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(R)-3,3'-DIMETHYL-1,1'-BINAPHTHALENE-2,2'-DIOL, also known as DMBINOL, is a chiral organic compound characterized by its binaphthyl backbone. It is renowned for its role as a chiral auxiliary in asymmetric synthesis, which is pivotal in the creation of chiral ligands for transition metal-catalyzed reactions. (R)-3,3'-DIMETHYL-1,1'-BINAPHTHALENE-2,2'-DIOL's unique structural attributes contribute to its effectiveness in facilitating enantioselective transformations, thereby making it an indispensable tool in the synthesis of pharmaceuticals, agrochemicals, and fine chemicals.

55515-98-5

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55515-98-5 Usage

Uses

Used in Pharmaceutical Industry:
DMBINOL is utilized as a chiral auxiliary in the asymmetric synthesis of pharmaceuticals, where its ability to enhance enantioselectivity is crucial for the production of enantiomerically pure compounds. This ensures the desired biological activity and minimizes potential side effects associated with less selective processes.
Used in Agrochemical Industry:
In the agrochemical sector, DMBINOL serves as a chiral auxiliary for the synthesis of chiral pesticides and other agrochemicals. Its role in enantioselective transformations helps in creating more effective and environmentally friendly products by targeting specific pests while reducing harm to non-target organisms.
Used in Fine Chemicals Industry:
DMBINOL is employed in the synthesis of fine chemicals, where its chiral properties are harnessed to produce high-quality specialty chemicals with specific applications in various fields, such as fragrances, dyes, and other high-value products.
Used in Academic Research:
DMBINOL is also widely used in academic research for the development of new synthetic methods and the study of asymmetric reactions. Its unique structural characteristics make it a valuable tool for exploring the mechanisms of enantioselective catalysis and for the discovery of new chiral catalysts and ligands.
Overall, the versatility and effectiveness of (R)-3,3'-DIMETHYL-1,1'-BINAPHTHALENE-2,2'-DIOL in asymmetric synthesis across different industries highlight its significance in the field of organic chemistry and its potential for future applications.

Check Digit Verification of cas no

The CAS Registry Mumber 55515-98-5 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,5,5,1 and 5 respectively; the second part has 2 digits, 9 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 55515-98:
(7*5)+(6*5)+(5*5)+(4*1)+(3*5)+(2*9)+(1*8)=135
135 % 10 = 5
So 55515-98-5 is a valid CAS Registry Number.

55515-98-5SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 15, 2017

Revision Date: Aug 15, 2017

1.Identification

1.1 GHS Product identifier

Product name (R)-3,3'-DIMETHYL-1,1'-BINAPHTHALENE-2,2'-DIOL

1.2 Other means of identification

Product number -
Other names 3,3'-dimethyl-2,2'-bi-1,1'-naphthol

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:55515-98-5 SDS

55515-98-5Relevant academic research and scientific papers

Chiral Selenide/Achiral Sulfonic Acid Cocatalyzed Atroposelective Sulfenylation of Biaryl Phenols via a Desymmetrization/Kinetic Resolution Sequence

Luo, Hui-Yun,Li, Zi-Hao,Zhu, Deng,Yang, Qin,Cao, Ren-Fei,Ding, Tong-Mei,Chen, Zhi-Min

supporting information, p. 2943 - 2952 (2022/02/23)

Enantioselective synthesis of axially chiral sulfur-containing biaryl derivatives through the electrophilic sulfenylation of biaryl phenols has been achieved for the first time. This catalytic asymmetric system, which involves sequential desymmetrization and kinetic resolution, is enabled by a combination of a novel 3,3′-disubstituted BINOL-derived selenide catalyst and an achiral sulfonic acid. Control experiments and computational studies suggest that multiple noncovalent interactions between the cocatalysts and substrate, especially a network of hydrogen bond interactions, play a crucial role in determining the enantioselectivity and reactivity.

