Perovskite synthesis, properties and their related biochemical and industrial application

Assirey, Eman

doi:10.1016/j.jsps.2019.05.003

Cited by 283 publications

(122 citation statements)

References 122 publications

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“…chemistry methods are characterized by their simplicity, reduced sintering time, mass production, high level of repeatability, lower temperature (than solid-state reaction), better flexibility in thin film-forming superior homogeneity, improved control of stoichiometry, purity, particle size, and a low industrialization implementation cost (Assirey, 2019). One of the challenges faced in the development of perovskite catalyst is obtaining the right structure and maintaining high surface area because of high calcination temperature employed sometimes during synthesis (Akinlolu et al, 2019).…”

Section: General Synthesis Methods For Perovskitesmentioning

confidence: 99%

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Nkwachukwu

Arotiba

2021

Front. Chem.

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Meeting the global challenge of water availability necessitates diversification from traditional water treatment methods to other complementary methods, such as photocatalysis and photoelectrocatalysis (PEC), for a more robust solution. Materials play very important roles in the development of these newer methods. Thus, the quest and applications of a myriad of materials are ongoing areas of water research. Perovskite and perovskite-related materials, which have been largely explored in the energy sectors, are potential materials in water treatment technologies. In this review, attention is paid to the recent progress in the application of perovskite materials in photocatalytic and photoelectrocatalytic degradation of organic pollutants in water. Water treatment applications of lanthanum, ferrite, titanate, and tantalum (and others)-based perovskites are discussed. The chemical nature and different synthetic routes of perovskites or perovskite composites are presented as fundamental to applications.

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Section: General Synthesis Methods For Perovskitesmentioning

confidence: 99%

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Nkwachukwu

Arotiba

2021

Front. Chem.

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“…Afterward, the product is ground and sieved in order to collect solid particles with similar sizes and further calcined for longer time (5-15 h) at higher temperature (1300-1600 • C). The final product is again ground and sieved to collect the granular fraction having the appropriate size for its further utilisation [40][41][42].…”

Section: Solid State Reactionsmentioning

confidence: 99%

Complex Catalytic Materials Based on the Perovskite-Type Structure for Energy and Environmental Applications

2020

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This review paper focuses on perovskite-type materials as (photo)catalysts for energy and environmental applications. After a short introduction and the description of the structure of inorganic and hybrid organic-inorganic perovskites, the methods of preparation of inorganic perovskites both as powders via chemical routes and as thin films via laser-based techniques are tackled with, for the first, an analysis of the influence of the preparation method on the specific surface area of the material obtained. Then, the (photo)catalytic applications of the perovskites in energy production either in the form of hydrogen via water photodecomposition or by methane combustion, and in the removal of organic pollutants from waste waters, are reviewed.

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“…Non-centric perovskites display piezoelectricity or ferroelectricity, and synthetic perovskites used as electronic sensors. The structure of the newly discovered hightemperature superconductor shows resemblance with perovskite structure [13].…”

Section: Introductionmentioning

confidence: 98%

Photoluminescence of Eu(III) Doped Double Perovskite Phosphor for Red LED Application

Verma

Patel

Murthy

et al. 2021

Preprint

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The luminescence property of Ba2CeNbO6 has been studying by varying Eu(III) concentration. Ba2CeNbO6 doped with trivalent ions of Eu has a monoclinic phase with P21/n space group. FTIR of Ba2CeNbO6 gives information that phosphor has a nano–size perovskite structure with an edge-connected Nb-O octahedral. Photoluminescence properties of Eu(III) doped Ba2CeNbO6 have been examined with excitation wavelength 275nm and 466 nm. Luminescence emission spectra exhibited three prominent peaks around 580 nm, 596 nm, and 610nm wavelength for Eu(III). Using xenon lamp as a source and having excitation wavelength 275 and 466nm, observing that the maximum light emission yielded in the region presenting a color-correlated temperature in the range of 1500 – 2900 K.

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Perovskite synthesis, properties and their related biochemical and industrial application

Cited by 283 publications

References 122 publications

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Complex Catalytic Materials Based on the Perovskite-Type Structure for Energy and Environmental Applications

Photoluminescence of Eu(III) Doped Double Perovskite Phosphor for Red LED Application

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Perovskite synthesis, properties and their related biochemical and industrial application

Cited by 283 publications

References 122 publications

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Perovskite Oxide–Based Materials for Photocatalytic and Photoelectrocatalytic Treatment of Water

Complex Catalytic Materials Based on the Perovskite-Type Structure for Energy and Environmental Applications

Photoluminescence of Eu(III) Doped Double Perovskite Phosphor for Red LED&nbsp;Application

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Photoluminescence of Eu(III) Doped Double Perovskite Phosphor for Red LED Application