350-42-5Relevant articles and documents
MILD CONVERSION OF PRIMARY ALCOHOLS AND ALDEHYDES TO ACID FLUORIDES WITH CAESIUM FLUOROXYSULPHATE
Stavber, Stojan,Planinsek, Zdenka,Zupan, Marko
, p. 6095 - 6096 (1989)
Caesium fluoroxysulphate in acetonitrile medium at 35 deg C converts primary alcohols and alkyl, as well as aryl aldehydes, to acid fluorides in high yield.
Fluoride complexes of cyclometalated iridium(III)
Maity, Ayan,Stanek, Robert J.,Anderson, Bryce L.,Zeller, Matthias,Hunter, Allen D.,Moore, Curtis E.,Rheingold, Arnold L.,Gray, Thomas G.
, p. 109 - 120 (2015)
Many electroluminescent devices rely on cyclometalated iridium(III). Their advancement depends on access to reactive starting materials because of the inertness of Ir(III). Notably, fluoride complexes of bis(cyclometalated) Ir(III) are scarce. Syntheses of bridged and terminal fluorides are reported here. New compounds are luminescent and thermally reactive; they are characterized by ground-state and optical methods. Crystal structures were determined for one bridging and one terminal fluoride complex. The terminal fluoride shows intramolecular hydrogen bonding to an adjacent 3,5-dimethylpyrazole ligand; a lesser interaction may occur between F and a nearby aromatic C-H bond. Terminal fluoride complexes react with carbon-, silicon-, and sulfur-based electrophiles. The new complexes phosphoresce with microsecond lifetimes at 77 and 298 K. Density-functional theory calculations indicate triplet states with little contribution from fluoride. The compounds herein are versatile phosphors having the ground-state reactivity of late transition metal fluorides.
Acyl fluorides from carboxylic acids, aldehydes, or alcohols under oxidative fluorination
Liang, Yumeng,Zhao, Zhengyu,Taya, Akihito,Shibata, Norio
supporting information, p. 847 - 852 (2021/02/06)
We describe a novel reagent system to obtain acyl fluorides directly from three different functional group precursors: carboxylic acids, aldehydes, or alcohols. The transformation is achieved via a combination of trichloroisocyanuric acid and cesium fluoride, which facilitates the synthesis of various acyl fluorides in high yield (up to 99%). It can be applied to the late-stage functionalization of natural products and drug molecules that contain a carboxylic acid, an aldehyde, or an alcohol group.
Metal-free approach for hindered amide-bond formation with hypervalent iodine(iii) reagents: application to hindered peptide synthesis
Lee, Hyo-Jun,Huang, Xiao,Sakaki, Shigeyoshi,Maruoka, Keiji
, p. 848 - 855 (2021/02/09)
A new bio-inspired approach is reported for amide and peptide synthesis using α-amino esters that possess a potential activating group (PAG) at the ester residue. To activate the ester functionality under mild metal-free conditions, we exploited the facile dearomatization of phenols with hypervalent iodine(iii) reagents. Using a pyridine-hydrogen fluoride complex, highly reactive acyl fluoride intermediates can be successfully generated, thereby allowing for the smooth formation of sterically hindered amides and peptides from bulky amines and α-amino esters, respectively.
Halide-Accelerated Acyl Fluoride Formation Using Sulfuryl Fluoride
Foth, Paul J.,Malig, Thomas C.,Yu, Hao,Bolduc, Trevor G.,Hein, Jason E.,Sammis, Glenn M.
supporting information, p. 6682 - 6686 (2020/09/02)
Herein, we report a new one-pot sequential method for SO2F2-mediated nucleophilic acyl substitution reactions starting from carboxylic acids. A mechanistic study revealed that SO2F2-mediated acid activation proceeds via the anhydride, which is then converted to the corresponding acyl fluoride. Tetrabutylammonium chloride or bromide accelerate the formation of acyl fluoride. Optimized halide-accelerated conditions were used to synthesize acyl fluorides in 30-80percent yields, and esters, amides, and thioesters in 72-96percent yields without reoptimization for each nucleophile.
