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Philosophical Magazine Volume 100, 2020 - Issue 4
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Part A: Materials Science

The Hume-Rothery electron concentration rule studied through interference phenomena in a series of cP12 compounds with either a true gap or pseudogap across the Fermi level

Tomoyuki HommaDepartment of Mechanical Engineering, Nagaoka University of Technology, Niigata, JapanView further author information
,
Uichiro MizutaniNagoya Industrial Science Research Institute, Aichi, JapanCorrespondence[email protected]
View further author information
&
Hirokazu SatoDepartment of Physics, Aichi University of Education, Aichi, JapanView further author information
Pages 426-455 | Received 31 Jul 2019, Accepted 23 Oct 2019, Published online: 04 Dec 2019

References

  • U. Mizutani and H. Sato, The Physics of the Hume-Rothery Electron Concentration Rule, Uchida Rokakuho, Tokyo, 2015. (In Japanese).
  • U. Mizutani, H. Sato, M. Inukai, Y. Nishino and E.S. Zijlstra, Electrons per atom ratio determination and Hume-Rothery electron concentration rule for P-based polar compounds studied by FLAPW-Fourier calculations. Inorg. Chem 54 (2015), pp. 930–946. doi: 10.1021/ic502286q
  • U. Mizutani and H. Sato, The physics of the Hume-Rothery electron concentration rule. Crystals 7 (2017), pp. 7010009. doi: 10.3390/cryst7010009
  • U. Mizutani and H. Sato, Energy gap formation mechanism through the interference phenomena of electrons in face-centered cubic elements and compounds with the emphasis on half-Heusler and Heusler compounds. Philos. Mag 98 (2018), pp. 1307–1336. doi: 10.1080/14786435.2018.1428772
  • H. Jones, The Theory of Brillouin Zones and Electronic States in Crystals, North-Holland, Amsterdam, 1975.
  • U. Mizutani, Hume-Rothery Rules for Structurally Complex Alloy Phases, CRC Press, Taylor & Francis Group, Boca Raton, 2010.
  • P. Blaha, K. Schwarz, G. Madsen, D. Kvasnicka and J. Luitz, WIEN2k; software available at http://www.wien2k.at/.
  • P. Villars, Pearson’s Handbook, ASM International, Materials Park, OH, 1997.
  • J.E. Greedan, D.B. Willson and T.E. Haas, The metallic nature of osmium dioxide. Inorg. Chem 7 (1968), pp. 2461–2463. doi: 10.1021/ic50069a059
  • Y. Shirako, X. Wang, Y. Tsujimoto, K. Tanaka, Y. Guo, Y. Matsushita, Y. Nemoto, Y. Katsuya, Y. Shi, D. Mori, H. Kojitani, K. Yamaura, Y. Inaguma and M. Akaogi, Synthesis, crystal structure, and electronic properties of high pressure PdF2-type oxides MO2 (M = Ru, Rh, Os, Ir, Pt). Inorg. Chem 53 (2014), pp. 11616–11625. doi: 10.1021/ic501770g

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