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  • 10075-62-4 Structure
  • Basic information

    1. Product Name: 1,4-DIMETHOXYNAPHTHALENE
    2. Synonyms: 1,4-DIMETHOXYNAPHTHALENE;FLUORESCENCE QY-STANDARD B CERTIFIED;1,4-DiMethoxynaphthalene;1,4-Dimethoxynaphthalene 97%
    3. CAS NO:10075-62-4
    4. Molecular Formula: C12H12O2
    5. Molecular Weight: 188.22
    6. EINECS: 233-209-2
    7. Product Categories: Naphthalene derivatives;Ethers;Organic Building Blocks;Oxygen Compounds
    8. Mol File: 10075-62-4.mol
    9. Article Data: 44
  • Chemical Properties

    1. Melting Point: 85 °C
    2. Boiling Point: 317.6 °C at 760 mmHg
    3. Flash Point: 134.3 °C
    4. Appearance: /
    5. Density: 1.097 g/cm3
    6. Vapor Pressure: 0.000708mmHg at 25°C
    7. Refractive Index: 1.584
    8. Storage Temp.: 2-8°C
    9. Solubility: Acetone, Chloroform
    10. Water Solubility: Soluble in water.
    11. BRN: 2048082
    12. CAS DataBase Reference: 1,4-DIMETHOXYNAPHTHALENE(CAS DataBase Reference)
    13. NIST Chemistry Reference: 1,4-DIMETHOXYNAPHTHALENE(10075-62-4)
    14. EPA Substance Registry System: 1,4-DIMETHOXYNAPHTHALENE(10075-62-4)
  • Safety Data

    1. Hazard Codes: Xi
    2. Statements: 36/37/38
    3. Safety Statements: 26
    4. WGK Germany: 3
    5. RTECS:
    6. F: 10
    7. HazardClass: N/A
    8. PackingGroup: N/A
    9. Hazardous Substances Data: 10075-62-4(Hazardous Substances Data)

10075-62-4 Usage

Description

1,4-Dimethoxynaphthalene is an organic compound with the chemical formula C12H12O2. It is a derivative of naphthalene, featuring two methoxy groups attached to the 1 and 4 positions of the naphthalene ring. 1,4-DIMETHOXYNAPHTHALENE is known for its potential applications in various chemical and pharmaceutical processes.

Uses

Used in Chemical Synthesis:
1,4-Dimethoxynaphthalene is used as a reference molecule for the synthesis, separation, and analysis of derivatized naphthalenes. Its unique structure and properties make it a valuable tool in the development and optimization of chemical processes involving naphthalene derivatives.
Used in Pharmaceutical Industry:
1,4-Dimethoxynaphthalene is used in the preparation of specific pharmaceutical compounds, such as 1,7-dideoxy-3-demethylprekinamycin and 3-acetoxy-2-bromo-1,4-dimethoxynaphthalene. These compounds have potential applications in the development of new drugs and therapies, highlighting the importance of 1,4-dimethoxynaphthalene as a key intermediate in the pharmaceutical sector.

Synthesis Reference(s)

Synthetic Communications, 16, p. 1037, 1986 DOI: 10.1080/00397918608056345

Purification Methods

Crystallise the naphthalene from EtOH, MeOH (m 85-86o) or pet ether. [Beilstein 6 H 984, 6 III 5261, 6 IV 6546.]

Check Digit Verification of cas no

The CAS Registry Mumber 10075-62-4 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 1,0,0,7 and 5 respectively; the second part has 2 digits, 6 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 10075-62:
(7*1)+(6*0)+(5*0)+(4*7)+(3*5)+(2*6)+(1*2)=64
64 % 10 = 4
So 10075-62-4 is a valid CAS Registry Number.
InChI:InChI=1/C12H12O2/c1-13-11-7-8-12(14-2)10-6-4-3-5-9(10)11/h3-8H,1-2H3

10075-62-4 Well-known Company Product Price

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  • (Code)Product description
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  • Alfa Aesar

  • (A14095)  1,4-Dimethoxynaphthalene, 96%   

  • 10075-62-4

  • 1g

  • 792.0CNY

  • Detail
  • Alfa Aesar

  • (A14095)  1,4-Dimethoxynaphthalene, 96%   

  • 10075-62-4

  • 5g

  • 3071.0CNY

  • Detail
  • Alfa Aesar

  • (A14095)  1,4-Dimethoxynaphthalene, 96%   

  • 10075-62-4

  • 25g

  • 12224.0CNY

  • Detail

10075-62-4SDS

SAFETY DATA SHEETS

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

Version: 1.0

Creation Date: Aug 19, 2017

Revision Date: Aug 19, 2017

1.Identification

1.1 GHS Product identifier

Product name 1,4-DIMETHOXYNAPHTHALENE

1.2 Other means of identification

Product number -
Other names Naphthalene,1,4-dimethoxy

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:10075-62-4 SDS

10075-62-4Relevant articles and documents

Photooxygenation of oxygen-substituted naphthalenes

Bauch, Marcel,Krtitschka, Angela,Linker, Torsten

, (2017)

