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Cyclohexanol, 2-(4-methylphenyl)-, (1R,2S)- is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

146923-71-9

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146923-71-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 146923-71-9 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,4,6,9,2 and 3 respectively; the second part has 2 digits, 7 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 146923-71:
(8*1)+(7*4)+(6*6)+(5*9)+(4*2)+(3*3)+(2*7)+(1*1)=149
149 % 10 = 9
So 146923-71-9 is a valid CAS Registry Number.

146923-71-9Downstream Products

146923-71-9Relevant academic research and scientific papers

Synthesis method of chiral trans-2-substituted naphthenic alcohol

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Paragraph 0035-0047; 0070-0071, (2021/09/08)

The invention relates to a synthesis method of chiral trans-2-substituted naphthenic alcohol. The invention provides a method for synthesizing chiral trans-cycloalkanol through asymmetric hydrogenation of palladium-catalyzed 2-substituted cyclic ketone. According to the method,a chiral diphosphine P-P * complex of metal palladium is taken as a catalyst, an acid additive is used in cooperation, asymmetric hydrogenation is carried out on a 2-substituted cyclic ketone compound to obtain a corresponding chiral trans-cycloalkanol compound. the enantiomeric excess of the chiral trans-cycloalkanol compound can reach 97% at most, and the trans-selectivity of the chiral trans-cycloalkanol compound is up to 20: 1. The method is simple and convenient to operate, practical, easy to implement, high in yield, high in atom economy and environment-friendly; the catalyst is commercially available; the reaction conditions are mild; and the method has a potential practical application value.

Palladium-catalyzed asymmetric hydrogenation of 2-aryl cyclic ketones for the synthesis oftranscycloalkanols through dynamic kinetic resolution under acidic conditions

Li, Xiang,Zhao, Zi-Biao,Chen, Mu-Wang,Wu, Bo,Wang, Han,Yu, Chang-Bin,Zhou, Yong-Gui

supporting information, p. 5815 - 5818 (2020/06/03)

The first efficient palladium-catalyzed asymmetric hydrogenation of 2-aryl cyclic ketones has been described through dynamic kinetic resolution under acidic conditions, providing a facile access to chiraltranscycloalkanol derivatives with excellent enantioselectivities.

Asymmetric Induction via a Helically Chiral Anion: Enantioselective Pentacarboxycyclopentadiene Br?nsted Acid-Catalyzed Inverse-Electron-Demand Diels-Alder Cycloaddition of Oxocarbenium Ions

Gheewala, Chirag D.,Hirschi, Jennifer S.,Lee, Wai-Hang,Paley, Daniel W.,Vetticatt, Mathew J.,Lambert, Tristan H.

supporting information, p. 3523 - 3527 (2018/03/21)

An enantioselective catalytic inverse-electron-demand Diels-Alder reaction of salicylaldehyde acetal-derived oxocarbenium ions and vinyl ethers to generate 2,4-dioxychromanes is described. Chiral pentacarboxycyclopentadiene (PCCP) acids are found to be effective for a variety of substrates. Computational and X-ray crystallographic analyses support the unique hypothesis that an anion with point-chirality-induced helical chirality dictates the absolute sense of stereochemistry in this reaction.

Selective Formation of Functionalized α-Quaternary Malononitriles toward 5,5-Disubstituted Pyrrolopyrimidinones

Whitehead, Alan,Zhang, Yong,McCabe Dunn, Jamie,Sherer, Edward C.,Lam, Yu-Hong,Stelmach, John,Sun, Aaron,Shiroda, Melisa,Orr, Robert K.,Waddell, Sherman T.,Raghavan, Subharekha

supporting information, p. 4448 - 4451 (2017/09/11)

A modular, selective approach to complex α-tertiary substituted malononitriles is reported. The method takes advantage of β-ester-substituted α,α-dinitrile alkenes as highly reactive, chemoselective electrophiles for 1,4-additions with organometallic nucleophiles to produce functionally and sterically dense all-carbon quaternary centers. In the presence of a chiral ester auxiliary bearing an aromatic ring, the 1,4-addition occurs with good to excellent selectivity due to favorable cation-π interactions. The highly functionalized malononitriles represent versatile building blocks and can be applied toward efficient, highly selective syntheses of 5,5-disubstituted pyrrolopyrimidinones.

