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Based on the first-principles method,we predict two new stable BN allotropes:C12-BN and O16-BN,which belong to cubic and orthorhombic crystal systems,respectively.It is confirmed that both the phases are thermally and dynamically stable.The results of molecular dynamics simulations suggest that both the BN phases are highly stable even at high temperatures of 1000 K.In the case of mechanical properties,C12-BN has a bulk modulus of 359 GPa and a hardness of 43.4 GPa,making it a novel superhard material with potential technological and industrial applications.Electronic band calculations reveal that both C12-BN and O16-BN are insulators with direct band gaps of 3.02 e V and 3.54 e V,respectively.The XRD spectra of C12-BN and O16-BN are also simulated to provide more information for possible experimental observation.Our findings enrich the BN allotrope family and are expected to stimulate further experimental interest. 相似文献
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稀土正铁氧体YFeO3呈正交钙钛矿结构,其晶体和纳米晶材料在电极材料、 传感器和光催化领域具有重要的应用价值.用平面波赝势方法,采用广义梯度近似、改进的Perdew-Burke-Emzerhof交换-关联势、 实空间超软赝势计算方案,研究了YFeO3晶体的几何结构、电子结构和光学性质. 计算得到的晶格参量与报道的实验结果一致.通过对能带结构、态密度、介电函数、吸收系数和光电导率的计算和分析, 确定YFeO3是直接能隙半导体,能隙Eg约为2.22 eV,阐明了YFeO3晶体和纳米晶具有较好的可见光催化性能. 相似文献
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