Cas no 942593-10-4 (1-Methylimidazolidine)
1-Methylimidazolidine Chemical and Physical Properties
Names and Identifiers
-
- 1-methylimidazolidine
- methylimidazolidin
- 942593-10-4
- AC8535
- AKOS006355851
- SY251230
- Imidazolidine, 1-methyl-
- MFCD19217607
- 1-Methylimidazolidine
-
- MDL: MFCD19217607
- Inchi: 1S/C4H10N2/c1-6-3-2-5-4-6/h5H,2-4H2,1H3
- InChI Key: VGYLMOJQAHXYCK-UHFFFAOYSA-N
- SMILES: N1(C)CNCC1
Computed Properties
- Exact Mass: 86.084398327g/mol
- Monoisotopic Mass: 86.084398327g/mol
- Isotope Atom Count: 0
- Hydrogen Bond Donor Count: 1
- Hydrogen Bond Acceptor Count: 2
- Heavy Atom Count: 6
- Rotatable Bond Count: 0
- Complexity: 44.8
- 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
- Topological Polar Surface Area: 15.3
- XLogP3: -0.3
1-Methylimidazolidine Pricemore >>
| Related Categories | No. | Product Name | Cas No. | Purity | Specification | Price | update time | Inquiry |
|---|---|---|---|---|---|---|---|---|
| SHANG HAI SHAO YUAN SHI JI Co., Ltd. | SY251230-0.25g |
1-Methylimidazolidine |
942593-10-4 | ≥95% | 0.25g |
¥5900.00 | 2025-04-11 | |
| SHANG HAI SHAO YUAN SHI JI Co., Ltd. | SY251230-1g |
1-Methylimidazolidine |
942593-10-4 | ≥95% | 1g |
¥7600.00 | 2025-04-11 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | Y18525-250mg |
1-Methylimidazolidine |
942593-10-4 | 95% | 250mg |
¥11109.0 | 2024-07-18 | |
| SHANG HAI JI ZHI SHENG HUA Technology Co., Ltd. | Y18525-1g |
1-Methylimidazolidine |
942593-10-4 | 95% | 1g |
¥11409.0 | 2024-07-18 | |
| abcr | AB533802-1 g |
1-Methylimidazolidine |
942593-10-4 | 1g |
€1,395.50 | 2022-09-28 | ||
| abcr | AB533802-250 mg |
1-Methylimidazolidine; . |
942593-10-4 | 250MG |
€1,059.30 | 2023-04-14 | ||
| eNovation Chemicals LLC | D699395-0.25g |
1-Methylimidazolidine |
942593-10-4 | 95% | 0.25g |
$685 | 2024-07-20 | |
| eNovation Chemicals LLC | D699395-1g |
1-Methylimidazolidine |
942593-10-4 | 95% | 1g |
$980 | 2024-07-20 | |
| abcr | AB533802-250mg |
1-Methylimidazolidine; . |
942593-10-4 | 250mg |
€1080.10 | 2025-04-15 | ||
| Enamine | EN300-243434-1.0g |
1-methylimidazolidine |
942593-10-4 | 1.0g |
$0.0 | 2023-02-21 |
1-Methylimidazolidine Suppliers
1-Methylimidazolidine Related Literature
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1. An all-solid-state imprinted polymer-based potentiometric sensor for determination of bisphenol S?Rongning Liang,Tanji Yin,Ruiqing Yao,Wei Qin RSC Adv., 2016,6, 73308-73312
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Jianyao Huang,Dong Gao,Zhihui Chen,Weifeng Zhang Polym. Chem., 2021,12, 2471-2480
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José M. Rivera,Mariana Martín-Hidalgo,Jean C. Rivera-Ríos Org. Biomol. Chem., 2012,10, 7562-7565
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Supaporn Sawadjoon,Joseph S. M. Samec Org. Biomol. Chem., 2011,9, 2548-2554
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Inês S. Albuquerque,Hélia F. Jeremias,Miguel Chaves-Ferreira,Dijana Matak-Vinkovic,Omar Boutureira,Carlos C. Rom?o Chem. Commun., 2015,51, 3993-3996
Additional information on 1-Methylimidazolidine
Introduction to CAS No. 942593-10-4: 1-Methylimidazolidine
The compound with CAS No. 942593-10-4, commonly referred to as 1-Methylimidazolidine, is a heterocyclic organic compound that has garnered significant attention in various scientific and industrial fields. This compound belongs to the imidazolidine family, which is a five-membered ring consisting of two nitrogen atoms and three carbon atoms. The presence of the methyl group at position one (hence the name 1-Methylimidazolidine) imparts unique chemical properties, making it a versatile molecule with diverse applications.
Recent advancements in synthetic chemistry have led to the development of novel methods for the synthesis of 1-Methylimidazolidine. Researchers have explored various routes, including condensation reactions and catalytic processes, to optimize its production. These methods not only enhance yield but also improve the purity of the compound, which is crucial for its application in sensitive fields such as pharmaceuticals and biotechnology.
The structural uniqueness of 1-Methylimidazolidine lies in its ability to act as a chelating agent due to the nitrogen atoms in the imidazolidine ring. This property has made it a valuable component in coordination chemistry, where it is used to form stable metal complexes. Recent studies have highlighted its potential in catalysis, particularly in asymmetric catalysis, where it serves as a ligand to facilitate enantioselective reactions. This has opened new avenues for its use in drug discovery and fine chemical synthesis.
In the pharmaceutical industry, 1-Methylimidazolidine has found applications as an intermediate in drug development. Its ability to form stable bonds with metal ions makes it a promising candidate for designing metallo-drugs targeting specific diseases such as cancer and neurodegenerative disorders. Additionally, research into its pharmacokinetics and bioavailability has provided insights into its potential as a drug delivery vehicle, enhancing the efficacy of therapeutic agents.
The material science sector has also benefited from the properties of 1-Methylimidazolidine. Its use as a precursor in polymer synthesis has led to the development of novel materials with enhanced mechanical and thermal stability. Recent studies have demonstrated its role in creating stimuli-responsive polymers, which can change their properties in response to external stimuli such as temperature or pH changes. These materials hold potential applications in sensors, drug delivery systems, and adaptive textiles.
Moreover, the environmental impact of 1-Methylimidazolidine has been a subject of recent research. Studies have focused on its biodegradability and toxicity profiles to ensure its safe use in industrial processes. Findings suggest that under controlled conditions, the compound exhibits low toxicity and moderate biodegradability, making it suitable for applications where environmental safety is a priority.
In conclusion, CAS No. 942593-10-4, or 1-Methylimidazolidine, stands out as a multifaceted compound with applications spanning chemistry, pharmaceuticals, materials science, and beyond. Its unique chemical properties and versatile functionality continue to drive innovation across various industries. As research progresses, new insights into its potential uses are expected to emerge, further solidifying its role as an essential compound in modern science.
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