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1H-Indole, 2-(4-iodophenyl)-, also known as 2-(4-iodophenyl)-1H-indole, is an organic compound with the molecular formula C13H10IN. It is a derivative of indole, a heterocyclic aromatic organic compound consisting of a benzene ring fused to a pyrrole ring. The 4-iodophenyl group is attached to the 2-position of the indole ring, making it a substituted indole. 1H-Indole, 2-(4-iodophenyl)- is of interest in the field of organic chemistry and may have potential applications in the synthesis of pharmaceuticals and other chemical compounds due to its unique structure and properties.

6202-59-1

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6202-59-1 Usage

Physical State

Pale yellow solid

Class

Indole derivatives

Synthesis

Used in the synthesis of various pharmaceuticals and organic compounds

Pharmaceutical Industry

Commonly used for the production of drugs and research purposes

Role

Key intermediate in organic synthesis, valuable building block in chemical synthesis

Applications

Preparation of various biochemicals, development of new drugs

Check Digit Verification of cas no

The CAS Registry Mumber 6202-59-1 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 6,2,0 and 2 respectively; the second part has 2 digits, 5 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 6202-59:
(6*6)+(5*2)+(4*0)+(3*2)+(2*5)+(1*9)=71
71 % 10 = 1
So 6202-59-1 is a valid CAS Registry Number.

6202-59-1Relevant academic research and scientific papers

Acid-catalyzed cleavage of C-C bonds enables atropaldehyde acetals as masked C2 electrophiles for organic synthesis

Chen, Shaomin,Gu, Yanlong,Li, Minghao

supporting information, p. 10431 - 10434 (2021/10/12)

Acid-catalyzed tandem reactions of atropaldehyde acetals were established for the synthesis of three important molecules, 2,2-disubstituted indolin-3-ones, naphthofurans and stilbenes. The synthesis was realized using novel reaction cascades, which involved the same two initial steps: (i) SN2′ substitution, in which the atropaldehyde acted as an electrophile; and (ii) oxidative cleavage of the carbon-carbon bond of the generated phenylacetaldehyde-type products. Compared with literature methods, the present protocol not only avoided the use of expensive noble metal catalysts, but also enabled a simple operation.

An iron(iii)-catalyzed dehydrogenative cross-coupling reaction of indoles with benzylamines to prepare 3-aminoindole derivatives

Chen, Wei-Li,Li, Kun,Liang, Cui,Liang, Wang-Fu,Liao, Wei-Cong,Mo, Dong-Liang,Qiu, Pei-Wen,Su, Gui-Fa

supporting information, p. 9610 - 9616 (2021/12/09)

We report a green cascade approach to prepare a variety of 3-aminoindole derivatives in good to excellent yields through an iron(iii)-catalyzed dehydrogenative cross-coupling reaction of 2-arylindoles and primary benzylamines under mild reaction conditions. Mechanistic studies show that a cascade reaction involves a tert-butyl nitrite (TBN)-mediated nitrosation of 2-substituted indoles and a 1,5-hydrogen shift to afford indolenine oximes, sequential iron(iii)-catalyzed condensation and a 1,5-hydrogen shift over four steps in a one-pot reaction. The reaction shows a broad substrate scope of indoles and benzylamines and tolerates a wide range of functional groups. Moreover, the reaction is easily performed at the gram scale without producing waste after the reaction is completed. The 3-aminoindole product is purified by simple extraction, washing, and recrystallization without flash column chromatography. A double imine ligand containing the 3-aminoindole unit is facile to obtain in a 52% yield in one step. The present method highlights readily available starting materials, a simple purification procedure, and the usage of cheap, nontoxic, and environmentally benign iron(iii) catalysts. This journal is

Aniline-initiated and Br?nsted acid-catalyzed one-pot reaction toward 2-aryl-3-sulfenylindoles by using α-aminocarbonyl compounds and primary amines with RSSR

Chen, De,Cheng, Chaozhihui,Deng, Wei,Guan, Wenjian,Liu, Yuxuan,Luo, Yongyue,Xiang, Jiannan,Zhang, Jiajia

, (2020/12/01)

A highly novel method of direct synthesis of 2-aryl-3-sulfenylindoles in moderate to good yields was developed via one-pot tandem reaction of readily available α-aminocarbonyl compounds and catalytic amount of benzenamines with RSSR.

