Iron(III) phosphate explained

Iron(III) phosphate, also ferric phosphate,^{[1] [2]} is the inorganic compound with the formula FePO₄. Four polymorphs of anhydrous FePO₄ are known. Additionally two polymorphs of the dihydrate FePO₄·(H₂O)₂ are known. These materials have attracted much interest as potential cathode materials in batteries.

Structure

The most common form of FePO₄ adopts the structure of α-quartz. As such the material consists of tetrahedral Fe(III) and phosphate sites.^[3] As such the P and Fe have tetrahedral molecular geometry. At high pressures, a phase change occurs to a more dense structure with octahedral Fe centres. Two orthorhombic structures and a monoclinic phase are also known. In the two polymorphs of the dihydrate, the Fe centre is octahedral with two mutually cis water ligands.^[4]

Uses

See also: Phosphate conversion coating. Iron(III) phosphate can be used in steel and metal manufacturing processes. When bonded to a metal surface, iron phosphate prevents further oxidation of the metal. Its presence is partially responsible for the corrosion resistance of the iron pillar of Delhi.

Iron phosphate coatings are commonly used in preparation for painting or powder coating, in order to increase adhesion to the iron or steel substrate, and prevent corrosion, which can cause premature failure of subsequent coating processes.

It can also be used for bonding fabrics, wood, and other materials to iron or steel surfaces.

Iron phosphate is used^[5] to make lithium iron phosphate, the cathode in lithium iron phosphate batteries.^{[6] [7]}

Pesticide

Iron phosphate is one of the few molluscicides approved for use in the practice of organic farming.^[8] Pesticide pellets contain iron phosphate plus a chelating agent, such as EDTA.^[9]

Mineral

Strengite is the mineral form of hydrated ferric phosphate.

Legislation

Iron(III) phosphate is not allowed as food additive in the European Union. It was withdrawn from the list of allowed substances in the directive 2002/46/EC in 2007.

See also

• Iron(II) phosphate, commonly known as ferrous phosphate, the lower phosphate of iron
• Lithium iron phosphate battery, a battery that uses iron phosphate
• Phosphate conversion coating, an industrial process used to protect newly manufactured iron and steel from corrosion

Notes and References

1. Web site: Iron(III) Phosphate. NIH, U.S. National Library of Medicine. 22 January 2016.
2. Web site: FERRIC PHOSPHATE. EndMemo.com. 22 January 2016.
3. 10.1524/zkri.218.3.193.20755. A neutron diffraction study of quartz-type FePO4: High-temperature behavior and α–β phase transition. 2003. Haines. J.. Cambon. O.. Hull. S.. Zeitschrift für Kristallographie - Crystalline Materials. 218. 3. 193. 2003ZK....218..193H. 98195900.
4. Zaghib. K.. Julien. C. M.. Structure and electrochemistry of FePO₄·2H₂O hydrate. Journal of Power Sources. January 2005. 142. 1–2. 279–284. 10.1016/j.jpowsour.2004.09.042. 2005JPS...142..279Z. 3 July 2014.
5. Web site: Lithium iron phosphate comes to America . 2023-09-12 . Chemical & Engineering News . en.
6. Roncal-Herrero, T., Rodriguez-Blanco, J.D., Benning, L.G., Oelkers, E.H. (2009) Precipitation of Iron and Aluminium Phosphates Directly from Aqueous Solution as a Function of Temperature from 50 to 200°C. Crystal Growth & Design, 9, 5197-5205. doi: 10.1021/cg900654m.
7. Song. Y.. Zavalij. P. Y.. Suzuki. M.. Whittingham. M. S.. New Iron(III) Phosphate Phases: Crystal Structure and Electrochemical and Magnetic Properties. Inorganic Chemistry. 2002. 41. 5778–5786. 10.1021/ic025688q. 3 July 2014. 12401083. 22. https://web.archive.org/web/20140714114934/http://materials.binghamton.edu/whittingham/pdfpapers/IC_41_5778_02.pdf. 14 July 2014. dead. dmy-all.
8. Web site: COMMISSION REGULATION (EC) No 889/2008. European Union law. 3 July 2014.
9. Web site: The Regional Institute - Slugs, Snails and Iron based Baits: An Increasing Problem and a Low Toxic Specific Action Solution 1. 11 September 2018. www.regional.org.au.