Oxidation of BINOLs by Hypervalent Iodine Reagents: Facile Synthesis of Xanthenes and Lactones

Wirth, Thomas,Zhang, Huaiyuan

, (2022/03/17)

Xanthene derivatives have broad applications in medicines, fluorescent probes, dyes, food additives, etc. Therefore, much attention was focused on developing the synthetic methods to prepare these compounds. Binaphthyl-based xanthene derivatives were prepared through the oxidation of BINOLs promoted by the hypervalent iodine reagent iodosylbenzene (PhIO). Nine-membered lactones were obtained through a similar oxidative reaction when iodoxybenzene (PhIO2) was used. Additionally, one-pot reactions of BINOLs, PhIO and nucleophiles such as alcohols and amines were also investigated to provide alkoxylated products and amides in good to excellent yields.

Enantioselective vinylation of aldehydes with the vinyl Grignard reagent catalyzed by magnesium complex of chiral BINOLs

Wang, Pei,Ma, Guo-Rong,Yu, Sheng-Li,Da, Chao-Shan

supporting information, p. 79 - 86 (2018/12/13)

Enantioselective vinylation of aldehydes via direct catalytic asymmetric Grignard reaction of aldehdyes and the vinyl Grinard reagent is a long-standing challenge. This work demonstrated that the magnesium (S)-3,3′-dimethyl BINOLate enantioselectively catalyze the direct vinylation of aldehydes with the deactivated vinylmagnesium bromide by bis(2-[N,N′-dimethylamino]ethyl) ether (BDMAEE) in the addition of n-butylmagnesium chloride. The highest ee of 63% was achieved up to date.

An enantioselective oxidative coupling reaction of 2-naphthol derivatives catalyzed by chiral diphosphine oxide-iron(ii) complexes

Horibe, Takahiro,Nakagawa, Keita,Hazeyama, Takashi,Takeda, Kazuki,Ishihara, Kazuaki

supporting information, p. 13677 - 13680 (2019/11/19)

An enantioselective oxidative coupling of 2-naphthol derivatives is developed with the use of chiral Fe(ii)-diphosphine oxide complexes. Optically active 1,1-bi-2-naphthol derivatives can be synthesized in high yields when a 2?:?1 complex of (S)-xylyl-iPrO-BIPHEP-oxide and Fe(OTf)2 is used in the presence of t-butyl hydroperoxide as an oxidant. The non-linear effect, X-ray crystal structure and ESI-MS suggest that a 2?:?1 complex of (S)-xylyl-iPrO-BIPHEP-oxide and Fe(OTf)2 is a pre-catalyst for a Fe(iii)/Fe(iv) redox cycle.

Direct asymmetric reductive amination for the synthesis of (S)-rivastigmine

Gao, Guorui,Du, Shaozhi,Yang, Yang,Lei, Xue,Huang, Haizhou,Chang, Mingxin

supporting information, (2018/09/10)

In this article we demonstrate how asymmetric total synthesis of (S)-rivastigmine has been achieved using direct asymmetric reductive amination as the key transformation in four steps. The route started with readily available and cheap m-hydroxyacetophenone, through esterification, asymmetric reductive amination, N-diphenylmethyl deprotection and reductive amination, to provide the final (S)-rivastigmine in 82% overall yield and 96% enantioselectivity. In the asymmetric reductive amination, catalysed by the iridium–phosphoramidite ligand complex and helped by some additives, the readily prepared 3-acetylphenyl ethyl(methyl)carbamate directly reductively coupled with diphenylmethanamine to yield the chiral amine product in 96% ee and 93% yield.

Photochemical Oxidative Coupling of 2-Naphthols using a Hybrid Reduced Graphene Oxide/Manganese Dioxide Nanocomposite under Visible-Light Irradiation

Kumar, Anurag,Aathira,Pal, Ujjwal,Jain, Suman L.

, p. 1844 - 1852 (2018/02/12)

We describe a simple, cost-effective, efficient, and high-yielding photocatalytic approach for the oxidative self-dimerization of 2-naphthols using a semiconductor–metal hybrid that consists of intercalated manganese dioxide nanoparticles in reduced graphene oxide (rGO/MnO2) under visible-light irradiation. The desired photocatalyst was synthesized in a single step by mixing MnO2 nanoparticles with rGO ultrasonically. The hybrid photocatalyst exhibited a significantly higher activity than neat MnO2 nanoparticles and rGO, which is believed to be because of the synergistic effect of its components. To our knowledge, this hybrid rGO/MnO2 nanocomposite is the first heterogeneous, green photocatalyst for the oxidative coupling of 2-naphthols under mild conditions.

