5-Chloropentyl acetate (CAS 20395-28-2)
QUICK LINKS
5-Chloropentyl acetate is a chlorinated organic ester notable for its structural features, which include a chlorine atom at one end of a five-carbon chain and an acetate group at the other. This configuration makes it a valuable intermediate in organic synthesis, particularly due to the reactive nature conferred by the chlorine atom and the acetate group. The chlorine atom allows for enhanced reactivity under nucleophilic substitution conditions, facilitating the incorporation of the chloropentyl group into diverse chemical structures. Meanwhile, the acetate group increases solubility in organic solvents and provides a useful handle for various chemical transformations, including esterification and hydrolysis. In research applications, 5-Chloropentyl acetate serves as a critical building block for synthesizing more complex molecules, particularly in the development of new materials, specialty chemicals, and in studies aimed at understanding the behavior of halogenated esters under different chemical reactions. These studies not only contribute to the advancement of synthetic methodologies but also help in exploring new pathways for producing industrially relevant compounds, such as polymers and lubricants, which rely on the unique properties of chlorinated organic compounds.
5-Chloropentyl acetate (CAS 20395-28-2) References
- Synthesis of a wide range of thioethers by indium triiodide catalyzed direct coupling between alkyl acetates and thiosilanes. | Nishimoto, Y., et al. 2012. Org Lett. 14: 1846-9. PMID: 22428542
- Crius: A novel fragment-based algorithm of de novo substrate prediction for enzymes. | Yao, Z., et al. 2018. Protein Sci. 27: 1526-1534. PMID: 29722450
- The Chemistry of Sultones. I. Friedel-Crafts Reactions of Sultones1a | Truce, W. E., & Hoerger, F. D. 1954. Journal of the American Chemical Society. 76(21): 5357-5360.
- New carbamates and related compounds | Alexander, B. H., Choi, C. J., Prince, A. S., & Aldridge, M. H. 1967. Journal of Chemical and Engineering Data. 12(1): 146-149.
- Platinum-catalyzed acylative cleavage of cyclic ethers | Fitch, J. W., Payne, W. G., & Westmoreland, D. 1983. The Journal of Organic Chemistry. 48(5): 751-753.
- N-Nitroso sultams: on the direction of approach of nucleophiles to the sulfonyl group | White, E. H., & Lim, H. M. 1987. The Journal of Organic Chemistry,. 52(11): 2162-2166.
- A Convenient Preparation of Etiwl 7-Bromoheptanoate | Canonica, S., Ferrari, M., & Sisti, M. 1989. Organic Preparations and Procedures International. 21(2): 253-254.
- An efficient Fischer indole synthesis of avitriptan, a potent 5-HT1D receptor agonist | Brodfuehrer, P. R., Chen, B. C., Sattelberg, T. R., Smith, P. R., Reddy, J. P., Stark, D. R.,.. & Wang, S. 1997. The Journal of Organic Chemistry. 62(26): 9192-9202.
- Transformation of OH-adduct of 1-chloro-4-iodobutane into intra-molecular radical cation in neutral aqueous solution | Mohan, H., Maity, D. K., Chattopadhyay, S., & Mittal, J. P. 1999. Chemical physics letters. 300(3-4): 493-498.
- Synthesis of analogues of acyclic nucleoside diphosphates containing a (phosphonomethyl) phosphanyl moiety and studies of their phosphorylation | Doláková, P., Dračínský, M., Fanfrlík, J., & Holý, A. 2009. European Journal of Organic Chemistry. 2009(7): 1082-1092.
Ordering Information
| Product Name | Catalog # | UNIT | Price | Qty | FAVORITES | |
5-Chloropentyl acetate, 10 g | sc-397343 | 10 g | $104.00 | |||
5-Chloropentyl acetate, 50 g | sc-397343A | 50 g | $334.00 |