifluoromethanesulfonyl)imides (TS-N-IL) derived from biodegradable ethyl nicotinate indeed acted as an efficient and eco-friendly reagent for the synthesis of highly valuable nitroaromatic compounds and drugs including nitroxynil, tolcapone, niclofolan, flutamide, niclosamide and nitrazepam. The bridging of an ionic liquid with nitrite group not only increases the yield and rate of direct C[sbnd]N bond formation reaction but also allows easy product separation and recyclability of a byproduct. Nonvolatile nature, easy synthesis, merely stoichiometric need and mildness are a portion of the extra focal points of TS-N-IL while contrasted with tert-butyl nitrite an outstanding and highly-flammable reagent utilized largely in organic synthesis.
Acylamino-Directed Specific Sequential Difunctionalizations of Anilides via Metal-Free Relay Reactions for p-Oxygen and o-Nitrogen Incorporation
Wan, Yameng,Zhang, Zhiguo,Ma, Nana,Bi, Jingjing,Zhang, Guisheng
, p. 780 - 791 (2019/01/24)
Novel acylamino-directed relay disubstitutions realize the sequential difunctionalizations of anilides (1) under mild and metal-free conditions for the first time. This [bis(trifluoroacetoxy)iodo]benzene (PIFA) and BF3·Et2O promoted straightforward reaction produces a series of p-acetoxyl- or p-alkoxyl-o-nitro-N-arylamides (2), which are key scaffolds of various drugs, functional materials, and bioactive molecules. The flexibility with respect to the functional groups in these products affords this novel protocol excellent versatility for synthetic applications.
Nitration method for aryl phenol or aryl ether derivative
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Paragraph 0050-0055; 0101-0103, (2020/01/03)
The invention relates to a nitration method for an aryl phenol or aryl ether derivative. The method comprises the steps of stirring an aryl phenol or aryl ether compound, nitrate, trimethylchlorosilane (TMSCl) and a copper salt in an acetonitrile solution in air at room temperature, simultaneously, monitoring extent of reaction through a TLC dot plate, removing a solvent from a mixture by a rotaryevaporator after a substrate is consumed completely, and carrying out purification through a silica-gel column, thereby obtaining a nitroolefin derivative. Meanwhile, the selective mono-nitration orbis-nitration of the substrate can be achieved through controlling equivalent weight of the nitrate. Compared with the prior art, the nitration method disclosed by the invention has the advantages that the consumption of strong-acid substances is avoided, the reaction conditions are mild, the yield is high, the applicable range of the substrate is wide, reaction activity is free of obvious attenuation after an amplified reaction, and an excellent yield is still obtained, so that the method has an obvious industrial application value.
A O-nitro to the preparation method of the anisidine
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Paragraph 0012, (2018/07/15)
The invention relates to a O-nitro to anisidine preparation method. Characterized in that to the anisidine as raw materials, by acetylation, mixed acid nitration to obtain the 4 - methoxy - 2 - nitro acetanilide, and hydrolyzed to from 2 - nitro - 4 - methoxybenzene elimination and to acetaminophen as raw materials, by methylation, antirust, the reduction reaction of the nitro to synthetic O-anisidine.
NOVEL FYN KINASE INHIBITORS
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Page/Page column 24, (2017/03/28)
The present invention relates to the novel therapies to treat neurodegenerative diseases such as Parkinson's disease (PD). The present invention relates to novel small molecule inhibitors of Fyn Kinase and for testing activity against Parkinsons's disease models compounds that inhibit Fyn kinase having the following formula. (I)
Salicylic Acid-Catalyzed One-Pot Hydrodeamination of Aromatic Amines by tert-Butyl Nitrite in Tetrahydrofuran
Felipe-Blanco, Diego,Alonso, Francisco,Gonzalez-Gomez, Jose C.
supporting information, p. 2857 - 2863 (2017/08/23)
A significant acceleration in the hydrodeamination of in situ formed diazonium salts (from aromatic amines) has been observed in the presence of 10-mol% salicylic acid, using tetrahydrofuran as the hydrogen donor. The reaction proceeds efficiently at 20 °C for a wide range of substituted anilines, even at 10-mmol scale, without any other additive. The same protocol has been adapted to the selective deuterodeamination of some aromatic amines. Control experiments clearly show that aryl radicals are involved in the reaction mechanism. (Figure presented.).
