Structural and vibrational properties of CdAl2S4 under high pressure: Experimental and theoretical approach

Sans J.; Santamaria-Perez David; Popescu Catalin; Gomis Oscar; Manjon Francisco Javier; Vilaplana Rosario Isabel; Munoz Alfonso Gonzalez; Rodriguez-Hernandez Placida Rogelio; Ursachi Veaceslav; Tiginyanu Ion

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SANS, J., SANTAMARIA-PEREZ, David, POPESCU, Catalin, GOMIS, Oscar, MANJON, Francisco Javier, VILAPLANA, Rosario Isabel, MUNOZ, Alfonso Gonzalez, RODRIGUEZ-HERNANDEZ, Placida Rogelio, URSACHI, Veaceslav, TIGINYANU, Ion. Structural and vibrational properties of CdAl2S4 under high pressure: Experimental and theoretical approach. In: Journal of Physical Chemistry C, 2014, vol. 118, pp. 15363-15374. ISSN 1932-7447. DOI: https://doi.org/10.1021/jp5037926

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Journal of Physical Chemistry C

Volumul 118 / 2014 / ISSN 1932-7447 /ISSNe 1932-7455

Structural and vibrational properties of CdAl₂S₄ under high pressure: Experimental and theoretical approach

DOI:https://doi.org/10.1021/jp5037926

Pag. 15363-15374

Sans J.¹, Santamaria-Perez David²³, Popescu Catalin⁴, Gomis Oscar¹, Manjon Francisco Javier¹, Vilaplana Rosario Isabel¹, Munoz Alfonso Gonzalez⁵, Rodriguez-Hernandez Placida Rogelio⁵, Ursachi Veaceslav⁶, Tiginyanu Ion⁶

¹ Universitat Politècnica de València,
² Universitat de València,
³ University College London,
⁴ CELLS-ALBA Synchrotron Light Source,
⁵ Universidad de La Laguna,
⁶ Institute of the Electronic Engineering and Nanotechnologies "D. Ghitu" of the Academy of Sciences of Moldova

Disponibil în IBN: 19 decembrie 2017

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The behavior of defect chalcopyrite CdAl₂S₄ at high pressures and ambient temperature has been investigated in a joint experimental and theoretical study. High-pressure X-ray diffraction and Raman scattering measurements were complemented with theoretical ab initio calculations. The equation of state and pressure dependences of the structural parameters of CdAl₂S₄ were determined and compared to those of other AB₂X₄ ordered-vacancy compounds. The pressure dependence of the Raman-active mode frequencies is reported, as well as the theoretical phonon dispersion curves and phonon density of states at 1 atm. Our measurements suggest that defect chalcopyrite CdAl₂S₄ undergoes a phase transition above 15 GPa to a disordered-rocksalt structure, whose equation of state was also obtained up to 25 GPa. In a downstroke from 25 GPa to 1 atm, our measurements indicate that CdAl₂S₄ does not return to the defect chalcopyrite phase; it partially retains the disordered-rocksalt phase and partially transforms into the spinel structure. The nature of the spinel structure was confirmed by the good agreement of our experimental results with our theoretical calculations. All in all, our experimental and theoretical results provide evidence that the spinel and defect chalcopyrite phases of CdAl₂S₄ are competitive at 1 atm. This result opens the way to the synthesis of spinel-type CdAl₂S₄ at near-ambient conditions.

Cuvinte-cheie
ngineering controlled terms Equations of state, X ray diffraction Engineering uncontrolled terms Ab initio calculations, High-pressure x-ray diffractions, Phonon density of state, Phonon dispersion curves, Raman Scattering measurements, Structural parameter, Theoretical calculations, Vibrational properties Engineering main heading Defects

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<title xml:lang='en'>Structural and vibrational properties of CdAl2S4 under high pressure: Experimental and theoretical approach</title>
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<subject>ngineering controlled terms
Equations of state</subject>
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Engineering uncontrolled terms
Ab initio calculations</subject>
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<subject>Phonon density of state</subject>
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<subject>Raman Scattering measurements</subject>
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Engineering main heading
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<description xml:lang='en' descriptionType='Abstract'><p>The behavior of defect chalcopyrite CdAl<sub>2</sub>S<sub>4</sub> at high pressures and ambient temperature has been investigated in a joint experimental and theoretical study. High-pressure X-ray diffraction and Raman scattering measurements were complemented with theoretical ab initio calculations. The equation of state and pressure dependences of the structural parameters of CdAl<sub>2</sub>S<sub>4</sub> were determined and compared to those of other AB<sub>2</sub>X<sub>4</sub> ordered-vacancy compounds. The pressure dependence of the Raman-active mode frequencies is reported, as well as the theoretical phonon dispersion curves and phonon density of states at 1 atm. Our measurements suggest that defect chalcopyrite CdAl<sub>2</sub>S<sub>4</sub> undergoes a phase transition above 15 GPa to a disordered-rocksalt structure, whose equation of state was also obtained up to 25 GPa. In a downstroke from 25 GPa to 1 atm, our measurements indicate that CdAl<sub>2</sub>S<sub>4</sub> does not return to the defect chalcopyrite phase; it partially retains the disordered-rocksalt phase and partially transforms into the spinel structure. The nature of the spinel structure was confirmed by the good agreement of our experimental results with our theoretical calculations. All in all, our experimental and theoretical results provide evidence that the spinel and defect chalcopyrite phases of CdAl<sub>2</sub>S<sub>4</sub> are competitive at 1 atm. This result opens the way to the synthesis of spinel-type CdAl<sub>2</sub>S<sub>4</sub> at near-ambient conditions.&nbsp; &nbsp;</p><p>&nbsp;</p></description>
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