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Atomfair Carbonic acid di-2-pyridyl ester C11H8N2O3

Description Carbonic acid di-2-pyridyl ester (CAS No. 1659-31-0) is a high-purity organic compound with the molecular formula C11H8N2O3. Also known as dipyridin-2-yl carbonate , this specialized chemical is widely utilized in synthetic organic chemistry and pharmaceutical research. Its unique pyridyl carbonate structure makes it an effective reagent for coupling reactions, esterifications, and as a protecting group intermediate. This product is rigorously tested for purity and consistency, ensuring optimal performance in sensitive applications. Available in various quantities, it is ideal for researchers requiring precise and reliable building blocks for complex molecular synthesis.

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Description

Description

Carbonic acid di-2-pyridyl ester (CAS No. 1659-31-0) is a high-purity organic compound with the molecular formula C11H8N2O3. Also known as dipyridin-2-yl carbonate, this specialized chemical is widely utilized in synthetic organic chemistry and pharmaceutical research. Its unique pyridyl carbonate structure makes it an effective reagent for coupling reactions, esterifications, and as a protecting group intermediate. This product is rigorously tested for purity and consistency, ensuring optimal performance in sensitive applications. Available in various quantities, it is ideal for researchers requiring precise and reliable building blocks for complex molecular synthesis.

  • CAS No: 1659-31-0
  • Molecular Formula: C11H8N2O3
  • Molecular Weight: 216.19
  • Exact Mass: 216.05349212
  • Monoisotopic Mass: 216.05349212
  • IUPAC Name: dipyridin-2-yl carbonate
  • SMILES: C1=CC=NC(=C1)OC(=O)OC2=CC=CC=N2
  • Synonyms: Carbonic Acid Di-2-pyridyl Ester, 672-220-0, dipyridin-2-yl carbonate, 1659-31-0, Di-2-pyridyl Carbonate

Application

Carbonic acid di-2-pyridyl ester serves as a versatile reagent in organic synthesis, particularly in the formation of carbonate esters and as a pyridylating agent. It is employed in pharmaceutical research for the development of novel drug intermediates and prodrugs. Additionally, its reactivity makes it useful in polymer chemistry and material science applications where controlled functionalization is required.

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