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Literature DB >> 21518903

Silicon carbonate phase formed from carbon dioxide and silica under pressure.

Mario Santoro¹, Federico Gorelli, Julien Haines, Olivier Cambon, Claire Levelut, Gaston Garbarino.

Abstract

The discovery of nonmolecular carbon dioxide under high-pressure conditions shows that there are remarkable analogies between this important substance and other group IV oxides. A natural and long-standing question is whether compounds between CO(2) and SiO(2) are possible. Under ambient conditions, CO(2) and SiO(2) are thermodynamically stable and do not react with each other. We show that reactions occur at high pressures indicating that silica can behave in a manner similar to ionic metal oxides that form carbonates at room pressure. A silicon carbonate phase was synthesized by reacting silicalite, a microporous SiO(2) zeolite, and molecular CO(2) that fills the pores, in diamond anvil cells at 18-26 GPa and 600-980 K; the compound was then temperature quenched. The material was characterized by Raman and IR spectroscopy, and synchrotron X-ray diffraction. The experiments reveal unique oxide chemistry at high pressures and the potential for synthesis of a class of previously uncharacterized materials. There are also potential implications for CO(2) segregation in planetary interiors and for CO(2) storage.

Entities: Chemical

Year: 2011 PMID： 21518903 PMCID： PMC3093504 DOI： 10.1073/pnas.1019691108

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

13 in total

1. New transformations of CO(2) at high pressures and temperatures.

Authors: O Tschauner; H K Mao ; R J Hemley
Journal: Phys Rev Lett Date: 2001-07-31 Impact factor: 9.161

2. Pressure-induced solid carbonates from molecular CO2 by computer simulation

Authors:
Journal: Science Date: 1999-04-30 Impact factor: 47.728

3. Topologically ordered amorphous silica obtained from the collapsed siliceous zeolite, silicalite-1-F: a step toward "perfect" glasses.

Authors: Julien Haines; Claire Levelut; Aude Isambert; Philippe Hébert; Shinji Kohara; David A Keen; Tahar Hammouda; Denis Andrault
Journal: J Am Chem Soc Date: 2009-09-02 Impact factor: 15.419

4. Theoretical investigation of high pressure phases of carbon dioxide

Authors:
Journal: Phys Rev Lett Date: 2000-08-07 Impact factor: 9.161

5. Amorphous silica-like carbon dioxide.

Authors: Mario Santoro; Federico A Gorelli; Roberto Bini; Giancarlo Ruocco; Sandro Scandolo; Wilson A Crichton
Journal: Nature Date: 2006-06-15 Impact factor: 49.962

6. Deactivation of pressure-induced amorphization in silicalite SiO2 by insertion of guest species.

Authors: Julien Haines; Olivier Cambon; Claire Levelut; Mario Santoro; Federico Gorelli; Gaston Garbarino
Journal: J Am Chem Soc Date: 2010-07-07 Impact factor: 15.419

7. Linear carbon dioxide in the high-pressure high-temperature crystalline phase IV.

Authors: Federico A Gorelli; Valentina M Giordano; Pier R Salvi; Roberto Bini
Journal: Phys Rev Lett Date: 2004-11-11 Impact factor: 9.161

8. High pressure solid state chemistry of carbon dioxide.

Authors: M Santoro; F A Gorelli
Journal: Chem Soc Rev Date: 2006-07-31 Impact factor: 54.564

9. In situ high P-T Raman spectroscopy and laser heating of carbon dioxide.

Authors: Mario Santoro; Jung-fu Lin; Ho-kwang Mao; Russell J Hemley
Journal: J Chem Phys Date: 2004-08-08 Impact factor: 3.488

10. Mixed threefold and fourfold carbon coordination in compressed CO2.

Authors: Javier A Montoya; Roger Rousseau; Mario Santoro; Federico Gorelli; Sandro Scandolo
Journal: Phys Rev Lett Date: 2008-04-23 Impact factor: 9.161

10 in total

1. Polymeric phase V of carbon dioxide has not been recovered at ambient pressure and has a unique structure.

Authors: Frédéric Datchi; Mathieu Moog; Fabio Pietrucci; A Marco Saitta
Journal: Proc Natl Acad Sci U S A Date: 2017-01-17 Impact factor: 11.205

2. High-pressure synthesis of a polyethylene/zeolite nano-composite material.

Authors: Mario Santoro; Federico A Gorelli; Roberto Bini; Julien Haines; Arie van der Lee
Journal: Nat Commun Date: 2013 Impact factor: 14.919

3. Carbon substitution for oxygen in silicates in planetary interiors.

Authors: Sabyasachi Sen; Scarlett J Widgeon; Alexandra Navrotsky; Gabriela Mera; Amir Tavakoli; Emanuel Ionescu; Ralf Riedel
Journal: Proc Natl Acad Sci U S A Date: 2013-09-16 Impact factor: 11.205

4. Stability of dense liquid carbon dioxide.

Authors: Brian Boates; Amanuel M Teweldeberhan; Stanimir A Bonev
Journal: Proc Natl Acad Sci U S A Date: 2012-08-20 Impact factor: 11.205

5. Correspondence: Strongly-driven Re+CO₂ redox reaction at high-pressure and high-temperature.

Authors: D Santamaria-Perez; C McGuire; A Makhluf; A Kavner; R Chuliá-Jordan; J L Jorda; F Rey; J Pellicer-Porres; D Martinez-García; P Rodriguez-Hernández; A Muñoz
Journal: Nat Commun Date: 2016-11-29 Impact factor: 14.919

6. Carbon enters silica forming a cristobalite-type CO2-SiO2 solid solution.

Authors: Mario Santoro; Federico A Gorelli; Roberto Bini; Ashkan Salamat; Gaston Garbarino; Claire Levelut; Olivier Cambon; Julien Haines
Journal: Nat Commun Date: 2014-04-30 Impact factor: 14.919

7. Microporosity and CO₂ Capture Properties of Amorphous Silicon Oxynitride Derived from Novel Polyalkoxysilsesquiazanes.

Authors: Yoshiaki Iwase; Yoji Horie; Sawao Honda; Yusuke Daiko; Yuji Iwamoto
Journal: Materials (Basel) Date: 2018-03-13 Impact factor: 3.623