Produktname:5-oxa-2-azaspiro[3.5]nonane hemioxalate
IUPAC Name:bis(5-oxa-2-azaspiro[3.5]nonane); oxalic acid
- CAS:1427359-47-4
- Molekulare Formel:C16H28N2O6
- Reinheit:97%
- Katalognummer:CM107002
- Molekulargewicht:344.41
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Produkt-Details
- CAS-Nr.:1427359-47-4
- Molekulare Formel:C16H28N2O6
- Schmelzpunkt:-
- SMILES-Code:O=C(O)C(O)=O.C1NCC12OCCCC2.C3NCC34OCCCC4
- Dichte:
- Katalognummer:CM107002
- Molekulargewicht:344.41
- Siedepunkt:
- Mdl-Nr.:MFCD20926175
- Lagerung:
Category Infos
- Azetidines
- Azetidines are an important class of saturated four-membered nitrogen-containing heterocyclic compounds. The research hotspots related to this structure mainly focus on two aspects: one is the research of pharmaceutical chemistry; the other is related to chiral azetidines, using rigid azetidine compounds as chiral ligands for asymmetric catalytic reactions. Many nitrogen-containing heterocycles play important roles in drug structures, and in many cases small structural changes can improve ligand selectivity and pharmacokinetic properties.
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- Tetrahydropyrans
- Tetrahydropyran is an organic compound consisting of a saturated six-membered ring containing five carbon atoms and one oxygen atom. Tetrahydropyrans are common structural motifs in natural products and synthetic therapeutic molecules. In nature, these six-membered oxygen heterocycles are usually assembled by intramolecular reactions, including oxygen Michael addition or ring opening of epoxy alcohols. In fact, polyether natural products have been particularly extensively studied for their fascinating structures and important biological properties; these are often formed through endoselective epoxy open cascades.
Column Infos
- Spiro Compounds
- A spiro compound is a polycyclic compound in which two monocyclic rings share one carbon atom; the shared carbon atom is called a spiro atom. Spiro compounds have rigid structures, stable structures, and have special properties that general organic compounds do not possess, such as anomeric effect, spiro conjugation and spiro hyperconjugation. Compared with the monocyclic structure or the planar aromatic structure, the spiro structure has a larger three-dimensional structure; the heterocyclic spiro structure is also regarded as the biological isostere of some groups, which can change the drug to a certain extent. The water solubility, lipophilicity, dominant conformation and ADMET properties of the molecule make the optimized lead molecule easier to drug. Therefore, spiro compounds occupy a very important position in drug development.