Assay: ≥95%
Appearance: White to off-white crystalline powder
Packaging: 1kg/bag, 25kg/drum (Customizable)
Sample: Available
2-(2,7-Dichloro-9H-Fluorenyl-4-Yl)Oxirane CAS 53221-14-0
Description
2-(2,7-Dichloro-9H-Fluorenyl-4-Yl)Oxirane
Quick Details
Chemical Name: 2-(2,7-Dichloro-9H-Fluorenyl-4-Yl)Oxirane
Cas No.53221-14-0
Molecular Fomula:C15H10Cl2O
Molecular Weight:277.15
Typical Properties
| Items | Specification |
| Density | 1.449±0.06 g/Cm3(Predicted) |
| Boiling Point | 442.0±45.0 °C(Predicted) |
| Assay | 95% |
| Solubility | Soluble In Chloroform And Dichloromethane |
Product Introduction:
2-(2,7-Dichloro-9H-Fluorenyl-4-Yl)Oxirane is a specialized derivative of fluorene, incorporating both chlorine atoms at the 2,7 positions and an oxirane (epoxide) group at the 4-position. It typically appears as a white to off-white crystalline powder.
This compound is a highly reactive and versatile building block, combining the electronic properties of the chlorinated fluorene core with the reactivity of the epoxide ring. This makes it particularly useful for applications requiring controlled polymerization or specific chemical functionalization.
Main Uses:
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Polymer Synthesis (Epoxy Resins & Polymers for Electronics): The oxirane group makes this compound suitable for use as a monomer or cross-linking agent in the synthesis of specialized epoxy resins. These resins can be tailored for high-performance applications, including those in electronics due to the robust and electronically active fluorene backbone. It can also be polymerized to form fluorene-containing polymers.
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Organic Electronics and Optoelectronic Materials: As a fluorene derivative, it is an important intermediate in the development of materials for organic electronic devices (OLEDs, OFETs, OPVs). The epoxide group allows for further functionalization to introduce side chains or to polymerize the molecule, influencing solubility, film formation, and electronic properties.
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Pharmaceutical Intermediates: The reactive epoxide ring can be opened by various nucleophiles, allowing for the facile introduction of a diverse range of functional groups onto the chlorinated fluorene scaffold. This makes it a valuable intermediate for synthesizing novel pharmaceutical active ingredients (APIs) or drug candidates.
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Specialty Chemicals and Materials: It is used as a building block for other high-value specialty chemicals and advanced materials where the combination of a rigid, electronically active aromatic system and a reactive epoxide is beneficial. This could include photoresists, coatings, or advanced composite materials.
Packaging And Shipping
Customized According To Customer Needs.
Storage
Keep In Dark Place,Sealed In Dry,Room Temperature.