Enthalpy of formation of CaSi2O5, a quenched high-pressure phase with pentacoordinate silicon

M. Schoenitz; A. Navrotsky; N. Ross

doi:10.1007/s002690000131

Enthalpy of formation of CaSi₂O₅, a quenched high-pressure phase with pentacoordinate silicon

M. Schoenitz, A. Navrotsky, N. Ross

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

The monoclinic titanite-like high-pressure form of calcium disilicate has been synthesized and quenched to ambient conditions to form the triclinic low-pressure phase containing silicon in four-, five- and sixfold coordination. The enthalpy of formation of the quench product has been measured by high-temperature oxide melt calorimetry. The value obtained from samples from a series of several synthesis experiments is △H_f = (-26.32 ± 4.27) kJ mol^-1 for the formation from the component oxides, or △H_f = (-2482.81 ± 4.59) kJ mol^-1 for the formation from the elements. The result is identical within experimental error to available estimates, although the previously predicted energy difference between the monoclinic and triclinic phases could not be verified.

Original language	English (US)
Pages (from-to)	57-60
Number of pages	4
Journal	Physics and Chemistry of Minerals
Volume	28
Issue number	1
DOIs	https://doi.org/10.1007/s002690000131
State	Published - 2001
Externally published	Yes

Keywords

Calcium disilicate
Fivefold coordination
Oxide melt calorimetry
Pentacoordinate silicon
Phase transition

ASJC Scopus subject areas

General Materials Science
Geochemistry and Petrology

Access to Document

10.1007/s002690000131

Cite this

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title = "Enthalpy of formation of CaSi2O5, a quenched high-pressure phase with pentacoordinate silicon",

abstract = "The monoclinic titanite-like high-pressure form of calcium disilicate has been synthesized and quenched to ambient conditions to form the triclinic low-pressure phase containing silicon in four-, five- and sixfold coordination. The enthalpy of formation of the quench product has been measured by high-temperature oxide melt calorimetry. The value obtained from samples from a series of several synthesis experiments is △Hf = (-26.32 ± 4.27) kJ mol-1 for the formation from the component oxides, or △Hf = (-2482.81 ± 4.59) kJ mol-1 for the formation from the elements. The result is identical within experimental error to available estimates, although the previously predicted energy difference between the monoclinic and triclinic phases could not be verified.",

keywords = "Calcium disilicate, Fivefold coordination, Oxide melt calorimetry, Pentacoordinate silicon, Phase transition",

author = "M. Schoenitz and A. Navrotsky and N. Ross",

year = "2001",

doi = "10.1007/s002690000131",

language = "English (US)",

volume = "28",

pages = "57--60",

journal = "Physics and Chemistry of Minerals",

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publisher = "Springer Verlag",

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TY - JOUR

T1 - Enthalpy of formation of CaSi2O5, a quenched high-pressure phase with pentacoordinate silicon

AU - Schoenitz, M.

AU - Navrotsky, A.

AU - Ross, N.

PY - 2001

Y1 - 2001

N2 - The monoclinic titanite-like high-pressure form of calcium disilicate has been synthesized and quenched to ambient conditions to form the triclinic low-pressure phase containing silicon in four-, five- and sixfold coordination. The enthalpy of formation of the quench product has been measured by high-temperature oxide melt calorimetry. The value obtained from samples from a series of several synthesis experiments is △Hf = (-26.32 ± 4.27) kJ mol-1 for the formation from the component oxides, or △Hf = (-2482.81 ± 4.59) kJ mol-1 for the formation from the elements. The result is identical within experimental error to available estimates, although the previously predicted energy difference between the monoclinic and triclinic phases could not be verified.

AB - The monoclinic titanite-like high-pressure form of calcium disilicate has been synthesized and quenched to ambient conditions to form the triclinic low-pressure phase containing silicon in four-, five- and sixfold coordination. The enthalpy of formation of the quench product has been measured by high-temperature oxide melt calorimetry. The value obtained from samples from a series of several synthesis experiments is △Hf = (-26.32 ± 4.27) kJ mol-1 for the formation from the component oxides, or △Hf = (-2482.81 ± 4.59) kJ mol-1 for the formation from the elements. The result is identical within experimental error to available estimates, although the previously predicted energy difference between the monoclinic and triclinic phases could not be verified.

KW - Calcium disilicate

KW - Fivefold coordination

KW - Oxide melt calorimetry

KW - Pentacoordinate silicon

KW - Phase transition

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