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Deoxyfluorination with 2-Pyridinesulfonyl Fluoride (PyFluor)

Deoxyfluorination with 2-Pyridinesulfonyl Fluoride

Introduction

The prevalence of organofluorine compounds in industry and drug design necessitates the ability to introduce C–F bonds to molecules. Deoxyfluorination of alcohols is a well-precedented technique for synthesizing aliphatic fluorides. Diethylaminosulfur trifluoride (DAST) has emerged as the most popular deoxyfluorinating reagent for its availability and broad substrate scope.1 However, its use is limited to small-scale preparations because of its tendency to detonate catastrophically at elevated temperatures. In addition, DAST frequently affords elimination byproducts that complicate purification. Perfluoro-1-butanesulfonyl fluoride (PBSF) has also been explored but is likewise poorly selective.2

To overcome selectivity and safety challenges, Sigma-Aldrich is pleased to offer 2-pyridinesulfonyl fluoride (PyFluor, 804401) in collaboration with Professor Abby Doyle. PyFluor chemoselectively fluorinates a diverse scope of alcohols with substantially less elimination side products than DAST or PBSF. In addition, PyFluor does not undergo thermal decomposition and is a low-melting crystalline solid that can be stored at room temperature for over a month with no detectable decomposition. By contrast, DAST must be refrigerated and reacts violently with water. PyFluor’s thermal and chemical stability as well as superior safety profile welcomes various applications and scalability. Together, PyFluor is a premier choice for deoxyfluorination chemistry on a preparatory scale.3

deoxyfluorination chemistry

Advantages

  • Chemoselective deoxyfluorination with minimal elimination side products, competitive with DAST, PBSF, Deoxo-Fluor, XtalFluor, and Fluolead
  • Superior thermal and chemical stability with a greater shelf life than other commercial deoxyfluorination reagents
  • Safe and convenient: tolerates air and moisture

Representative Applications

PyFluor is a general deoxyfluorination reagent for primary and secondary alcohols and tolerates basic functionality including phthalimides, heterocycles, and protected or tertiary amines and anilines. PyFluor requires the use of a strong Brønsted base such as 1,8-diazabicyclo-[5.4.0]undec-7-ene (DBU) or 7-methyl-1,5,7-triazabicyclo[4.4.0]dec-5-ene (MTBD). Reactions are typically performed at room temperature in toluene or ethereal solvents.

elimination byproducts

Producing considerably less elimination byproducts, chemoselective fluorination with PyFluor leads to straightforward purifications and scalability. This and its broad substrate scope indicate the potential for PyFluor applications in late-stage functionalization of bioactive molecules.

functionalization

Special thanks to Professor Abby Doyle and Matthew Nielsen for contributing this technology spotlight.

Materials
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References

1.
Middleton WJ. 1975. New fluorinating reagents. Dialkylaminosulfur fluorides. J. Org. Chem.. 40(5):574-578. https://doi.org/10.1021/jo00893a007
2.
Bennua-Skalmowski B, Krolikiewicz K, Vorbriiggen H. 1995. A new simple nucleoside synthesis. Tetrahedron Letters. 36(43):7845-7848. https://doi.org/10.1016/0040-4039(95)01667-7
3.
Nielsen MK, Ugaz CR, Li W, Doyle AG. 2015. PyFluor: A Low-Cost, Stable, and Selective Deoxyfluorination Reagent. J. Am. Chem. Soc.. 137(30):9571-9574. https://doi.org/10.1021/jacs.5b06307
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