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dc.contributor.authorBenayad, N.-
dc.contributor.authorKhenata, R.-
dc.contributor.authorLitimein, F.-
dc.contributor.authorReshak, Ali Hussin-
dc.contributor.authorRabah, M.-
dc.contributor.authorBaltache, H.-
dc.date.accessioned2011-06-20T08:24:09Z-
dc.date.available2011-06-20T08:24:09Z-
dc.date.issued2011-04-20-
dc.identifier.citationModern Physics Letters B, vol. 25(10), pages 747-761en_US
dc.identifier.issn0217-9849-
dc.identifier.urihttp://www.worldscinet.com/mplb/25/2510/S021798491102605X.html-
dc.identifier.urihttp://dspace.unimap.edu.my/123456789/12367-
dc.descriptionLink to publisher's homepage at http://www.worldscinet.com/en_US
dc.description.abstractThe structural, elastic and electronic properties of Ti2InC and Ti2InN compounds have been calculated using the full-potential linear muffin-tin orbital (FP-LMTO) method. The exchange and correlation potential is treated by the local density approximation (LDA). The calculated ground state properties, including, lattice constants, internal parameters, bulk modulus and the pressure derivative of the bulk modulus are in reasonable agreement with the available data. The effect of pressure, up to 40 GPa, on the lattice constants and the internal parameters is also investigated. Using the total energy-strain technique, we have determined the elastic constants Cij, which have not been measured yet. The band structure and the density of states (DOS) show that both materials have a metallic character and Ti2InN is more conducting than Ti2InC. The analysis of the site and momentum projected densities shows that the bonding is achieved through a hybridization of Ti-atom d states with C (N)-atom p states. Otherwise, it has been shown that Ti–C and Ti–N bonds are stronger than Ti–In bonds.en_US
dc.language.isoenen_US
dc.publisherWorld Scientific Publishing Companyen_US
dc.subjectMAX phasesen_US
dc.subjectFull-potential linear muffin-tin orbital (FP-LMTO)en_US
dc.subjectElastic constantsen_US
dc.subjectPressure effectsen_US
dc.subjectElectronic propertiesen_US
dc.titleFirst principles study of the structural, elastic and electronic properties of Ti2InC and Ti2InNen_US
dc.typeArticleen_US
Appears in Collections:School of Microelectronic Engineering (Articles)

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