40888-89-9

Basic information

• Product Name: 2-fluoro-1-phenylpropane
• Synonyms: 2-fluoro-1-phenylpropane
• CAS NO: 40888-89-9
• Molecular Weight: 138.185
• Mol File: 40888-89-9.mol
• Article Data: 7

Chemical Properties

• CAS DataBase Reference: 2-fluoro-1-phenylpropane(CAS DataBase Reference)
• NIST Chemistry Reference: 2-fluoro-1-phenylpropane(40888-89-9)
• EPA Substance Registry System: 2-fluoro-1-phenylpropane(40888-89-9)

Safety Data

• Hazardous Substances Data: 40888-89-9(Hazardous Substances Data)

Upstream product

• 1459-01-4 (1-iodopropan-2-yl)benzene 
• 93-54-9 1-Phenyl-1-propanol 
• 13343-40-3 (2,2-difluoro-1-cyclopropyl)benzene 
• 2114-39-8 (2-bromopropyl)-benzene 
• 698-87-3 3-phenyl-2-propanol 
• 637-50-3 1-phenylpropene 
• 1009-67-2 2-methyl-3-phenylpropanoic acid 

Downstream Products

• 61380-47-0 (±)-1-phenylpropanyl-2-yl methansulfonate 
• 103-65-1 phenylpropane 
• 1206519-41-6 C₂₁H₂₂ 

Relevant articles and documents

Nucleophilic Substitution of Aliphatic Fluorides via Pseudohalide Intermediates

A method for aliphatic fluoride functionalization with a variety of nucleophiles has been reported. Carbon–fluoride bond cleavage is thermodynamically driven by the use of silylated pseudohalides TMS-OMs or TMS-NTf2, resulting in the formation of TMS-F and a trapped aliphatic pseudohalide intermediate. The rate of fluoride/pseudohalide exchange and the stability of this intermediate are such that little rearrangement is observed for terminal fluoride positions in linear aliphatic fluorides. The ability to convert organofluoride positions into pseudohalide groups allows facile nucleophilic attack by a wide range of nucleophiles. The late introduction of the nucleophiles also allows for a wide range of functional-group tolerance in the coupling partners. Selective alkyl fluoride mesylation is observed in the presence of other alkyl halides, allowing for orthogonal synthetic strategies.

Targeted fluorination with the fluoride ion by manganese-catalyzed decarboxylation

We describe the first catalytic decarboxylative fluorination reaction based on the nucleophilic fluoride ion. The reported method allows the facile replacement of various aliphatic carboxylic acid groups with fluorine. Moreover, the potential of this method for PET imaging has been demonstrated by the successful 18F labeling of a variety of carboxylic acids with radiochemical conversions up to 50-%, representing a targeted decarboxylative 18F labeling method with no-carrier-added [18F]fluoride. Mechanistic probes suggest that the reaction proceeds through the interaction of the manganese catalyst with iodine(III) carboxylates formed in situ from iodosylbenzene and the carboxylic acid substrates. Nucleophile first: An efficient manganese porphyrin catalyzed decarboxylative fluorination reaction based on a nucleophilic fluorine source is described. The potential of the described method for use in PET imaging has been demonstrated by the successful 18F labeling of various aliphatic carboxylic acids, representing the first decarboxylative 18F labeling method with no-carrier-added [18F]fluoride.

Rearrangement and double fluorination in the deiodinative fluorination of neopentyl iodide with xenon difluoride

Alkyl iodides give products from the neopentyl rearrangement on reaction with xenon difluoride. Neopentyl iodide performs a double rearrangement and yields a gem-difluoro product, 2,2-difluoro-3-methylbutane. Studies of the mechanism show that an alkene intermediate is involved in the double rearrangement process. Alkenes can be substituted as substrates in reaction with xenon difluoride-iodine to give gem-difluoro products. 13C Labeling verifies the skeletal rearrangement process.