Novel synthesis of SrSe by reduction of selenium into rongalite solutions

O. Arellano-Tánori; A. Rojas-Hernández; R. Gómez-Fuentes; R. Ochoa-Landin; D. Berman-Mendoza; T. Mendivil-Reynoso; L. P. Ramírez-Rodríguez; S. J. Castillo

Novel synthesis of SrSe by reduction of selenium into rongalite solutions

O. Arellano-Tánori, A. Rojas-Hernández^*, R. Gómez-Fuentes, R. Ochoa-Landin, D. Berman-Mendoza, T. Mendivil-Reynoso, L. P. Ramírez-Rodríguez, S. J. Castillo

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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Resumen

In this work a new methodology to synthesize strontium selenide on the base of reduction of selenium is presented. The selenium comes from oxidation stage 0 to -2, afterward it is mixed with a strontium salt, strontium chloride. In this process a fast substitution of chemical reaction is realized. In order to make the optical characterization, the adsorption in the UV-visible range was measured leading to compute direct and indirect band gap energies. The obtained strontium selenide is a black powder dispersed in aqueous solution, the obtained Band gap values were 5.19 and 4.53 eV for direct and indirect respectively. From the Raman spectrum was identified three peaks: at 114 and 234 cm^-1corresponding to strontium selenide, and 456 cm^-1corresponding to strontium oxide. The infrared response shows Sr²⁺at 524 cm^-1, strontium oxide at 615 cm^-1plus O-H vibration and bending vibration H-O-H. Finally from transmission electron microscopy a crystalline structure was found.

Idioma original	Inglés
Páginas (desde-hasta)	55-59
Número de páginas	5
Publicación	Journal of Ovonic Research
Volumen	10
N.º	2
Estado	Publicada - 2014

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title = "Novel synthesis of SrSe by reduction of selenium into rongalite solutions",

abstract = "In this work a new methodology to synthesize strontium selenide on the base of reduction of selenium is presented. The selenium comes from oxidation stage 0 to -2, afterward it is mixed with a strontium salt, strontium chloride. In this process a fast substitution of chemical reaction is realized. In order to make the optical characterization, the adsorption in the UV-visible range was measured leading to compute direct and indirect band gap energies. The obtained strontium selenide is a black powder dispersed in aqueous solution, the obtained Band gap values were 5.19 and 4.53 eV for direct and indirect respectively. From the Raman spectrum was identified three peaks: at 114 and 234 cm-1corresponding to strontium selenide, and 456 cm-1corresponding to strontium oxide. The infrared response shows Sr2+at 524 cm-1, strontium oxide at 615 cm-1plus O-H vibration and bending vibration H-O-H. Finally from transmission electron microscopy a crystalline structure was found.",

author = "O. Arellano-T{\'a}nori and A. Rojas-Hern{\'a}ndez and R. G{\'o}mez-Fuentes and R. Ochoa-Landin and D. Berman-Mendoza and T. Mendivil-Reynoso and Ram{\'i}rez-Rodr{\'i}guez, {L. P.} and Castillo, {S. J.}",

year = "2014",

language = "Ingl{\'e}s",

volume = "10",

pages = "55--59",

journal = "Journal of Ovonic Research",

issn = "1842-2403",

publisher = "S.C. Virtual Company of Physics S.R.L",

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TY - JOUR

T1 - Novel synthesis of SrSe by reduction of selenium into rongalite solutions

AU - Arellano-Tánori, O.

AU - Rojas-Hernández, A.

AU - Gómez-Fuentes, R.

AU - Ochoa-Landin, R.

AU - Berman-Mendoza, D.

AU - Mendivil-Reynoso, T.

AU - Ramírez-Rodríguez, L. P.

AU - Castillo, S. J.

PY - 2014

Y1 - 2014

N2 - In this work a new methodology to synthesize strontium selenide on the base of reduction of selenium is presented. The selenium comes from oxidation stage 0 to -2, afterward it is mixed with a strontium salt, strontium chloride. In this process a fast substitution of chemical reaction is realized. In order to make the optical characterization, the adsorption in the UV-visible range was measured leading to compute direct and indirect band gap energies. The obtained strontium selenide is a black powder dispersed in aqueous solution, the obtained Band gap values were 5.19 and 4.53 eV for direct and indirect respectively. From the Raman spectrum was identified three peaks: at 114 and 234 cm-1corresponding to strontium selenide, and 456 cm-1corresponding to strontium oxide. The infrared response shows Sr2+at 524 cm-1, strontium oxide at 615 cm-1plus O-H vibration and bending vibration H-O-H. Finally from transmission electron microscopy a crystalline structure was found.

AB - In this work a new methodology to synthesize strontium selenide on the base of reduction of selenium is presented. The selenium comes from oxidation stage 0 to -2, afterward it is mixed with a strontium salt, strontium chloride. In this process a fast substitution of chemical reaction is realized. In order to make the optical characterization, the adsorption in the UV-visible range was measured leading to compute direct and indirect band gap energies. The obtained strontium selenide is a black powder dispersed in aqueous solution, the obtained Band gap values were 5.19 and 4.53 eV for direct and indirect respectively. From the Raman spectrum was identified three peaks: at 114 and 234 cm-1corresponding to strontium selenide, and 456 cm-1corresponding to strontium oxide. The infrared response shows Sr2+at 524 cm-1, strontium oxide at 615 cm-1plus O-H vibration and bending vibration H-O-H. Finally from transmission electron microscopy a crystalline structure was found.

UR - http://www.scopus.com/inward/record.url?scp=84901850276&partnerID=8YFLogxK

M3 - Artículo

SN - 1842-2403

VL - 10

SP - 55

EP - 59

JO - Journal of Ovonic Research

JF - Journal of Ovonic Research

IS - 2

ER -

Novel synthesis of SrSe by reduction of selenium into rongalite solutions

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