Perovskite Solar Cells: Progress and Advancements

Elumalai, Naveen Kumar; Mahmud, Arafat; Wang, Dian; Uddin, Ashraf

doi:10.3390/en9110861

Cited by 120 publications

(67 citation statements)

References 137 publications

(142 reference statements)

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“…Oxide mineral CaTiO 3 was discovered in 1839 in the Ural Mountains and named for Russian mineralogist L. A. Perovski. Synthetic perovskites such as KNbO 3 , KBNNO, and organic-inorganic CH 3 NH 3 PbI 3 have become famous recently as prospective materials for solar cells with remarkable efficiency progress from the pioneer efficiency of 2 % in 2009 to the efficiency jump of 22.1 % in March 2016 [2,3].…”

Section: Introductionmentioning

confidence: 99%

“…Perovskites are materials of special stoichiometry ABX 3 with X being anions, typically oxygen or halogens, B usually transition metals elements, eg Ti cations, and A great metal cations, usually alkaline earth or rare earth elements, eg Ca, Zn [1,2]. Oxide mineral CaTiO 3 was discovered in 1839 in the Ural Mountains and named for Russian mineralogist L. A. Perovski.…”

Section: Introductionmentioning

confidence: 99%

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Optical properties of zinc titanate perovskite prepared by reactive RF sputtering

Müllerová

Šutta

Medlín

et al. 2017

Journal of Electrical Engineering

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In this paper we report results from optical transmittance spectroscopy complemented with data on structure from XRD measurements to determine optical properties of a series of ZnTiO 3 perovskite thin films deposited on glass by reactive magnetron co-sputtering. The members of the series differ by the titanium content that was revealed as an origin of the changes not only in structure but also in dispersive optical properties. Low porosity has been discovered and calculated using the Bruggeman effective medium approximation. An apparent blue-shift of the optical band gap energies with increasing titanium content was observed. The observed band gap engineering is a good prospective for eg optoelectronic and photocatalytic applications of ZnTiO 3 .

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Optical properties of zinc titanate perovskite prepared by reactive RF sputtering

Müllerová

Šutta

Medlín

et al. 2017

Journal of Electrical Engineering

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“…[57] Mesostructural architecture was used to obtain first high-performance devices by depositing the mixture on mesoporous n-type TiO2 or insulating Al2O3 scaffold substrates and the scaffolds were on top of a thin n-type compact TiO2 layer [37].However, spin-coating the mixture directly onto the compact n-type contact, as in planar hetero-junction architectures, initially resulted in a dewetting effect, [53] leading to poor surface coverage [52]. This in turn resulted in poor device performance as a result of high series resistance paths and low light absorption in the solar cell.…”

Section: One -Step Methodsmentioning

confidence: 99%

“…fabricating perovskite solar cells [57] A thin film of metal halide precursor (e.g., PbI2) is first deposited and then the film coated substrate is dipped into the second precursor solution. Using two -step sequential method controls the morphology of the two precursors [56].…”

Section: Two -Steps Methodsmentioning

confidence: 99%

Progress and Prospect on Stability of Perovskite Photovoltaics

2017

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A B S T R A C TSolar energy has the potential to solve world energy problem as it is pollution-free. It could be enhanced using perovskite material as absorber in perovskite solar cells. The history and what this material is made up of are emphasized. Different methods of fabrication, improving the power conversion efficiency (PCE) and factors influencing degradation of perovskite based solar are stated. Because of the fact that this material based solar cells are not yet developed, its stability was reviewed to bring different technology employed in tackling the stability aiming for a better understanding of the material and the devices, and facilitates the commercialization of perovskite solar cell.

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“…By comparison, in heterojunction devices, drift occurs in the depletion region and diffusion in the quasi-neutral region. 87 The highest reported device efficiencies of a selection of bismuth-based photovoltaics and their device structures are given in Table I. Some of the reviews detailing device optimization efforts are given in Refs.…”

Section: Contacts and Device Performance For Bismuth-based Photovmentioning

confidence: 99%

Research Update: Bismuth-based perovskite-inspired photovoltaic materials

et al. 2018

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Bismuth-based compounds have recently gained interest as solar absorbers with the potential to have low toxicity, be efficient in devices, and be processable using facile methods. We review recent theoretical and experimental investigations into bismuth-based compounds, which shape our understanding of their photovoltaic potential, with particular focus on their defect-tolerance. We also review the processing methods that have been used to control the structural and optoelectronic properties of single crystals and thin films. Additionally, we discuss the key factors limiting their device performance, as well as the future steps needed to ultimately realize these new materials for commercial applications.

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Perovskite Solar Cells: Progress and Advancements

Cited by 120 publications

References 137 publications

Optical properties of zinc titanate perovskite prepared by reactive RF sputtering

Optical properties of zinc titanate perovskite prepared by reactive RF sputtering

Progress and Prospect on Stability of Perovskite Photovoltaics

Research Update: Bismuth-based perovskite-inspired photovoltaic materials

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