Introduction of CAS:51308-99-7 | 9-Chloro-1-nonanol
9-Chloro-1-nonanol (9-Cl-1-nonanol) is a unique and important chemical compound, with a wide range of applications in the fields of science and technology. It is a colorless, volatile liquid with a pleasant odor and it is widely used as a solvent and intermediate in the synthesis of many organic compounds. 9-Cl-1-nonanol is also known as 2-chloro-1-nonanol, 2-chlorononan-1-ol, or 2-chloro-9-nonanol. It is an important intermediate in the synthesis of many pharmaceuticals and agrochemicals, and it has been widely studied for its physiological and biochemical effects.
Specification of CAS:51308-99-7 | 9-Chloro-1-nonanol
|
ITEMS |
SPECIFICATION |
|
Boiling point |
254.55°C (rough estimate) |
|
Density |
0.9723 (rough estimate) |
|
Refractive index |
1.4575 (estimate) |
|
Purity |
98% |
|
Storage condition |
under inert gas (nitrogen or Argon) at 2-8°C |
Research Application of CAS:51308-99-7 | 9-Chloro-1-nonanol
Photodimerization of Anthracene Derivatives: 9-Chloro derivatives, among others, have been studied for their photodimerization properties in different matrices, highlighting their potential in photochemical applications (Ferguson & Miller, 1975).
Structural Analysis in Crystallography: Research on the crystal structure of compounds related to 9-Chloro-1-nonanol, like nonane-1,9-diaminium chloride chloroacetate, has contributed significantly to the field of crystallography (Paul & Kubicki, 2011).
Synthesis of Biscyano Substituted Acyclic Ketene Aminals: Studies on the synthesis of compounds containing 9-Chloro groups have revealed their potential in producing compounds with significant biological activity, such as aphid control and herbicidal properties (Zhao Yi, 1998).
Nanoparticle Synthesis: The role of 9-Chloro compounds in synthesizing various nanoparticles, such as gold, silver, palladium, and platinum nanoparticles, is crucial in the field of material science (Sardar & Shumaker-Parry, 2009).
Chemical Synthesis and Reactivity Studies: Investigations into the synthesis and chemical reactions of 9-Chloro derivatives have provided insights into their reactivity and potential applications in synthetic chemistry (Lee et al., 1996).
Molecular Interaction Studies: Research on the interactions between 9-Chloro groups and other molecular structures has been instrumental in understanding molecular dynamics and interactions (Yamamoto & Ōki, 1990).
Biosynthesis of Polyesters: Studies involving 9-Chloro-1-nonanol derivatives in biosynthesis pathways have led to the development of biopolyesters, highlighting its significance in biotechnology and material science (Lee et al., 2019).
Luminescence Studies: The role of 9-Chloro derivatives in dual luminescence has been explored, contributing to our understanding of photophysical properties (Chattopadhyay et al., 1995).


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