462-40-8 | 1-Fluoro-3-iodopropane

CAS:462-40-8 | 1-Fluoro-3-iodopropane ,Description

1-Fluoro-3-iodopropane, also known as 1-fluoro-3-iodopropane, is a halogenated compound belonging to the family of alkyl halides. It is a colorless, volatile liquid that is widely used in a variety of scientific research applications. This compound has been found to be useful in a range of experiments, from the synthesis of new compounds to the study of biochemical and physiological effects. In 
 

Scientific Research Applications

Spectroscopic Analysis and Quantum Chemical Calculations

• Rotational Spectra and Quantum Chemical Analyses: 1-Fluoro-3-iodopropane's rotational spectra have been studied using Fourier Transform Microwave Spectrometry, revealing insights into molecular structure and behavior. Quantum chemical calculations aid in understanding its spectral properties (Grubbs, Bailey, & Cooke, 2009).

Chemical Reactions and Synthesis

• Reactivity with Fluorinating Agents: The compound's reactivity has been explored in the context of rearrangement reactions with fluorinating agents, contributing to the understanding of its chemical behavior and potential applications in synthesis (Bycroft, Chowdhury, & Dove, 1978).
• Synthesis of Fluoroalkyl-Substituted Ionic Liquids: It has been used in the synthesis of fluoroalkyl-substituted ionic liquids, showcasing its utility in creating compounds with specific physical properties (Singh, Manandhar, & Shreeve, 2002).

Application in Polymer and Material Science

• Telomerization Reactions in Fluorocarbon Polymer Synthesis: The compound plays a role in telomerization reactions, which are crucial for synthesizing models for fluorocarbon polymers. This is significant in the development of materials with unique properties (Chambers, Hutchinson, Mobbs, & Musgrave, 1964).

Applications in Medical Imaging and Radiotracer Development

• Development of PET Radiotracers: 1-Fluoro-3-iodopropane has been utilized in the synthesis of radiotracers for Positron Emission Tomography (PET) imaging, particularly in imaging dopamine transporters. This highlights its importance in medical diagnostics and research (Goodman et al., 1997).

Spectral Analysis and Isomerism Studies

• Vibration Spectra and Rotational Isomerism: The vibrational spectra of compounds related to 1-Fluoro-3-iodopropane have been studied to understand the rotational isomerism and spectral properties of chain molecules, which is fundamental in molecular spectroscopy (Ogawa et al., 1978).

Applications in Electrochemistry

• Electrochemistry and Battery Technology: Research into 1-Fluoro-3-iodopropane as an SEI-forming additive for lithium-ion batteries highlights its potential application in improving battery performance and stability (Krämer, Schmitz, Passerini, Winter, & Schreiner, 2012) .

Fluorination and Aryl Migration Studies

• Synthesis of Fluoro-Benzoxazepines: The compound has been instrumental in the development of methods for synthesizing fluorinated organic molecules, including fluoro-benzoxazepines. This highlights its role in creating compounds for chemical and medical applications (Ulmer, Brunner, Arnold, Pöthig, & Gulder, 2016).

More Information