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1413439-96-9

C14H16N2O4S is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

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  • 1413439-96-9 Structure

  • Basic information

    1. Product Name: C14H16N2O4S
    2. Synonyms:
    3. CAS NO:1413439-96-9
    4. Molecular Formula:
    5. Molecular Weight: 308.358
    6. EINECS: N/A
    7. Product Categories: N/A
    8. Mol File: 1413439-96-9.mol

  • Chemical Properties

    1. Melting Point: N/A
    2. Boiling Point: N/A
    3. Flash Point: N/A
    4. Appearance: N/A
    5. Density: N/A
    6. Refractive Index: N/A
    7. Storage Temp.: N/A
    8. Solubility: N/A
    9. CAS DataBase Reference: C14H16N2O4S(CAS DataBase Reference)
    10. NIST Chemistry Reference: C14H16N2O4S(1413439-96-9)
    11. EPA Substance Registry System: C14H16N2O4S(1413439-96-9)

  • Safety Data

    1. Hazard Codes: N/A
    2. Statements: N/A
    3. Safety Statements: N/A
    4. WGK Germany:
    5. RTECS:
    6. HazardClass: N/A
    7. PackingGroup: N/A
    8. Hazardous Substances Data: 1413439-96-9(Hazardous Substances Data)

1413439-96-9 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1413439-96-9 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,4,1,3,4,3 and 9 respectively; the second part has 2 digits, 9 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 1413439-96:
(9*1)+(8*4)+(7*1)+(6*3)+(5*4)+(4*3)+(3*9)+(2*9)+(1*6)=149
149 % 10 = 9
So 1413439-96-9 is a valid CAS Registry Number.

1413439-96-9Relevant articles and documents

Regioselective reactions of 3,4-pyridynes enabled by the aryne distortion model

Goetz, Adam E.,Garg, Neil K.

, p. 54 - 60 (2013)

The pyridine heterocycle continues to play a vital role in the development of human medicines. More than 100 currently marketed drugs contain this privileged unit, which remains highly sought after synthetically. We report an efficient means to access di- and trisubstituted pyridines in an efficient and highly controlled manner using transient 3,4-pyridyne intermediates. Previous efforts to employ 3,4-pyridynes for the construction of substituted pyridines were hampered by a lack of regiocontrol or the inability to later manipulate an adjacent directing group. The strategy relies on the use of proximal halide or sulfamate substituents to perturb pyridyne distortion, which in turn governs regioselectivities in nucleophilic addition and cycloaddition reactions. After trapping of the pyridynes generated in situ, the neighbouring directing groups may be removed or exploited using versatile metal-catalysed cross-coupling reactions. This methodology now renders 3,4-pyridynes as useful synthetic building blocks for the creation of highly decorated derivatives of the medicinally privileged pyridine heterocycle.

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