Tetrataenite Explained

Tetrataenite is a native metal alloy composed of chemically-ordered L1₀-type FeNi, recognized as a mineral in 1980.^{[4] [5]} The mineral is named after its tetragonal crystal structure and its relation to the iron-nickel alloy, taenite.^[6] It is one of the mineral phases found in meteoric iron.^{[7] [8] [9]}

Formation

Tetrataenite forms naturally in iron meteorites that contain taenite that are slow-cooled at a rate of a few degrees per million years, which allows for ordering of the Fe and Ni atoms.^{[10] [11]} It is found most abundantly in slow-cooled chondrite meteorites,^[12] as well as in mesosiderites. At high (as much as 52%) Ni content and temperatures below 320 °C (the order-disorder transition temperature), tetrataenite is broken down from taenite and distorts its face centered cubic crystal structure to form the tetragonal L1₀ structure.^[13]

The L1₀ phase can be synthetically produced by neutron- or electron-irradiation of FeNi below 593 K, by hydrogen-reduction of nanometric NiFe₂O₄, or by crystallization of Fe–Ni alloys in the presence of traces of phosphorus.^[14]

In 2015, it was reported that tetrataenite was found in a terrestrial rock – a magnetite body from the Indo-Myanmar ranges of northeast India.

A laboratory protocol for bulk synthesis, announced in 2022

Mixing iron and nickel together in specific quantities, with a phosphorus catalyst, and smelting the mixture, forms tetrataenite in bulk quantities, in seconds.^{[15] [16]} This discovery, announced in 2022, raises hopes that some of the technologies which currently require the use of magnetic alloys containing rare earths metals may be achievable using magnets made of tetrataenite as an alternative, which would reduce dependence on toxic, environmentally harmful rare earth mines.^[17]

Crystal structure

Tetrataenite has a highly ordered crystal structure, appearing creamy in color and displaying optical anisotropy.^[10] Its appearance is distinguishable from taenite, which is dark gray with low reflectivity. FeNi easily forms into a cubic crystal structure, but does not have magnetic anisotropy in this form. Three variants of the L1₀ tetragonal crystal structure have been found, as chemical ordering can occur along any of the three axes.

Magnetic properties

Tetrataenite displays permanent magnetization, in particular, high coercivity. It has a large uniaxial magnetocrystalline anisotropy^[18] and theoretical magnetic energy product, the maximum amount of magnetic energy stored, over 335 kJ m⁻³.

Applications

Tetrataenite is a candidate for replacing rare-earth permanent magnets such as samarium and neodymium since both iron and nickel are earth-abundant and inexpensive.^[19]

See also

• Glossary of meteoritics
• Superlattice

Notes and References

1. Warr. L.N.. 2021. IMA–CNMNC approved mineral symbols. Mineralogical Magazine. 85. 3. 291–320. 10.1180/mgm.2021.43. 2021MinM...85..291W. 235729616. free.
2. Web site: Mineralienatlas – Fossilienatlas. www.mineralienatlas.de. 1 April 2023.
3. Web site: Tetrataenite . webmineral.com.
4. Lewis. L. H.. January 27, 2014. Inspired by nature: investigating tetrataenite for permanent magnet applications. Journal of Physics: Condensed Matter. IOP Publishing. 26. 6. 064213. 10.1088/0953-8984/26/6/064213. 24469336. 24710267 .
5. Dos Santos. E.. 6 September 2014. Kinetics of tetrataenite disordering. Journal of Magnetism and Magnetic Materials. 375. 234–241. 10.1016/j.jmmm.2014.09.051.
6. Web site: Tetrataenite: Tetrataenite mineral information and data.. www.mindat.org. 2018-03-30.
7. Web site: Tetrataenite. webmineral.com.
8. Web site: Tetrataenite: Mineral information, data and localities.. 1 April 2023.
9. Web site: Handbook of Mineralogy – Tetrataenite. 1 April 2023.
10. Clarke. Roy S.. Scott. Edward R. D.. March 6, 1980. Tetrataenite – ordered FeNi, a new mineral in meteorites. American Mineralogist. 65. 624–630.
11. Nayak. Bibhuranjan. January 1, 2015. Tetrataenite in terrestrial rock. American Mineralogist. 100. 1. 209–214. 10.2138/am-2015-5061. 2015AmMin.100..209N. 128688369.
12. Web site: Tetrataenite Mineral Data. Barthelmy. Dave. webmineral.com. 2018-04-10.
13. "Taenite." Britannica Academic, Encyclopædia Britannica, 6 Nov. 2009. academic-eb-com.ezproxy.neu.edu/levels/collegiate/article/taenite/342903. Accessed 30 Mar. 2018.
14. Direct Formation of Hard-Magnetic Tetrataenite in Bulk Alloy Castings. Advanced Science . 2022 . 10.1002/advs.202204315. Ivanov . Yurii P. . Sarac . Baran . Ketov . Sergey V. . Eckert . Jürgen . Greer . A. Lindsay . 10 . 1 . e2204315 . 36281692 . 9811435 . 253108234 .
15. Ivanov . Yurii P. . Sarac . Baran . Ketov . Sergey V. . Eckert . Jürgen . Greer . A. Lindsay . 2022-10-25 . Direct Formation of Hard‐Magnetic Tetrataenite in Bulk Alloy Castings . Advanced Science . 10 . 1 . en . 2204315 . 10.1002/advs.202204315 . 36281692 . 9811435 . 253108234 . 2198-3844.
16. Web site: Method of tetratenite production and system therefor .
17. News: They made a material that doesn't exist on Earth. That's only the start of the story. 1 April 2023. NPR. 8 November 2022. Paddy Hirsch.
18. Woodgate . Christopher D. . Patrick . Christopher E. . Lewis . Laura H. . Staunton . Julie B. . 2023-10-28 . Revisiting Néel 60 years on: The magnetic anisotropy of L10 FeNi (tetrataenite) . Journal of Applied Physics . 134 . 16 . 10.1063/5.0169752 . 0021-8979. free . 2307.15470 .
19. 2018-12-04. Nanomagnetic properties of the meteorite cloudy zone. Proceedings of the National Academy of Sciences. en. 115. 49. E11436–E11445. 10.1073/pnas.1809378115. 0027-8424. 6298078. 30446616. 2018PNAS..11511436E. Einsle. Joshua F.. Eggeman. Alexander S.. Martineau. Ben H.. Saghi. Zineb. Collins. Sean M.. Blukis. Roberts. Bagot. Paul A. J.. Midgley. Paul A.. Harrison. Richard J.. free.