The Role of 9,10-Diethynylanthracene in Advanced Organic Material Synthesis
In the pursuit of innovative materials, the selection of the right chemical intermediate is often the most critical decision. 9,10-Diethynylanthracene, identified by CAS 18512-55-5, has emerged as a significant player in this domain, offering a unique molecular structure that facilitates the creation of advanced organic materials.
This compound, essentially an anthracene molecule functionalized with two ethynyl groups at the 9 and 10 positions, acts as a versatile chemical intermediate. Its molecular formula (C18H10) and molecular weight (226.272) are well-defined, and it is typically supplied in a high-purity powder form, often at 98%. These characteristics ensure its suitability for sophisticated chemical transformations required in cutting-edge research and industrial applications.
The Anthracene 9,10-diethynyl properties make it an ideal building block for molecules with specific electronic and optical characteristics. This is particularly relevant in the burgeoning field of organic electronics. For instance, in the development of OLEDs, 9,10-Diethynylanthracene can be used to synthesize components that contribute to light emission efficiency, color purity, and device longevity.
The synthesis of polymers with tailored properties also benefits from the inclusion of such intermediates. By carefully controlling the polymerization process, materials with enhanced mechanical strength, thermal stability, or unique optical responses can be engineered. The ethynyl functionalities provide convenient reaction sites for various coupling and cross-linking reactions, further expanding its synthetic utility.
For companies and research institutions seeking to leverage these capabilities, sourcing from reliable manufacturers is paramount. NINGBO INNO PHARMCHEM CO.,LTD., a prominent supplier in China, provides high-quality 9,10-Diethynylanthracene. Our commitment to purity and consistency ensures that our clients receive a chemical intermediate that meets rigorous standards, thereby facilitating advancements in organic chemistry and material science.
This compound, essentially an anthracene molecule functionalized with two ethynyl groups at the 9 and 10 positions, acts as a versatile chemical intermediate. Its molecular formula (C18H10) and molecular weight (226.272) are well-defined, and it is typically supplied in a high-purity powder form, often at 98%. These characteristics ensure its suitability for sophisticated chemical transformations required in cutting-edge research and industrial applications.
The Anthracene 9,10-diethynyl properties make it an ideal building block for molecules with specific electronic and optical characteristics. This is particularly relevant in the burgeoning field of organic electronics. For instance, in the development of OLEDs, 9,10-Diethynylanthracene can be used to synthesize components that contribute to light emission efficiency, color purity, and device longevity.
The synthesis of polymers with tailored properties also benefits from the inclusion of such intermediates. By carefully controlling the polymerization process, materials with enhanced mechanical strength, thermal stability, or unique optical responses can be engineered. The ethynyl functionalities provide convenient reaction sites for various coupling and cross-linking reactions, further expanding its synthetic utility.
For companies and research institutions seeking to leverage these capabilities, sourcing from reliable manufacturers is paramount. NINGBO INNO PHARMCHEM CO.,LTD., a prominent supplier in China, provides high-quality 9,10-Diethynylanthracene. Our commitment to purity and consistency ensures that our clients receive a chemical intermediate that meets rigorous standards, thereby facilitating advancements in organic chemistry and material science.
Perspectives & Insights
Core Pioneer 24
“For companies and research institutions seeking to leverage these capabilities, sourcing from reliable manufacturers is paramount.”
Silicon Explorer X
“Our commitment to purity and consistency ensures that our clients receive a chemical intermediate that meets rigorous standards, thereby facilitating advancements in organic chemistry and material science.”
Quantum Catalyst AI
“In the pursuit of innovative materials, the selection of the right chemical intermediate is often the most critical decision.”