Cas no 142337-97-1 (Pyridine, 2,3-dibromo-5-ethyl-)
Pyridine, 2,3-dibromo-5-ethyl- Chemical and Physical Properties
Names and Identifiers
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- Pyridine, 2,3-dibromo-5-ethyl-
- 2,3-Dibromo-5-ethylpyridine
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- Inchi: 1S/C7H7Br2N/c1-2-5-3-6(8)7(9)10-4-5/h3-4H,2H2,1H3
- InChI Key: UQXLRNWTPOBQAQ-UHFFFAOYSA-N
- SMILES: C1(Br)=NC=C(CC)C=C1Br
Computed Properties
- Exact Mass: 262.89451
Experimental Properties
- PSA: 12.89
Pyridine, 2,3-dibromo-5-ethyl- Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| Enamine | EN300-370891-1.0g |
2,3-dibromo-5-ethylpyridine |
142337-97-1 | 1.0g |
$0.0 | 2023-03-02 |
Pyridine, 2,3-dibromo-5-ethyl- Related Literature
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Xingqun Zheng,Lele Song,Xin Feng,Li Li,Zidong Wei J. Mater. Chem. A, 2020,8, 14145-14151
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Erika A. Cobar,Paul R. Horn,Robert G. Bergman,Martin Head-Gordon Phys. Chem. Chem. Phys., 2012,14, 15328-15339
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Zhixia Liu,Tingjian Chen,Floyd E. Romesberg Chem. Sci., 2017,8, 8179-8182
Additional information on Pyridine, 2,3-dibromo-5-ethyl-
Exploring the Properties and Applications of Pyridine, 2,3-dibromo-5-ethyl- (CAS No. 142337-97-1)
Pyridine, 2,3-dibromo-5-ethyl- (CAS No. 142337-97-1) is a specialized brominated pyridine derivative that has garnered significant attention in the field of organic chemistry and material science. This compound, characterized by its unique molecular structure featuring two bromine atoms and an ethyl group, serves as a versatile intermediate in various synthetic applications. Researchers and industry professionals often seek 2,3-dibromo-5-ethylpyridine for its reactivity and potential in creating complex molecular architectures.
The chemical properties of Pyridine, 2,3-dibromo-5-ethyl- make it particularly valuable in pharmaceutical and agrochemical research. Its brominated pyridine core allows for selective functionalization, enabling the synthesis of novel compounds with tailored biological activities. Recent studies highlight its role in developing heterocyclic compounds, which are pivotal in drug discovery and crop protection formulations. The ethyl group further enhances its lipophilicity, making it a candidate for optimizing drug delivery systems.
In material science, 2,3-dibromo-5-ethylpyridine is explored for its potential in organic electronics. Its ability to act as a building block for π-conjugated systems has sparked interest in designing organic semiconductors and light-emitting diodes (OLEDs). With the growing demand for sustainable and efficient electronic materials, this compound is positioned as a key player in next-generation technologies. Industry reports suggest a rising trend in patents involving brominated pyridines, underscoring their commercial relevance.
From an environmental perspective, the synthesis and handling of Pyridine, 2,3-dibromo-5-ethyl- align with green chemistry principles. Researchers are increasingly focusing on catalytic methods to minimize waste and improve atom economy during its production. This aligns with global initiatives to reduce the environmental footprint of chemical manufacturing, a topic widely discussed in sustainable chemistry forums.
The market dynamics for 2,3-dibromo-5-ethylpyridine reflect its niche yet expanding applications. Suppliers and manufacturers are scaling up production to meet the demands of academic and industrial sectors. Analytical techniques such as HPLC and NMR are routinely employed to ensure high purity, a critical factor for its use in sensitive applications. Quality control protocols are rigorously followed to comply with international standards, reinforcing its reliability as a research chemical.
In conclusion, Pyridine, 2,3-dibromo-5-ethyl- (CAS No. 142337-97-1) represents a multifaceted compound with broad utility in modern chemistry. Its applications span pharmaceuticals, agrochemicals, and advanced materials, driven by its structural versatility and reactivity. As scientific advancements continue to uncover new possibilities, this brominated pyridine derivative is poised to remain at the forefront of innovation. For researchers and industry stakeholders, understanding its properties and potential is essential for leveraging its capabilities in cutting-edge developments.
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