C.K. Shilpa scite author profile

Perovskites have attracted growing interest in recent era due to their unique properties and potential applications. Barium cerate (BC) proton-conducting perovskites have been examined over decades for various applications such as hydrogen sensors, fuel cells, proton separation membranes, etc. when compared with oxide ion conductors under the same circumstances, ceramic proton conducting barium cerate can diminish the working temperature of solid oxide fuel cells to an intermediate temperature range, 673 – 873 K because of their higher ionic conduction. The present review carefully analyses and summarizes different synthesis approaches with optimization conditions to prepare BC-derived perovskites and the reported data have been carefully analyzed. A range of synthesis methods such as solid-state reaction method and wet chemical processes like coprecipitation, combustion, pechini method, etc., have been systematically investigated. Even though the solid-state method has considerable disadvantages, most researchers avoid its incompetence due to the easiness of processing. Applications of the material have been briefly deliberated to exemplify its technological importance. The present review concluded with the recent signs of progress and innovative techniques employed to overcome the processing complications in these materials.

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Assessing the improved luminescence of SrCe1-xSmxO3 perovskite by concentration controlled extra oxidizer substitution

Shilpa

Jasira

Veena

et al. 2023

Materials Today: Proceedings

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Modern era of double perovskite nano-phosphors: La₂MgTiO₆, Gd₂MgTiO₆ and Y₂MgTiO₆ – a brief review

Veena

Shilpa

Jasira

et al. 2022

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Double perovskites, as a star material, are becoming a significant research domain due to their flexible structure, variable formulae, unique properties and wide applications. Trimming the materials into nano regime and introducing rare-earth integration would improve their properties and broaden their applications. The main purpose of this work lies in the comparison of luminescence properties of double perovskite nanophosphors La2MgTiO6 (LMT), Gd2MgTiO6 (GMT) and Y2MgTiO6 (YMT). A detailed list of numerous excitation and corresponding emission wave lengths are discussed. Various synthesis methods adopted for the fusion of these materials, which are reported till this date, are also considered. This study shall assist the scientific community to identify the suitable host for luminescent applications in the field of lighting, displays, illumination, biological imaging, biological sensing etc.

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Adroit low-temperature synthesis and origin of blue–yellow–red emission in activated La2-xDyxMgTiO6 novel perovskite phosphor for WLED

Veena

Shilpa

Jasira

et al. 2023

J Mater Sci: Mater Electron

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C.K. Shilpa

Unprecedented investigation on luminescence property of proton conductive samarium incorporated barium cerate nanoparticles

Barium cerate and its composite perovskites – synthesis techniques: a comprehensive review

Assessing the improved luminescence of SrCe1-xSmxO3 perovskite by concentration controlled extra oxidizer substitution

Modern era of double perovskite nano-phosphors: La₂MgTiO₆, Gd₂MgTiO₆ and Y₂MgTiO₆ – a brief review

Adroit low-temperature synthesis and origin of blue–yellow–red emission in activated La2-xDyxMgTiO6 novel perovskite phosphor for WLED

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C.K. Shilpa

Unprecedented investigation on luminescence property of proton conductive samarium incorporated barium cerate nanoparticles

Barium cerate and its composite perovskites – synthesis techniques: a comprehensive review

Assessing the improved luminescence of SrCe1-xSmxO3 perovskite by concentration controlled extra oxidizer substitution

Modern era of double perovskite nano-phosphors: La2MgTiO6, Gd2MgTiO6 and Y2MgTiO6 – a brief review

Adroit low-temperature synthesis and origin of blue–yellow–red emission in activated La2-xDyxMgTiO6 novel perovskite phosphor for WLED

Contact Info

Product

Resources

About

Modern era of double perovskite nano-phosphors: La₂MgTiO₆, Gd₂MgTiO₆ and Y₂MgTiO₆ – a brief review