Computational investigation into the phase transitions from AlPO4-H3

Jiyang Li; Jihong Yu; Ruren Xu

doi:10.1360/01yb0167

Computational investigation into the phase transitions from AlPO₄-H₃

Jiyang Li, Jihong Yu, Ruren Xu^*

^*Corresponding author for this work

Jilin University

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

Abstract

Molecular dynamics simulation approach has been used to investigate the phase transitions from aluminophosphate AlPO₄-H₃. Derived from AlPO₄-H₃, several hypothetical models of its high-temperature phases are designed through removing the bridged water molecules and changing the up-down connected sequences of T-sites in the 4-membered rings. Full geometry optimizations is performed to obtain structural parameters for the models that are compared to the reported data, and their structure features and thermodynamic stabilities have been discussed. The simulation study suggests that AlPO₄-H₃ is energetically favored to transform to AlPO₄-C, and then to AlPO₄-D as well as to other novel hypothetical 3D open-frameworks.

Original language	English
Pages (from-to)	417-424
Number of pages	8
Journal	Science in China, Series B: Chemistry
Volume	46
Issue number	5
DOIs	https://doi.org/10.1360/01yb0167
Publication status	Published - Oct 2003
Externally published	Yes

Keywords

Aluminophosphates
Computational simulation
Molecular dynamics
Open-framework
Phase transition

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10.1360/01yb0167

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title = "Computational investigation into the phase transitions from AlPO4-H3",

abstract = "Molecular dynamics simulation approach has been used to investigate the phase transitions from aluminophosphate AlPO4-H3. Derived from AlPO4-H3, several hypothetical models of its high-temperature phases are designed through removing the bridged water molecules and changing the up-down connected sequences of T-sites in the 4-membered rings. Full geometry optimizations is performed to obtain structural parameters for the models that are compared to the reported data, and their structure features and thermodynamic stabilities have been discussed. The simulation study suggests that AlPO4-H3 is energetically favored to transform to AlPO4-C, and then to AlPO4-D as well as to other novel hypothetical 3D open-frameworks.",

keywords = "Aluminophosphates, Computational simulation, Molecular dynamics, Open-framework, Phase transition",

author = "Jiyang Li and Jihong Yu and Ruren Xu",

year = "2003",

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N2 - Molecular dynamics simulation approach has been used to investigate the phase transitions from aluminophosphate AlPO4-H3. Derived from AlPO4-H3, several hypothetical models of its high-temperature phases are designed through removing the bridged water molecules and changing the up-down connected sequences of T-sites in the 4-membered rings. Full geometry optimizations is performed to obtain structural parameters for the models that are compared to the reported data, and their structure features and thermodynamic stabilities have been discussed. The simulation study suggests that AlPO4-H3 is energetically favored to transform to AlPO4-C, and then to AlPO4-D as well as to other novel hypothetical 3D open-frameworks.

AB - Molecular dynamics simulation approach has been used to investigate the phase transitions from aluminophosphate AlPO4-H3. Derived from AlPO4-H3, several hypothetical models of its high-temperature phases are designed through removing the bridged water molecules and changing the up-down connected sequences of T-sites in the 4-membered rings. Full geometry optimizations is performed to obtain structural parameters for the models that are compared to the reported data, and their structure features and thermodynamic stabilities have been discussed. The simulation study suggests that AlPO4-H3 is energetically favored to transform to AlPO4-C, and then to AlPO4-D as well as to other novel hypothetical 3D open-frameworks.

KW - Aluminophosphates

KW - Computational simulation

KW - Molecular dynamics

KW - Open-framework

KW - Phase transition

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JO - Science in China, Series B: Chemistry

JF - Science in China, Series B: Chemistry

IS - 5

ER -

Computational investigation into the phase transitions from AlPO₄-H₃

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Keywords

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