Synthesis and luminescence of SrZnO2 phosphors

Taikar, D.R.; Joshi, C. P.; Moharil, S. V.; Muthal, P. L.; Dhopte, S.M.

doi:10.1016/j.jlumin.2010.03.033

Cited by 19 publications

(8 citation statements)

References 17 publications

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“…Like Tb 3 + , the intense UV‐excited luminescence of Pr 3 + can be observed only if the f–d excitation band is located in this region or if there is energy transfer from the host that absorbs in the UV region to one of the levels of the 4f 2 configuration of Pr 3 + . Pr 3 + emission strongly depends on the position of the f–d excitation band.…”

Section: Resultsmentioning

confidence: 99%

Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors

Taikar¹,

Joshi²,

Moharil

2016

Luminescence

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Modified synthesis and luminescence of Y BaZnO phosphors activated with the rare earths (RE) Eu , Tb , Pr and Sm are reported. RE BaZnO phosphors have attracted attention because of their interesting magnetic and optical properties; and are usually prepared using a two-step solid-state reaction. In the first step, carbonates or similar precursors are thoroughly mixed and heated at 900°C to decompose them to oxides. To eliminate the unwanted phases like BaRE O , the resulting powders are reheated at 1100°C for a long time. We prepared Y BaZnO phosphors activated with various activators by replacing the first step with combustion synthesis. The photoluminescence results are presented. The photoluminescence results for Eu , Tb and Pr are in good agreement with the literature. However, photoluminescence emission from Sm has not been documented previously. The excitation spectrum of Eu is dominated by a charge transfer band around 261 nm, and an additional band around 238 nm is always present, irrespective of the type of activator. The presence of this band for all these different types of activators was interpreted as host absorption.

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Section: Resultsmentioning

confidence: 99%

Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors

Taikar¹,

Joshi²,

Moharil

2016

Luminescence

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“…[29], LaGaO 3 [30], SrS [31], SrZnO 2 [32], LaInO 3 [33], LaAlO 3 [33] and CaZrO 3 [33] with the intention of studying the effect of crystal structure on the photoluminescence of Bi 3 þ . In these inorganic hosts, although the absorption band of Bi 3 þ ions is in ultraviolet-blue spectral region, the emission band of Bi 3 þ ions is usually observed in 350-550 nm range.…”

Section: Photoluminescence Properties Of LI 4 Srca(sio 4 ) 2 : Bi 3 þmentioning

confidence: 99%

Synthesis and photoluminescence properties of Li4SrCa(SiO4)2: M (M: Pb2+ and Bi3+)

Pekgözlü

Erdoğmuş

Yılmaz

2015

Journal of Luminescence

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“…The position of valence band and conduction band of ZnO in ZnO/SrO heterojunction is between and above the valance band and conduction band of SrO respectively. This could help in improving the photo catalytic performance of these nanocomposites by hinder charge recombination to overcome with the problems like high energy and long reaction period as required by the methods [5] mentioned above Herein, in this work we proposed a novel sonochemical synthesis of rod shaped SrZnO 2 nanocomposites in a 180 min. The as synthesized SrZnO 2 nanocomposites were characterized with different instrumental techniques to establish its crystal structure and surface properties.…”

Section: Introductionmentioning

confidence: 99%

One step sonochemical synthesis of single phase Sr-doped ZnO2 nanorods

et al. 2021

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Single phase SrZnO2 nanorods with average size of around 100 nm are synthesized by probe sonicator using ultrasonic waves at 60 W, 6 kHz for 3 h to observe the changes in optoelectronic properties of ZnO. The as grown SrZnO2 has a single phase rod shaped structure. These nanorods were broadly characterized by different instrumental techniques like TEM, FESEM, EDAX, XRD, UV–Visible and FTIR for analysis of size, crystal structure, morphology and composition which acknowledge the formation of single phase crystalline ZnO and slightly amorphous SrZnO2 nanorods. All these results suggest that single phase SrZnO2 nano-composites can easily be synthesized by one step sono-chemical method. Graphic abstract

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Synthesis and luminescence of SrZnO2 phosphors

Cited by 19 publications

References 17 publications

Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors

Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors

Synthesis and photoluminescence properties of Li4SrCa(SiO4)2: M (M: Pb2+ and Bi3+)

One step sonochemical synthesis of single phase Sr-doped ZnO2 nanorods

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Synthesis and luminescence of SrZnO2 phosphors

Cited by 19 publications

References 17 publications

Synthesis and luminescence characterization of Y2BaZnO5:RE (RE = Eu3+, Tb3+, Pr3+ and Sm3+) phosphors

Synthesis and luminescence characterization of Y2BaZnO5:RE (RE = Eu3+, Tb3+, Pr3+ and Sm3+) phosphors

Synthesis and photoluminescence properties of Li4SrCa(SiO4)2: M (M: Pb2+ and Bi3+)

One step sonochemical synthesis of single phase Sr-doped ZnO2 nanorods

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Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors

Synthesis and luminescence characterization of Y₂BaZnO₅:RE (RE = Eu³⁺, Tb³⁺, Pr³⁺ and Sm³⁺) phosphors