Cas no 870063-67-5 (1-(2-methyl-3-pyridyl)ethanamine)
1-(2-methyl-3-pyridyl)ethanamine Chemical and Physical Properties
Names and Identifiers
-
- a,2-dimethyl-3-Pyridinemethanamine
- 1-(2-methylpyridin-3-yl)ethanamine
- EN300-1856286
- SY249588
- MFCD13188691
- Y12491
- 1-(2-METHYLPYRIDIN-3-YL)ETHAN-1-AMINE
- alpha,2-Dimethylpyridine-3-methanamine
- AB66938
- 870063-67-5
- SCHEMBL3290076
- CS-0456728
- 1-(2-methyl-3-pyridyl)ethanamine
- α,2-Dimethyl-3-pyridinemethanamine (ACI)
- MFCD11008100
- (S)-1-(2-Methyl-3-pyridyl)ethanamine
- MFCD11008099
- (R)-1-(2-Methyl-3-pyridyl)ethanamine
- SY384887
- SY384886
-
- MDL: MFCD13188691
- Inchi: 1S/C8H12N2/c1-6(9)8-4-3-5-10-7(8)2/h3-6H,9H2,1-2H3
- InChI Key: LWIWISPHEYROCV-UHFFFAOYSA-N
- SMILES: N1C(C)=C(C(C)N)C=CC=1
Computed Properties
- Exact Mass: 136.100048391g/mol
- Monoisotopic Mass: 136.100048391g/mol
- Isotope Atom Count: 0
- Hydrogen Bond Donor Count: 1
- Hydrogen Bond Acceptor Count: 2
- Heavy Atom Count: 10
- Rotatable Bond Count: 1
- Complexity: 103
- Covalently-Bonded Unit Count: 1
- Defined Atom Stereocenter Count: 0
- Undefined Atom Stereocenter Count : 1
- Defined Bond Stereocenter Count: 0
- Undefined Bond Stereocenter Count: 0
- XLogP3: 0.5
- Topological Polar Surface Area: 38.9?2
1-(2-methyl-3-pyridyl)ethanamine Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| Chemenu | CM327748-1g |
1-(2-methylpyridin-3-yl)ethanamine |
870063-67-5 | 95%+ | 1g |
$500 | 2021-08-18 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | Y18075-250mg |
1-(2-METHYLPYRIDIN-3-YL)ETHAN-1-AMINE |
870063-67-5 | 95% | 250mg |
¥4429.0 | 2024-07-15 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | Y18075-5g |
1-(2-METHYLPYRIDIN-3-YL)ETHAN-1-AMINE |
870063-67-5 | 95% | 5g |
¥26779.0 | 2024-07-15 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | Y18075-1g |
1-(2-METHYLPYRIDIN-3-YL)ETHAN-1-AMINE |
870063-67-5 | 95% | 1g |
¥9529.0 | 2024-07-15 | |
| abcr | AB548842-250 mg |
alpha,2-Dimethylpyridine-3-methanamine; . |
870063-67-5 | 250MG |
€616.50 | 2023-04-13 | ||
| abcr | AB548842-1 g |
alpha,2-Dimethylpyridine-3-methanamine; . |
870063-67-5 | 1g |
€1,260.50 | 2023-04-13 | ||
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1527395-100mg |
1-(2-Methylpyridin-3-yl)ethan-1-amine |
870063-67-5 | 98% | 100mg |
¥1372.00 | 2024-04-27 | |
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1527395-250mg |
1-(2-Methylpyridin-3-yl)ethan-1-amine |
870063-67-5 | 98% | 250mg |
¥2646.00 | 2024-04-27 | |
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1527395-1g |
1-(2-Methylpyridin-3-yl)ethan-1-amine |
870063-67-5 | 98% | 1g |
¥5796.00 | 2024-04-27 | |
| SHANG HAI HAO HONG Biomedical Technology Co., Ltd. | 1527395-5g |
1-(2-Methylpyridin-3-yl)ethan-1-amine |
870063-67-5 | 98% | 5g |
¥22050.00 | 2024-04-27 |
1-(2-methyl-3-pyridyl)ethanamine Related Literature
-
Jason Wan Lab Chip, 2020,20, 4528-4538
-
Ziyang Deng,Changwei Chen,Sunliang Cui RSC Adv., 2016,6, 93753-93755
-
Joseph H. Bisesi,Tara Sabo-Attwood Environ. Sci.: Nano, 2014,1, 574-583
-
Joo Chuan Yeo,Kenry Lab Chip, 2016,16, 4082-4090
-
Xing Zhao,Lu Bai,Rui-Ying Bao,Zheng-Ying Liu,Ming-Bo Yang,Wei Yang RSC Adv., 2017,7, 46297-46305
Additional information on 1-(2-methyl-3-pyridyl)ethanamine
Comprehensive Overview of 1-(2-Methyl-3-Pyridyl)Ethanamine (CAS No. 870063-67-5): Properties, Applications, and Industry Insights
1-(2-Methyl-3-pyridyl)ethanamine (CAS No. 870063-67-5) is a specialized organic compound gaining attention in pharmaceutical and agrochemical research due to its unique structural properties. As a derivative of pyridine, this amine-functionalized molecule features a methyl-substituted pyridine ring, offering versatile reactivity for synthetic applications. The compound's molecular formula C8H12N2 and precise chemical structure make it valuable for designing novel bioactive molecules, particularly in drug discovery and material science.
