Fluorochemicals from fluorspar via a phosphate-enabled mechanochemical process that bypasses HF
Calum Patel, Emy André‐Joyaux, Jamie A. Leitch, Xabier Martínez de Irujo-Labalde, Francesco Ibba, Job J. C. Struijs, Mathias A. Ellwanger, Robert S. Paton, Duncan L. Browne, Gabriele Pupo, Simon Aldridge, Michael A. Hayward, Véronique Gouverneur
Abstract
All fluorochemicals—including elemental fluorine and nucleophilic, electrophilic, and radical fluorinating reagents—are prepared from hydrogen fluoride (HF). This highly toxic and corrosive gas is produced by the reaction of acid-grade fluorspar (>97% CaF 2 ) with sulfuric acid under harsh conditions. The use of fluorspar to produce fluorochemicals via a process that bypasses HF is highly desirable but remains an unsolved problem because of the prohibitive insolubility of CaF 2 . Inspired by calcium phosphate biomineralization, we herein disclose a protocol of treating acid-grade fluorspar with dipotassium hydrogen phosphate (K 2 HPO 4 ) under mechanochemical conditions. The process affords a solid composed of crystalline K 3 (HPO 4 )F and K 2− x Ca y (PO 3 F) a (PO 4 ) b , which is found suitable for forging sulfur-fluorine and carbon-fluorine bonds.