Optical Absorption and Band Gap Reduction in (Fe_(1-x)Cr_x)2o3 Solid Solutions: A First-Principles Study

Yong Wang; Kenneth Lopata; Scott A. Chambers

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Optical Absorption and Band Gap Reduction in (Fe_(1-x)Cr_x)2o3 Solid Solutions: A First-Principles Study

机译：（Fe_（1-x）Cr_x）2o3固溶体中的光吸收和带隙减小：第一性原理研究

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We provide a detailed theoretical analysis of the character of optical transitions and band gap reduction in (Fe_(1-x)Cr_x)2o3 solid solutions using extensive periodic model and embedded cluster calculations. Time-dependent density functional theory is used to calculate and assign optical absorption bands for x -0.0, 0.5, and 1.0 and photon energies up to 5 eV. Consistent with recent experimental data, a band gap reduction of as much as 0.7 eV with respect to that of pure α-Fe2O3 is found. This result is attributed predominantly to two effects: (i) the higher valence band edge for x ～ 0.5, as compared to those in pure α-Fe3O3 and α-Cr2O3, and (ii) the onset of Cr → Fe d—d excitations in the solid solutions. Broadening of the valence band due to hybridization of O 2p with Fe and Cr 3d states also contributes to band gap reduction.

机译：我们使用广泛的周期模型和嵌入式簇计算，对（Fe_（1-x）Cr_x）2o3固溶体中的光学跃迁和带隙减小的特性进行了详细的理论分析。随时间变化的密度泛函理论用于计算和分配x -0.0、0.5和1.0以及高达5 eV的光子能量的光吸收带。与最近的实验数据一致，发现相对于纯α-Fe2O3的带隙减小了0.7 eV。该结果主要归因于两个效应：（i）x〜0.5的价带边缘比纯α-Fe3O3和α-Cr2O3的价带边缘高;（ii）Cr→Fe d-d激发的发生在固溶体中。由于O 2p与Fe和Cr 3d态的杂化而使价带变宽，也有助于减小带隙。

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《The journal of physical chemistry, C. Nanomaterials and interfaces》 |2013年第48期|共9页
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Yong Wang; Kenneth Lopata; Scott A. Chambers;
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Optical Absorption and Band Gap Reduction in (Fe_(1-x)Cr_x)2o3 Solid Solutions: A First-Principles Study

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