The reaction of oxygen-substituted naphthalenes with singlet oxygen (1O2) has been investigated, and labile endoperoxides have been isolated and characterized at –78°C for the first time. Low-temperature kinetics by UV spectroscopy revealed that alkoxy and silyloxy substituents remarkably increase the rate of photooxygenations compared to 1,4-dimethylnaphthalene, whereas acyloxy-substituted acenes are inert towards 1O2. The reactivities nicely correlate with HOMO energies and free activation energies, which we determined by density functional theory calculations. The lability of the isolated endoperoxides is due to their very fast back reaction to the corresponding naphthalenes even at –20°C under release of 1O2, making them to superior sources of this reactive species under very mild conditions. Finally, a carbohydrate-substituted naphthalene has been synthesized, which reacts reversibly with 1O2 and might be applied for enantioselective oxidations in future work.

Studies on synthesis of quinonylidene Hoveyda-type complexes

Grudzień, Krzysztof,Barbasiewicz, Micha?

, p. 322 - 327 (2015)

In a quest of redox-switchable metathesis catalysts we attempted synthesis of ruthenium quinonylidene complexes using two synthetic pathways. First, Hoveyda-type complexes bearing chelating benzylidene and naphthylidene ligands substituted with two alkoxy/hydroxy groups were synthesized and characterized. The catalysts were tested in model ring-closing metathesis reactions, and displayed interesting correlations between structure and catalytic activity. Unfortunately, numerous attempts at oxidation of the complexes to derivatives of benzo- and naphthoquinone were unsuccessful. However, the second approach, using exchange reaction of ruthenium precursor with vinylquinone ligand, gave a transient unstable product observed with 1H NMR. The experimental data suggest that conjugation of electron-deficient quinones to the ruthenium centre results in intrinsically unstable species, which undergo secondary reactions under ambient conditions.

Baker's Yeast Mediated Reduction of Aromatic Ring Substituted 2-Tetralones

Manitto, Paolo,Speranza, Giovanna,Monti, Diego,Fontana, Gabriele,Panosetti, Elisa

, p. 11531 - 11546 (1995)

2-Tetralones mono- and disubstituted with methoxy or hydroxy groups in the aromatic ring are hydrogenated to 2-tetralols in good yields by non-fermenting baker's yeast.The prevalent enantioform of the reduction product and its e.e. were found to depend on the substitution pattern.In one case, i.e. the biotransformation of 5-methoxy-2-tetralone into the corresponding 2-tetralol, an e.e. >/= 98percent was observed.A simple abstract model for explaining and predicting the stereochemical outcome in the yeast-mediated carbonyl reduction of 2-tetralones is proposed.

METHOD OF PRODUCING POLYMERIZABLE COMPOUND, AND SOLUTION OF POLYMERIZABLE COMPOUND

-

Paragraph 0336-0337, (2020/09/22)

Disclosed is a method of producing a polymerizable compound that enables production of, in high yield, a polymerizable compound used for producing an optical film or the like. The disclosed method of producing a polymerizable compound comprises reacting a compound represented by formula (I) with a compound represented by formula (II) in an organic solvent in which a base having a pKa from 6.1 to 9.5 is present, so as to obtain a reaction solution containing a polymerizable compound represented by formula (III).

Direct Synthesis of Hydroquinones from Quinones through Sequential and Continuous-Flow Hydrogenation-Derivatization Using Heterogeneous Au–Pt Nanoparticles as Catalysts

Miyamura, Hiroyuki,Tobita, Fumiya,Suzuki, Aya,Kobayashi, Shū

, p. 9220 - 9224 (2019/06/13)

Pt–Au bimetallic nanoparticle catalysts immobilized on dimethyl polysilane (Pt–Au/(DMPSi-Al2O3)) have been developed for selective hydrogenation of quinones to hydroquinones. High reactivity, selectivity, and robustness of the catalysts were confirmed under continuous-flow conditions. Various direct derivatizations of quinones, such as methylation, acetylation, trifluoromethanesulfonylation, methacrylation, and benzoylation were successfully performed under sequential and continuous-flow conditions to afford the desired products in good to excellent yields. Especially, air-sensitive hydroquinones, such as anthrahydroquinones and naphthohydroquinones, could be successfully generated and derivatized under closed sequential and continuous-flow conditions without decomposition.

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