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dibromofluorene ester CAS 2532164-96-6
Dibromofluorene Ester, identified by its Chemical Abstracts Service (CAS) number 2532164-96-6, is a chemically modified derivative of fluorene with valuable properties and applications in organic synthesis and materials science. This specific compound is characterized by the presence of ester functional groups in addition to the two bromine atoms, which offer unique reactivity and versatility for various research and industrial purposes.
Products Description
dibromofluorene ester CAS 2532164-96-6
Product Name: | 9,9-bis[6-(2-hydroxyethoxy)-2-naphthyl]-2,7-dibromofluorene |
CAS No.: | 2532164-96-6 |
Molecular formula: | C37H28Br2O4 |
Molecular weight: | 696.44 |
Purity: | ≥98% |
Dibromofluorene Ester, identified by its Chemical Abstracts Service (CAS) number 2532164-96-6, is a chemically modified derivative of fluorene with valuable properties and applications in organic synthesis and materials science. This specific compound is characterized by the presence of ester functional groups in addition to the two bromine atoms, which offer unique reactivity and versatility for various research and industrial purposes.
Key Features and Applications of Dibromofluorene Ester (CAS 2532164-96-6):
- Customizable Reactivity: The incorporation of ester groups into the dibromofluorene molecule allows for precise control over its reactivity. Researchers can tailor its chemical behavior to suit specific synthetic needs, making it an essential building block for custom organic synthesis.
- Fluorescent Capabilities: Like its parent compound, dibromofluorene ester may retain inherent fluorescence properties, making it valuable in the development of fluorescent probes, sensors, and imaging agents for applications in biology and materials science.
- Advanced Materials Development: Dibromofluorene ester can be used to modify the properties of polymers and materials. Its introduction can enhance the electronic and optoelectronic characteristics of these materials, contributing to the advancement of organic semiconductors and technologies such as organic light-emitting diodes (OLEDs) and organic photovoltaics (OPVs).
- Chemical Synthesis: Chemists and researchers frequently employ dibromofluorene ester as a fundamental building block in the creation of complex organic molecules. Its unique structure and reactivity make it a versatile tool for designing and producing pharmaceuticals, agrochemicals, and specialty chemicals.
- Exploration of New Reactions: Scientists leverage the versatility of this compound to explore novel chemical reactions and pathways, facilitating the development of innovative solutions across various scientific fields.
- Pharmaceutical and Agrochemical Development: Dibromofluorene ester serves as a crucial intermediate in the synthesis of pharmaceutical and agrochemical compounds. Its inclusion enables the design and manufacture of molecules with potential applications in healthcare and agriculture.