Computational Study of CH3NH3BiI3 as a Lead Free Halide Perovskite

机译：CH 3 NH 3 BII 3 作为无铅卤化物钙钛矿的计算研究

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Halide Perovskite materials have recently emerged as a promising material for solar energy absorption, overcoming all the barriers and limiting factors, due to the continuous and fast growing researches. Here, the ability of Bi to replace Pb in CH₃NH₃PbI₃ was examined using a computational modeling process using Vienna Ab-initio Simulation Package (VASP). It has been obtained a band gap of 1.0514 eV for CH₃NH₃BiI₃ while CH₃NH₃PbI₃ showed 1.524 eV and 1.458 eV for cubic and tetragonal structures respectively. Observed electron transferring process of CH₃NH₃BiI₃, matches closely with CH₃NH₃PbI₃. This study explores the potential of Methyl Ammonium Bismuth Iodide (MBI) to be used as a perovskite solar absorber while engineering the band gap to match it closely with that of CH₃NH₃PbI₃.

机译：卤化物钙钛矿材料最近被出现为太阳能吸收的有希望的材料，克服了所有障碍和限制因素，由于持续和快速的研究。在这里，Bi替换CH中的PB的能力_{3 NH._{3 PBI._{3 使用维也纳AB-Initio仿真包（VASP）使用计算建模过程进行检查。它已获得1.0514 EV的频段差距_{3 NH._{3 毕是_{3 而ch._{3 NH._{3 PBI._{3 分别为立方体和四方结构显示1.524eV和1.458 eV。观察到CH的电子转移过程_{3 NH._{3 毕是_{3 ，与ch紧密匹配_{3 NH._{3 PBI._{3 。该研究探讨了甲基铵铋（MBI）的潜力，用作钙钛矿太阳能吸收器，同时工程与CH的带隙相匹配。_{3 NH._{3 PBI._{3 。}}}}}}}}}}}}}}}}}}

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《International Moratuwa Engineering Research Conference》|2019年|1 v.|共4页
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K.A.M.M. Kumarasinghe; Galhenage A. Sewvandi;
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中图分类输配电工程、电力网及电力系统;
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ab initio calculations; energy gap; organic compounds; solar absorber-convertors; solar cells; tin compounds;

机译：AB Initio计算;能隙;有机化合物;太阳能吸收剂 - 转换器;太阳能电池;锡化合物;

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5. Computational Study of CH3NH3BiI3 as a Lead Free Halide Perovskite [C] . K.A.M.M. Kumarasinghe, Galhenage A. Sewvandi International Moratuwa Engineering Research Conference . 2019

机译：CH 3 NH 3 BiI 3 作为无铅卤化物钙钛矿的计算研究
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Computational Study of CH3NH3BiI3 as a Lead Free Halide Perovskite

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