Enantioselective Vanadium-Catalyzed Oxidative Coupling: Development and Mechanistic Insights

Kang, Houng,Herling, Madison R.,Niederer, Kyle A.,Lee, Young Eun,Vasu Govardhana Reddy, Peddiahgari,Dey, Sangeeta,Allen, Scott E.,Sung, Paul,Hewitt, Kirsten,Torruellas, Carilyn,Kim, Gina J.,Kozlowski, Marisa C.

, p. 14362 - 14384 (2018/11/23)

The evolution of a more reactive chiral vanadium catalyst for enantioselective oxidative coupling of phenols is reported, ultimately resulting in a simple monomeric vanadium species combined with a Br?nsted or Lewis acid additive. The resultant vanadium complex is found to effect the asymmetric oxidative ortho-ortho coupling of simple phenols and 2-hydroxycarbazoles with good to excellent levels of enantioselectivity. Experimental and quantum mechanical studies of the mechanism indicate that the additives aggregate the vanadium monomers. In addition, a singlet to triplet crossover is implicated prior to carbon-carbon bond formation. The two lowest energy diastereomeric transition states leading to the enantiomeric products differ substantially with the path to the minor enantiomer involving greater torsional strain between the two phenol moieties.

Tuning ligand structure in chiral bis(phosphite) and mixed phosphite-phosphinite PCP-palladium pincer complexes

Bedford, Robin B.,Chang, Yu-Ning,Haddow, Mairi F.,McMullin, Claire L.

scheme or table, p. 9034 - 9041 (2011/10/30)

A range of chiral resorcinol bis(phosphite) and phosphite-phosphinite ligands were produced and their propensity to form palladium PCP-pincer complexes examined. The ease of base-assisted C-H palladation of the ligands falls in the order bis(phosphinite)

Facile and efficient enantioselective strecker reaction of ketimines by chiral sodium phosphate

Shen, Ke,Liu, Xiaohua,Cai, Yunfei,Lin, Lili,Feng, Xiaoming

supporting information; scheme or table, p. 6008 - 6014 (2010/02/28)

A facile and efficient enantioselective Strecker reaction of ketimines catalyzed by a chiral alkali-metal salt has been developed. When 10 mol% BNPNa (BNP=1,1'-binaphthyl-2,2'-diylphosphate) prepared in situ and 10 mol% para-tert-butylortho-adamantylphenol (PBAP) were introduced into the reaction, up to 96% yield and up to 95% ee (ee=enantiomeric excess) were obtained. Both aliphatic and aromatic ketimines, especially sterically bulky cyclic ketimines derived from β-acetonaphthone, α-indanone, and α-tetralone were found suitable for this reaction. On the basis of the experimental results and previous reports, trimethylsilyl cyanide (TMSCN) was indicated to be the real reactive nucleophile despite the existence of PBAP, and a possible working model was proposed to explain the origin of the asymmetric induction. The facile availability of 1,1'-binaphthyl-2,2'-diylphosphoric acid (BNPH) and the simplicity of the procedure are beneficial for practical applications.

Highly catalytic asymmetric addition of deactivated alkyl Grignard reagents to aldehydes

Da, Chao-Shan,Wang, Jun-Rul,Yin, Xiao-Gang,Fan, Xin-Yuan,Liu, Yi,Yu, Sheng-Li

supporting information; experimental part, p. 5578 - 5581 (2010/03/02)

[Chemical Equation Presented] Generally used and highly reactive RMgBr reagents were effectively deactivated by bis[2-(N,N-dimethylamino)ethyl] ether and then were employed in the highly enantioselective addition of Grignard reagents to aldehydes. The reaction was catalyzed by the complex of commercially available (S)-BINOL and Ti(O'-Pr)4 under mild conditions. Compared with the other observed Grignard reagents, alkyl Grignard reagents showed higher enantioselectivity and they achieved >99% ee.

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