Trans-2-tritylcyclohexanol as a chiral auxiliary in permanganate-mediated oxidative cyclization of 2-methylenehept-5-enoates: Application to the synthesis of trans-(+)-linalool oxide

Al Hazmi, Ali M.,Sheikh, Nadeem S.,Bataille, Carole J.R.,Al-Hadedi, Azzam A.M.,Watkin, Sam V.,Luker, Tim J.,Camp, Nicholas P.,Brown, Richard C.D.

supporting information, p. 5104 - 5107 (2015/01/08)

The permanganate-mediated oxidative cyclization of a series of 2-methylenehept-5-eneoates bearing different chiral auxiliaries was investigated, leading to the discovery of trans-2-tritylcyclohexanol (TTC) as a highly effective chiral controller for the f

A nonenzymatic kinetic resolution of (±)-trans-2-arylcyclohexanols via esterification using polymer-supported DCC, DMAP, and 3 β- acetoxyetienic acid

Shamoto, Kengo,Miyazaki, Atsushi,Matsukura, Mika,Kobayashi, Yuki,Shioiri, Takayuki,Matsugi, Masato

supporting information, p. 1425 - 1431 (2013/05/22)

A nonenzymatic kinetic resolution of (±)-trans-2-arylcyclohexanols was carried out by esterification using polymer-supported N,N′- dicyclohexylcarbodiimide (DCC), dimethylaminopyridine (DMAP), and 3β-acetoxyetienic acid. The efficiency of the kinetic resolution was comparable to the enzymatic method when arylcyclohexanols bearing a condensed-aromatic ring were used. Supplemental materials are available for this article. Go to the publisher's online edition of Synthetic Communication to view the free supplemental file.

Catalytic hydrogen atom transfer (HAT) for sustainable and diastereoselective radical reduction

Gansaeuer, Andreas,Klatte, Max,Braendle, Gerhard M.,Friedrich, Joachim

supporting information; experimental part, p. 8891 - 8894 (2012/10/08)

Going cyclic! A catalytic cycle and cyclic transition states enable a novel sustainable and catalytic hydrogen atom transfer (HAT) for highly diastereoselective radical reductions. Readily available nontoxic silanes are the terminal reductants for epoxides that are opened by bifunctional titanocene(III) hydride catalysts. Copyright

Tin(IV) chloride-chiral pyrogallol derivatives as new Lewis acid-assisted chiral Bronsted acids for enantioselective polyene cyclization

Kumazawa, Keiko,Ishihara, Kazuaki,Yamamoto, Hisashi

, p. 2551 - 2554 (2007/10/03)

(Matrix Presented) New Lewis acid-assisted Bronsted acids (LBAs), tin(IV) chloride-2,6-dialkoxyphenols, serve as artificial cyclases for biomimetic polyene cyclization. For example, the enantioselective cyclization of 4-(homogeranyl)toluene using tin(IV) chloride-2,6-di[(1′R,2′R)- trans-2′-(3″,5″-xylyl)cyclohexanoxy]-phenol gave a trans-fused tricyclic compound with 85% ee.

Effective nonenzymatic kinetic resolution of (±)-trans-2-arylcyclohexanols using 3β-acetoxyetienic acid, DCC, and DMAP

Matsugi, Masato,Hagimoto, Yuri,Nojima, Masatomo,Kita, Yasuyuki

, p. 583 - 584 (2013/09/05)

(1R,2S)-trans-2-Arylcyclohexanols of high enantiomerically purity were obtained by the simple stirring of the corresponding (±)-arylcyclohexanols with 3β-acetoxyetienic acid, DCC, and DMAP at room temperature.

Synthesis of an enantiopure 2-arylcyclohexanols from prochiral enol acetates by an enantioselective protonation/diastereoselective reduction sequence

Asensio, Gregorio,Cuenca, Ana,Rodriguez, Nuria,Medio-Simon, Mercedes

, p. 3851 - 3855 (2007/10/03)

The enantioselective protonation with 2-sulfinyl alcohols of lithium enolates of 2-arylcyclohexanones with different substituents on the phenyl group takes place with excellent enantioselectivities (89-99%). Chiral 2-phenylcyclohexanone and 2-arylcyclohexanones carrying electron donor substituents on the aromatic ring are converted into the corresponding trans-2-arylcyclohexanols by diastereoselective reduction with sodium naphthalenide in the presence of acetamide. The stereochemical integrity of the tertiary stereocenter is fully preserved using this reduction procedure. Interestingly, the chiral proton source is not consumed in the synthesis.

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