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Liu et al. J Mater Inf 2023;3:17  https://dx.doi.org/10.20517/jmi.2023.19        Page 17 of 17

                   orthorhombic BaCu Se  compound. J Phys Chem C 2020;124:13627-38.  DOI
                                2
                                  2
               91.      Wen T, Ye B, Nguyen MC, Ma M, Chu Y. Thermophysical and mechanical properties of novel high-entropy metal nitride-carbides. J
                   Am Ceram Soc 2020;103:6475-89.  DOI
               92.      Watari K, Shinde SL. High thermal conductivity materials. MRS Bull 2001;26:440-4.  DOI
               93.      Aliakbari A, Amiri P. Structural, elastic, electronic, thermal, and phononic properties of yttrium carbide: first-principles calculations.
                   Mater Chem Phys 2021;270:124744.  DOI
               94.      Zhang P, Ye L, Chen F, Han W, Wu Y, Zhao T. Stability, mechanical, and thermodynamic behaviors of (TiZrHfTaM)C (M = Nb, Mo,
                   W, V, Cr) high-entropy carbide ceramics. J Alloy Compd 2022;903:163868.  DOI
               95.      Mankad VH, Jha PK. Thermodynamic properties of nuclear material uranium carbide using density functional theory. J Therm Anal
                   Calorim 2016;124:11-20.  DOI
               96.      Iikubo S, Ohtani H, Hasebe M. First-principles calculations of the specific heats of cubic carbides and nitrides. Mater Trans
                   2010;51:574-7.  DOI
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