Please use this identifier to cite or link to this item: https://repository.unej.ac.id/xmlui/handle/123456789/116103
Title: SixC1−xO2 alloys: A Possible Route to Stabilize carbon-based silica-like Solids?
Authors: ARAVINDH, Assa
ARKUNDATO, Artoto
BARMAN, Sonali
BARONI, Stefano
BHARGAVA, B.L.
CANDRAKUMAR, K.R.S.
CHEN, Wei
CHERIAN, Roby
CORSO, Andrea Dal
TDATTA, Soumendu
GIRONCOLI, Stefano de
DHAYAL, Suman S.
DIXIT, Alok Kumar
DUTTA, Sudipta
D'YACHKOV, Pavel
FLOARE, Calin Gabriel
GANGULI, Nirmal
GANGULY, Shreemoyee
GEBAUER, Ralph
GHOSH, Saurabh
GIANNOZI, Paolo
GOVIND, Govind
HATT, Alison J.
HEMBRAM, K.P.S.S.
IMAM, Mighfar
JAYALAKSHMI, V.
JAYANTHI, C.S.
KELKAR, Tuhina
KUMAR, Anil
LEE, Jun Hee
LEE, Mal-Soon
LONAPPAN, Dayana
MAHADEVAN, Priya
MALLAJOSYULA, Sairam Swaroop
MARATHE, Madhura
MARZARI, Nicola
MELOT, Brent
MILLEER, Nicholas
MORRONE, Joseph
NANVATI, Sachin
NANAYAKKARA, Asiri
NANDI, Prithwish Kumar
NARASIMHAN, Shobhana
NATARAJAN, Bhaarati
PARHIN, Fahmida
PAUL, Sujata
PRADHAN, Kalpataru
PRAVEENA, G.
PRASAD, Dasari L.V.K.
POSWAL, Himanshu K.
PUJARI, Bhalchandra
PUSPHA, Raghani
REDDY, K. Hari Krishna
SAHA, Srijan Kumar
SBRACCIA, Carlo
SCANDOLO, Sandro
SEAL, Prasenjit
SHAFAI, Ghazal S.
SHANAVAS, K.V.
SIMRALL, James O.H.
SRIRANGARAJAN, Aarti
SRIVASTAVA, Vipul
TALATIO, Mina K.
TANGTIRUNGROTECHAI, Yuthana
TARAFDER, Kartick
THOMAS, Tiju
UTHAYATHASAN, T.
Keywords: A. SILICA
A. CARBONIA
C. CRYSTAL STRUCTURE AND SYMMETRY
D. PHASE STABILITY
Issue Date: 1-Nov-2007
Publisher: Solid State Communication
Abstract: Novel extended tetrahedral forms of CO2 have been synthesized recently under high-pressure conditions. We perform ab initio density functional theory calculations to investigate whether doping with Si can extend the stability range of such tetrahedral forms of CO2 to ambient pressure. Calculations are performed with a simple cubic cell containing eight formula units in a β-cristobalite-like structure. Though we find that all the SixC1−xO2 structures considered by us are thermodynamically unstable with respect to decomposition into the end members at ambient pressures, the energy differences are small, suggesting that it might be possible for such phases to exist in metastable forms. At higher pressures, the heat of formation is found to be negative. The bonding between C and O atoms is more covalent than that between Si and O atoms. We also find indications that some C atoms may prefer three-fold coordination at low pressure.
URI: https://repository.unej.ac.id/xmlui/handle/123456789/116103
Appears in Collections:LSP-Jurnal Ilmiah Dosen

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