Issue 22, 2021

Distiboranes based on ortho-phenylene backbones as bidentate Lewis acids for fluoride anion chelation

Abstract

As part of our efforts in the chemistry of main group platforms that support anion sensing and transport, we are now reporting the synthesis of anitmony-based bidentate Lewis acids featuring the o-C6F4 backbone. These compounds can be easily accessed by reaction of the newly synthesized o-C6F4(SbPh2)2 (5) with o-chloranil or octafluorophenanthra-9,10-quinone, affording the corresponding distiboranes 6 and 7 of general formula o-C6F4(SbPh2(diolate))2 with diolate = tetrachlorocatecholate for 6 and octafluorophenanthrene-9,10-diolate for 7, respectively. While 6 is very poorly soluble, its octafluorophenanthrene-9,10-diolate analog 7 readily dissolves in CH2Cl2 and undergoes swift conversion into the corresponding fluoride chelate complex [72-F] which has been isolated as a [nBu4N]+ salt. The o-C6H4 analog of 7, referred to as 8, has also been prepared. Although less Lewis acidic than 7, 8 also forms a very stable fluoride chelate complex ([82-F]). Altogether, our experiental results, coupled with computational analyses and fluoride anion affinity calculations, show that 7 and 8 are some of the strongest antimony-based fluoride anion chelators prepared to date. Another notable aspect of this work concerns the use of the octafluorophenanthrene-9,10-diolate ligand and its ablity to impart advantageous solubility and Lewis acidity properties.

Graphical abstract: Distiboranes based on ortho-phenylene backbones as bidentate Lewis acids for fluoride anion chelation

Supplementary files

Article information

Article type
Paper
Submitted
19 Mar 2021
Accepted
30 Apr 2021
First published
30 Apr 2021

Org. Biomol. Chem., 2021,19, 4949-4957

Author version available

Distiboranes based on ortho-phenylene backbones as bidentate Lewis acids for fluoride anion chelation

D. You, B. Zhou, M. Hirai and F. P. Gabbaï, Org. Biomol. Chem., 2021, 19, 4949 DOI: 10.1039/D1OB00536G

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