SixC1−xO2 alloys: A Possible Route to Stabilize carbon-based silica-like Solids?

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.

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Date

2007-11-01

Author

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.

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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

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LSP-Jurnal Ilmiah Dosen [7301]