Mathis Cameau scite author profile

Metal halide compounds with photovoltaic properties prepared from solution have received increased attention for utilization in solar cells. In this work, low-toxicity cesium bismuth iodides are synthesized from solution, and their photovoltaic and optical properties as well as electronic and crystal structures are investigated. The X-ray diffraction patterns reveal that a CsI/BiI3 precursor ratio of 1.5:1 can convert pure rhombohedral BiI3 to pure hexagonal Cs3Bi2I9, but any ratio intermediate of this stoichiometry and pure BiI3 yields a mixture containing the two crystalline phases Cs3Bi2I9 and BiI3, with their relative fraction depending on the CsI/BiI3 ratio. Solar cells from the series of compounds are characterized, showing the highest efficiency for the compounds with a mixture of the two structures. The energies of the valence band edge were estimated using hard and soft X-ray photoelectron spectroscopy for more bulk and surface electronic properties, respectively. On the basis of these measurements, together with UV–vis–near-IR spectrophotometry, measuring the band gap, and Kelvin probe measurements for estimating the work function, an approximate energy diagram has been compiled clarifying the relationship between the positions of the valence and conduction band edges and the Fermi level.

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Electronic structure of a borophene layer in rare-earth aluminum/chromium boride and its hydrogenated derivative borophane

Niibe

Cameau

Cuong

et al. 2021

Phys. Rev. Materials

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Mathis Cameau

Semimetallicity of free-standing hydrogenated monolayer boron from MgB2

Cesium Bismuth Iodide Solar Cells from Systematic Molar Ratio Variation of CsI and BiI₃

Electronic structure of a borophene layer in rare-earth aluminum/chromium boride and its hydrogenated derivative borophane

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Mathis Cameau

Semimetallicity of free-standing hydrogenated monolayer boron from MgB2

Cesium Bismuth Iodide Solar Cells from Systematic Molar Ratio Variation of CsI and BiI3

Electronic structure of a borophene layer in rare-earth aluminum/chromium boride and its hydrogenated derivative borophane

Contact Info

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Cesium Bismuth Iodide Solar Cells from Systematic Molar Ratio Variation of CsI and BiI₃