Lanthanum trifluoride explained

Lanthanum trifluoride is a refractory ionic compound of lanthanum and fluorine.^[1] The chemical formula is .

The LaF₃ structure

Bonding is ionic with lanthanum highly coordinated. The cation sits at the center of a trigonal prism. Nine fluorine atoms are close: three at the bottom corners of the trigonal prism, three in the faces of the trigonal prism, and three at top corners of the trigonal prism. There are also two fluorides a little further away above and below the prism. The cation can be considered 9-coordinate or 11-coordinate. At 300 K, the structure allows the formation of Schottky defects with an activation energy of 0.07 eV, and free flow of fluoride ions with an activation energy of 0.45 eV, making the crystal unusually electrically conductive.^{[2] [3]}

The larger sized rare earth elements (lanthanides), which are those with smaller atomic number, also form trifluorides with the LaF₃ structure. Some actinides do as well.

Applications

This white salt is sometimes used as the "high-index" component in multilayer optical elements such as ultraviolet dichroic and narrowband mirrors. Fluorides are among the most commonly used compounds for UV optical coatings due to their relative inertness and transparency in the far ultraviolet (FUV) Multilayer reflectors and antireflection coatings are typically composed of pairs of transparent materials, one with a low index of refraction, the other with a high index. LaF is one of very few high-index materials in the far UV.^[4] The material is also a component of multimetal fluoride glasses such as ZBLAN.^[5] It is also doped with europium(II) fluoride in fluoride selective electrodes.^[6]

Natural occurrence

LaF₃ occurs in the nature as the extremely rare mineral fluocerite-(La).^{[7] [8]} The suffix in the name is known as the Levinson modifier and, by showing the dominant element at a particular site in the structure, is used to differentiate from similar minerals (here: fluocerite-(Ce)).^[9]

Notes and References

1. Book: Cotton, Simon . Lanthanide and Actinide Chemistry. 30 January 2007. Wiley. 978-0-470-01007-5. 25–27.
2. Frant . Martin S. . Ross . James W. . Electrode for Sensing Fluoride Ion Activity in Solution . Science . 23 December 1966 . 154 . 3756 . 1553–1555 . 10.1126/science.154.3756.1553 . 1720460 . 5924922 . 1966Sci...154.1553F . 11042445 .
3. Sher . A. . Solomon . R. . Lee . K. . Muller . M. W. . Transport Properties of La F 3 . Physical Review . 15 April 1966 . 144 . 2 . 593–604 . 10.1103/PhysRev.144.593. 1966PhRv..144..593S .
4. Rodríguez-de Marcos . Luis . Detlev . Ristau . H. Angus . MacLeod . Michel . Lequime . 23 September 2015 . Multilayers and optical constants of various fluorides in the far UV . Proceedings of SPIE: Advances in Optical Thin Films V . Optical Systems Design 2015: Advances in Optical Thin Films V . 9627 . B0 . 96270B . 10.1117/12.2191309 . 2015SPIE.9627E..0BR . 27 February 2019 . 10261/134764 . 138737136 . free.
5. Web site: Harrington, James A. . Infrared Fiber Optics . . dead . https://web.archive.org/web/20080509143453/http://irfibers.rutgers.edu/pdf_files/ir_fiber_review.pdf . 2008-05-09.
6. Light . Truman S. . Cappuccino . Carleton C. . Determination of fluoride in toothpaste using an ion-selective electrode . Journal of Chemical Education . April 1975 . 52 . 4 . 247–250 . 10.1021/ed052p247. 1133123 . 1975JChEd..52..247L .
7. Web site: Fluocerite-(La).
8. Web site: List of Minerals. 21 March 2011.
9. Burke . Ernst A.J.. 2008 . Tidying up mineral names: an IMA-CNMNC scheme for suffixes, hyphens and diacrital marks. Mineralogical Record . 39 . 2 . 131–135 . 14 November 2020 .