[1] E. Gregoryanz, C. Sanloup, M. Somayazulu, J. Badro, G. Fiquet, et al., Synthesis and characterization of a binary noble metal nitride, Nat. Mater. 3 (5) (2004) 294-297.

[2] J.C. Crowhurst, A.F. Goncharov, B. Sadigh, C.L. Evans, P.G. Morrall, et al., Synthesis and characterization of the nitrides of platinum and iridium, Science 311 (5765) (2006) 1275-1278.

[3] A.F. Young, C. Sanloup, E. Gregoryanz, S. Scandolo, R.J. Hemley, et al., Synthesis of novel transition metal nitrides IrN2 and OsN2, Phys. Rev. Lett. 96 (15) (2006) 155501.

[4] M. Chhowalla, H.E. Unalan, Thin films of hard cubic Zr3N4 stabilized by stress, Nat. Mater. 4 (4) (2005) 317-322.

[5] A. Zerr, G. Miehe, R. Riedel, Synthesis of cubic zirconium and hafnium nitride having Th3P4 structure, Nat. Mater. 2 (3) (2003) 185-189.

[6] A. Friedrich, B. Winkler, L. Bayarjargal, W. Morgenroth, E.A. Juarez- Arellano, et al., Novel rhenium nitrides, Phys. Rev. Lett. 105 (8) (2010) 085504.

[7] [a] J.L. O'Loughlin, C.H. Wallace, M.S. Knox, R.B. Kaner, Rapid solidstate synthesis of tantalum, chromium, and molybdenum nitrides, Inorg. Chem. 40 (10) (2001) 2240-2245; [b] R.E. Treece, E.G. Gillan, R.B. Kaner, Materials synthesis via solidstate metathesis reactions, Comments on Inorganic Chemistry 16 (6) (1995) 313-337; [c] E.G. Gillan, R.B. Kaner, Synthesis of refractory ceramics via rapid metathesis reactions between solid-state precursors, Chemistry of materials 8 (2) (1996) 333-343.

[8] [a] I.P. Parkin, A.T. Nartowski, Fast metathesis routes to tungsten and molybdenum carbides, J. Mater. Sci. Lett. 18 (4) (1999) 267-268; [b] I.P. Parkin, Solid state metathesis reaction for metal borides, silicides, pnictides and chalcogenides: ionic or elemental pathways, Chemical Society Reviews 25 (3) (1996) 199-207; [c] J.C. Fitzmaurice, A. Hector, I.P. Parkin, Rapid synthesis of TiN, HfN and ZrN from solid-state precursors, Polyhedron 12 (11) (1993) 1295-1300.

[9] [a] H. Zhao, M. Lei, X. Yang, J. Jian, X. Chen, Route to GaN and VN assisted by carbothermal reduction process, J. Am. Chem. Soc. 127 (45) (2005) 15722-15723; [b] B. Song, X. Chen, J. Han, J. Jian, W.Y. Wang, et al., Facile route to nitrides: transformation from single element to binary and ternary nitrides at moderate temperature through a new modified solid-state metathesis, Inorganic Chemistry 48 (22) (2009) 10519-10527; [c] B. Song, J.K. Jian, G.Wang, M. Lei, Y.P. Xu, et al., Facile and general route to nitrides by a modified solid-state metathesis pathway, Chemistry of Materials 19 (6) (2007) 1497-1502.

[10] C.H.Wallace, S.H. Kim, G.A. Rose, L. Rao, J.R. Heath, et al., Solid-state metathesis reactions under pressure: a rapid route to crystalline gallium nitride, Appl. Phys. Lett. 72 (5) (1998) 2.

[11] L. Lei, D. He, Synthesis of GaN crystals through solid-state metathesis reaction under high pressure, Cryst. Growth Des. 9 (3) (2009) 1264-1266.

[12] W. Yin, L. Lei, X. Jiang, P. Liu, F. Liu, et al., High pressure synthesis and properties studies on spherical bulk ε e Fe3N, High Pres. Res. 34 (3) (2014) 317-326.

[13] X. Jiang, L. Lei, Q. Hu, Z.C. Feng, D.W. He, High-pressure Raman spectroscopy of Re3N crystals, Solid State Commun. 201 (2015) 107-110.

[14] S. Wang, X. Yu, J. Zhang, L. Wang, K. Leinenweber, et al., Synthesis, hardness, and electronic properties of stoichiometric VN and CrN, Cryst. Growth Des. 16 (1) (2015) 351-358.

[15] M. Chen, S. Wang, J. Zhang, D. He, Y. Zhao, Synthesis of stoichiometric and bulk CrN through a solid-state ion-exchange reaction, Chem. A Eur. J. 18 (48) (2012) 15459-15463.

[16] S. Wang, X. Yu, Z. Lin, R. Zhang, D. He, et al., Synthesis, crystal structure, and elastic properties of novel tungsten nitrides, Chem. Mater. 24 (15) (2012) 3023-3028.

[17] S. Wang, H. Ge, S. Sun, J. Zhang, F. Liu, et al., A new molybdenum nitride catalyst with rhombohedral MoS2 structure for hydrogenation applications,, J. Am. Chem. Soc. 137 (2015) 4815-4822.

[18] S. Gao, L. Lei, Q. Hu, L.M. Fang, X.L. Wang, et al., High-pressure solidstate metathesis synthesis of ternary iron-based metal nitrides, Chin. J. High Press. Phys. 30 (4) (2016) 265-270.

[19] L. Lei, W. Yin, X. Jiang, S. Lin, D. He, et al., Synthetic route to metal nitrides: high-pressure solid-state metathesis reaction, Inorg. Chem. 52 (23) (2013) 13356-13362.

[20] H. Ma, D. He, L. Lei, S. Wang, Y. Chen, et al., GaN crystals prepared through solid-state metathesis reaction from NaGaO2 and BN under high pressure and high temperature, J. Alloy. Comp. 509 (7) (2011) L124-L127.

[21] H. Ohfuji, M. Yamamoto, EDS quantification of light elements using osmium surface coating, J. Mineral. Petrol. Sci. 110 (4) (2015) 189-195.

[22] Y. Zhou, T. Irifune, H. Ohfuji, T. Shinmei, W. Du, Stability region of K0.2Na0.8AlSi3O8 hollandite at 22 GPa and 2273 K, Phys. Chem. Miner. 44 (1) (2017) 33-42.

[23] Y. Kojima, H. Ohfuji, Structure and stability of carbon nitride under high pressure and high temperature up to 125 GPa and 3000 K, Diam. Relat. Mater. 39 (2013) 1-7.

[24] A.B. Belonoshko, R. Ahuja, B. Johansson, Stability of the body-centredcubic phase of iron in the Earth's inner core, Nature 424 (6952) (2003) 1032-1034.

[25] M. Chen, S. Wang, J. Zhang, D. He, Y. Zhao, Synthesis of stoichiometric and bulk CrN through a solid-state ion-exchange reaction, Chem. A Eur. J. 18 (48) (2012) 15459-15463.

[26] S. Wang, X. Yu, J. Zhang, M. Chen, J. Zhu, et al., Experimental invalidation of phase-transition-induced elastic softening in CrN, Phys. Rev. B 86 (6) (2012) 064111.

[27] B. Alling, T. Marten, I.A. Abrikosov, Questionable collapse of the bulk modulus in CrN, Nat. Mater. 9 (4) (2010) 283-284.

[28] X.J. Chen, V.V. Struzhkin, Z. Wu, M. Somayazulu, J. Qian, et al., Hard superconducting nitrides, Proc.Natl. Acad. Sci. USA. 102 (9) (2005) 3198-3201.