Recent studies highlight the growing demand for pyridine derivatives like 1-(2-methyl-3-pyridyl)ethanamine in developing small molecule therapeutics. Researchers are exploring its potential as a building block for kinase inhibitors and neurotransmitter analogs, aligning with current trends in precision medicine. The compound's balanced lipophilicity (LogP ~1.2) and moderate molecular weight (136.19 g/mol) contribute to its drug-like properties, making it suitable for medicinal chemistry optimization.
From a synthetic perspective, CAS 870063-67-5 demonstrates remarkable stability under standard laboratory conditions. Its amine functionality allows for diverse chemical modifications, including acylation, reductive amination, and palladium-catalyzed cross-coupling reactions. These characteristics position it as a valuable intermediate for creating heterocyclic compounds, addressing the pharmaceutical industry's need for structural diversity in compound libraries.
Analytical data reveals that 1-(2-methyl-3-pyridyl)ethanamine typically appears as a pale yellow to colorless liquid at room temperature, with purity levels exceeding 97% in commercial samples. Advanced characterization techniques like HPLC-MS and NMR spectroscopy confirm its structural integrity, while GC analysis ensures the absence of significant impurities. These quality parameters are critical for researchers requiring high-precision chemical intermediates for sensitive applications.
The compound's relevance extends to agrochemical innovation, where its pyridine core structure contributes to the development of novel crop protection agents. With increasing global focus on sustainable agriculture, researchers are investigating its potential as a precursor for biodegradable pesticides that maintain efficacy while reducing environmental impact. This application aligns with current green chemistry initiatives in the chemical industry.
Storage and handling recommendations for CAS 870063-67-5 emphasize protection from moisture and oxidation. Best practices suggest maintaining the compound under inert atmosphere at temperatures between 2-8°C for long-term stability. These protocols ensure the material retains its chemical purity and reactivity profile throughout extended research projects, a crucial consideration for process chemistry applications.
Market analysis indicates steady growth in demand for specialty pyridine derivatives, with 1-(2-methyl-3-pyridyl)ethanamine representing an important niche product. Pharmaceutical companies particularly value its potential for creating targeted therapies, especially in oncology and central nervous system disorders. The compound's structure-activity relationships are being actively studied to optimize its utility in lead compound development.
Recent patent literature demonstrates innovative applications of 1-(2-methyl-3-pyridyl)ethanamine in catalysis and materials science. Its ability to coordinate with transition metals makes it suitable for designing novel ligand systems in homogeneous catalysis. Additionally, materials scientists are exploring its incorporation into functional polymers with potential applications in electronic materials and sensor technologies.
Quality control standards for CAS 870063-67-5 continue to evolve, with analytical methods now capable of detecting impurities at parts-per-million levels. This advancement supports the compound's use in GMP-compliant synthesis and meets the stringent requirements of regulatory agencies overseeing pharmaceutical development. The implementation of quality-by-design principles in its production ensures batch-to-batch consistency for critical research applications.
Environmental and safety assessments confirm that 1-(2-methyl-3-pyridyl)ethanamine can be handled safely using standard laboratory precautions. Proper risk assessment protocols and engineering controls minimize exposure risks, while waste management procedures address environmental considerations. These factors contribute to its growing adoption in industrial-scale synthesis where safety and sustainability are paramount concerns.
The future outlook for 1-(2-methyl-3-pyridyl)ethanamine appears promising, with research focusing on expanding its utility in bioconjugation chemistry and prodrug design. As the chemical industry shifts toward more atom-efficient synthesis, this compound's well-defined reactivity profile positions it as a valuable tool for molecular innovation. Continued investigation of its physicochemical properties and biological activities will likely reveal additional applications in emerging scientific fields.
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