Cas no 61686-65-5 (Pyridine,2,5-dibromo-3-(bromomethyl)-)
Pyridine,2,5-dibromo-3-(bromomethyl)- Chemical and Physical Properties
Names and Identifiers
-
- Pyridine,2,5-dibromo-3-(bromomethyl)-
- 2,5-Dibromo-3-(bromomethyl)pyridine
- 2,5-bis(bromanyl)-3-(bromomethyl)pyridine
- 2,5-dibromo-3-bromomethylpyridine
- 3-Bromomethyl-2,5-dibromopyridine
- A833366
- AG-G-24974
- AGN-PC-007Z9D
- CTK5B3568
- SCHEMBL15773977
- F74801
- Pyridine, 2,5-dibromo-3-(bromomethyl)-
- 2,5-Dibromo-3-(bromomethyl)-pyridine
- EN300-7122541
- 61686-65-5
- DTXSID60464205
-
- Inchi: 1S/C6H4Br3N/c7-2-4-1-5(8)3-10-6(4)9/h1,3H,2H2
- InChI Key: WNSGYKIJKOYVCB-UHFFFAOYSA-N
- SMILES: BrCC1C(=NC=C(C=1)Br)Br
Computed Properties
- Exact Mass: 326.78932
- Monoisotopic Mass: 326.78939g/mol
- Isotope Atom Count: 0
- Hydrogen Bond Donor Count: 0
- Hydrogen Bond Acceptor Count: 1
- Heavy Atom Count: 10
- Rotatable Bond Count: 1
- Complexity: 109
- Covalently-Bonded Unit Count: 1
- Defined Atom Stereocenter Count: 0
- Undefined Atom Stereocenter Count : 0
- Defined Bond Stereocenter Count: 0
- Undefined Bond Stereocenter Count: 0
- XLogP3: 3.1
- Topological Polar Surface Area: 12.9?2
Experimental Properties
- Density: 2.282±0.06 g/cm3 (20 oC 760 Torr),
- Solubility: Very slightly soluble (0.66 g/l) (25 o C),
- PSA: 12.89
Pyridine,2,5-dibromo-3-(bromomethyl)- Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| Alichem | A023022735-250mg |
3-Bromomethyl-2,5-dibromopyridine |
61686-65-5 | 97% | 250mg |
$720.80 | 2023-09-01 | |
| Alichem | A023022735-500mg |
3-Bromomethyl-2,5-dibromopyridine |
61686-65-5 | 97% | 500mg |
$1019.20 | 2023-09-01 | |
| Alichem | A023022735-1g |
3-Bromomethyl-2,5-dibromopyridine |
61686-65-5 | 97% | 1g |
$1831.20 | 2023-09-01 | |
| Chemenu | CM170733-1g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 1g |
$389 | 2021-08-05 | |
| Chemenu | CM170733-5g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 5g |
$879 | 2021-08-05 | |
| Chemenu | CM170733-10g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 10g |
$1174 | 2021-08-05 | |
| Chemenu | CM170733-25g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 25g |
$1959 | 2021-08-05 | |
| Chemenu | CM170733-1g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 1g |
$504 | 2023-01-02 | |
| Enamine | EN300-7122541-0.05g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 0.05g |
$285.0 | 2023-05-24 | |
| Enamine | EN300-7122541-0.1g |
2,5-dibromo-3-(bromomethyl)pyridine |
61686-65-5 | 95% | 0.1g |
$426.0 | 2023-05-24 |
Pyridine,2,5-dibromo-3-(bromomethyl)- Suppliers
Pyridine,2,5-dibromo-3-(bromomethyl)- Related Literature
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Huading Zhang,Lee R. Moore,Maciej Zborowski,P. Stephen Williams,Shlomo Margel,Jeffrey J. Chalmers Analyst, 2005,130, 514-527
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Ji-Ping Wei Nanoscale, 2015,7, 11815-11832
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Yong Ping Huang,Tao Tao,Zheng Chen,Wei Han,Ying Wu,Chunjiang Kuang,Shaoxiong Zhou,Ying Chen J. Mater. Chem. A, 2014,2, 18831-18837
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4. Estimating and correcting interference fringes in infrared spectra in infrared hyperspectral imagingGhazal Azarfar,Ebrahim Aboualizadeh,Nicholas M. Walter,Simona Ratti,Camilla Olivieri,Alessandra Norici,Michael Nasse,Achim Kohler,Mario Giordano Analyst, 2018,143, 4674-4683
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Joo Chuan Yeo,Kenry Lab Chip, 2016,16, 4082-4090
Additional information on Pyridine,2,5-dibromo-3-(bromomethyl)-
Introduction to 2,5-Dibromo-3-(bromomethyl)pyridine (CAS No. 61686-65-5)
2,5-Dibromo-3-(bromomethyl)pyridine (CAS No. 61686-65-5) is a versatile organic compound that has gained significant attention in recent years due to its unique chemical structure and potential applications in various fields, including pharmaceuticals, materials science, and synthetic chemistry. This compound is characterized by its pyridine core substituted with bromine atoms at the 2 and 5 positions and a bromomethyl group at the 3 position. The presence of these functional groups imparts specific reactivity and properties that make it a valuable intermediate in the synthesis of more complex molecules.
The synthesis of 2,5-dibromo-3-(bromomethyl)pyridine typically involves multistep reactions, starting from simpler pyridine derivatives. One common approach is the sequential bromination of pyridine followed by the introduction of the bromomethyl group. The detailed synthetic pathways have been extensively studied and optimized to improve yield and purity. Recent advancements in catalytic methods and green chemistry have further enhanced the efficiency and sustainability of these processes.
In the realm of pharmaceutical research, 2,5-dibromo-3-(bromomethyl)pyridine has shown promise as a key intermediate in the development of novel drugs. Its reactivity allows for the introduction of various functional groups, which can be tailored to target specific biological pathways or receptors. For instance, studies have explored its use in the synthesis of antiviral agents, anticancer drugs, and neuroprotective compounds. The ability to fine-tune the chemical structure through substitution reactions makes it a versatile platform for drug discovery.
Materials science is another area where 2,5-dibromo-3-(bromomethyl)pyridine has found applications. Its unique electronic properties and reactivity make it suitable for the synthesis of advanced materials such as conductive polymers and photovoltaic materials. Research in this field has focused on developing new materials with improved performance characteristics, such as higher conductivity and better stability under various environmental conditions.
The environmental impact of chemical processes involving 2,5-dibromo-3-(bromomethyl)pyridine is an important consideration. Efforts are being made to develop more sustainable synthetic methods that minimize waste generation and reduce the use of hazardous reagents. Green chemistry principles are increasingly being integrated into the design of new synthetic routes, leading to more environmentally friendly processes.
In terms of safety and handling, it is crucial to follow standard laboratory protocols when working with 2,5-dibromo-3-(bromomethyl)pyridine. Proper personal protective equipment (PPE) should be used, and all operations should be conducted in well-ventilated areas or fume hoods to minimize exposure risks. Additionally, waste disposal should be carried out in accordance with local regulations to ensure environmental protection.
The future outlook for 2,5-dibromo-3-(bromomethyl)pyridine is promising. Ongoing research continues to uncover new applications and improve existing synthetic methods. As our understanding of its chemical properties deepens, it is likely that this compound will play an increasingly important role in various scientific disciplines. Collaboration between chemists, biologists, and materials scientists will be essential in realizing its full potential.
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