Investigating Raman spectra and density functional theory calculations on SrAl2O4 polymorphs

SrAl2O4 is a long‐lasting material that combines several favorable attributes in comparison with their inorganic luminescent predecessor. In addition, it is an intriguing material combining a structural polymorphism with potential application such as in solar cells, biological labeling and imaging,...

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Published in	Journal of Raman spectroscopy Vol. 50; no. 1; pp. 91 - 101
Main Authors	Rojas‐Hernandez, Rocío Estefanía, More, Wilfredo, Rubio‐Marcos, Fernando, Fernandez, José Francisco
Format	Journal Article
Language	English
Published	Bognor Regis Wiley Subscription Services, Inc 01.01.2019
Subjects	Data processing Density functional theory long‐lasting molten salt Photovoltaic cells Polymorphism Qualitative analysis Raman spectra Raman spectroscopy Security Solar cells SrAl2O4
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Abstract	SrAl2O4 is a long‐lasting material that combines several favorable attributes in comparison with their inorganic luminescent predecessor. In addition, it is an intriguing material combining a structural polymorphism with potential application such as in solar cells, biological labeling and imaging, and security encode. Here, we unambiguously determinate the Raman spectra for hexagonal and monoclinic polymorphs. Specifically, the Raman mode assignment of phonon modes obtained experimentally is done for the first time by modeling these structures following the principle calculations within the framework of the density functional theory. Several functionals are evaluated, considering the agreement of the calculated modes with the experimental data. The optimized structure is obtained, first, on the basis of minimizing the total energy of the structure. The calculated vibrational modes show qualitative agreement with the experimental observation. This study offers a new insight to study the relationships between structural and optical behavior in this system, providing tools to design new technological applications. Joining experimental and theoretical work makes possible an in‐depth understanding on hexagonal and monoclinic SrAl2O4 polymorphs. The results shown are in agreement with simulations. Therefore, the coupling between the structure and the optical behavior offers a new insight in this system, providing tools to design new technological applications.
AbstractList	SrAl2O4 is a long‐lasting material that combines several favorable attributes in comparison with their inorganic luminescent predecessor. In addition, it is an intriguing material combining a structural polymorphism with potential application such as in solar cells, biological labeling and imaging, and security encode. Here, we unambiguously determinate the Raman spectra for hexagonal and monoclinic polymorphs. Specifically, the Raman mode assignment of phonon modes obtained experimentally is done for the first time by modeling these structures following the principle calculations within the framework of the density functional theory. Several functionals are evaluated, considering the agreement of the calculated modes with the experimental data. The optimized structure is obtained, first, on the basis of minimizing the total energy of the structure. The calculated vibrational modes show qualitative agreement with the experimental observation. This study offers a new insight to study the relationships between structural and optical behavior in this system, providing tools to design new technological applications. SrAl2O4 is a long‐lasting material that combines several favorable attributes in comparison with their inorganic luminescent predecessor. In addition, it is an intriguing material combining a structural polymorphism with potential application such as in solar cells, biological labeling and imaging, and security encode. Here, we unambiguously determinate the Raman spectra for hexagonal and monoclinic polymorphs. Specifically, the Raman mode assignment of phonon modes obtained experimentally is done for the first time by modeling these structures following the principle calculations within the framework of the density functional theory. Several functionals are evaluated, considering the agreement of the calculated modes with the experimental data. The optimized structure is obtained, first, on the basis of minimizing the total energy of the structure. The calculated vibrational modes show qualitative agreement with the experimental observation. This study offers a new insight to study the relationships between structural and optical behavior in this system, providing tools to design new technological applications. Joining experimental and theoretical work makes possible an in‐depth understanding on hexagonal and monoclinic SrAl2O4 polymorphs. The results shown are in agreement with simulations. Therefore, the coupling between the structure and the optical behavior offers a new insight in this system, providing tools to design new technological applications.
Author	More, Wilfredo Rubio‐Marcos, Fernando Rojas‐Hernandez, Rocío Estefanía Fernandez, José Francisco
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SubjectTerms	Data processing Density functional theory long‐lasting molten salt Photovoltaic cells Polymorphism Qualitative analysis Raman spectra Raman spectroscopy Security Solar cells SrAl2O4
Title	Investigating Raman spectra and density functional theory calculations on SrAl2O4 polymorphs
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