Palladium-catalyzed tandem addition/cyclization in aqueous medium: Synthesis of 2-arylindoles

Yu, Shuling,Hu, Kun,Gong, Julin,Qi, Linjun,Zhu, Jianghe,Zhang, Yetong,Cheng, Tianxing,Chen, Jiuxi

, p. 4300 - 4307 (2017/07/10)

An efficient protocol to construct 2-arylindoles was developed through palladium-catalyzed tandem addition/cyclization of potassium aryltrifluoroborates with aliphatic nitriles in aqueous medium. The use of water as the reaction medium makes the synthesis process environmentally benign. A plausible mechanism for the formation of 2-arylindoles involving sequential nucleophilic addition followed by an intramolecular cyclization is proposed. Moreover, the utility of this catalytic tandem transformation was also demonstrated in an efficient gram-scale synthesis. This method provides an alternative synthetic tool for accessing a more diverse array of 2-arylindoles.

The Development of a Palladium-Catalyzed Tandem Addition/Cyclization for the Construction of Indole Skeletons

Yu, Shuling,Qi, Linjun,Hu, Kun,Gong, Julin,Cheng, Tianxing,Wang, Qingzong,Chen, Jiuxi,Wu, Huayue

, p. 3631 - 3638 (2017/04/11)

A palladium-catalyzed tandem addition/cyclization of 2-(2-aminoaryl)acetonitriles with arylboronic acids has been developed for the first time, achieving a new strategy for direct construction of indole skeletons. This system shows good functional group tolerance and remarkable chemoselectivity. In particular, the halogen (e.g., bromo and iodo) substituents are amenable to further synthetic elaborations thereby broadening the diversity of the products. Preliminary mechanistic experiments indicate that this transformation involves sequential nucleophilic addition followed by an intramolecular cyclization.

Palladium/Copper Cocatalyzed Coupling Reaction of Aroyl Hydrazides with Indoles

Liu, Congrong,Yang, Fulai

supporting information, p. 1213 - 1217 (2016/12/28)

An unprecedented palladium/copper cocatalyzed coupling reaction of indoles with simple aroyl hydrazides has been developed under aerobic conditions. A range of aroyl hydrazides underwent palladium/copper cocatalyzed oxidative arylation with indoles open to air in a 1:1 mixture of dimethyl sulfoxide and nitromethane to give structurally diverse 2-arylindoles or 3-arylindoles in moderate to good yields. The reaction well tolerates a wide variety of functional groups such as alkoxy, halo, ester.

Palladium-catalyzed direct arylation of indoles with arylsulfonyl hydrazides

Liu, Congrong,Ding, Lianghui,Guo, Guang,Liu, Weiwei,Yang, Fu-Lai

, p. 2824 - 2827 (2016/03/12)

A novel method to synthesise 2-arylindoles is demonstrated via direct arylation of indoles with arylsulfonyl hydrazides. Under the optimized reaction conditions, the reaction well tolerates a wide variety of functional groups to afford structurally diverse 2-arylindoles in good to excellent yields at 70 °C.

Synthesis and in vitro binding of N,N-dialkyl-2-phenylindol-3-yl-glyoxylamides for the peripheral benzodiazepine binding sites

Homes, Taryn P.,Mattner, Filomena,Keller, Paul A.,Katsifis, Andrew

, p. 3938 - 3946 (2007/10/03)

A series of N,N-dialkyl-2-phenylindol-3-ylglyoxylamides bearing the halogens iodine and bromine were synthesised and their binding affinity for the peripheral benzodiazepine binding sites (PBBS) in rat kidney mitochondrial membranes was evaluated using [

Synthesis and receptor binding studies of halogenated N,N-dialkylel-(2-phenyl-1H-indol-3-yl)glyoxylamides to visualize peripheral benzodiazepine receptors with SPECT or PET

Bennacef, Idriss,Haile, Colin N.,Schmidt, Anne,Koren, Andrei O.,Seibyl, John P.,Staley, Julie K.,Bois, Frederic,Baldwin, Ronald M.,Tamagnan, Gilles

, p. 7582 - 7591 (2008/02/08)

A library of halogenated 2-arylindolyl-3-oxocarboxamides was prepared to develop radioligands to visualize cerebral PBR by SPECT and PET imaging. In vitro evaluation showed that most of the synthesized compounds were selective,high-affinity PBR ligands with adequate lipophilicity (log D7.4 in the range of 1.6-2.4). The iodinated derivative 11 (Ki = 2.6 nM) and the fluorinated analog 26 (Ki = 6.2 nM) displayed higher affinity than reference compounds.

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