Understanding conductivity anomalies in CuI-based delafossite transparent conducting oxides: Theoretical insights

David O. Scanlon Kate G. Godinho Benjamin J. Morgan and Graeme W. Watson

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Understanding conductivity anomalies in CuI-based delafossite transparent conducting oxides: Theoretical insights

机译：了解基于CuI 的铜铁矿透明导电氧化物的电导率异常：理论见解

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The CuI-based delafossite structure, CuIMIIIO2, can accommodate a wide range of rare earth and transition metal cations on the MIII site. Substitutional doping of divalent ions for these trivalent metals is known to produce higher p-type conductivity than that occurring in the undoped materials. However, an explanation of the conductivity anomalies observed in these p-type materials, as the trivalent metal is varied, is still lacking. In this article, we examine the electronic structure of CuIMIIIO2 (MIII = Al,Cr,Sc,Y) using density functional theory corrected for on-site Coulomb interactions in strongly correlated systems (GGA+U) and discuss the unusual experimental trends. The importance of covalent interactions between the MIII cation and oxygen for improving conductivity in the delafossite structure is highlighted, with the covalency trends found to perfectly match the conductivity trends. We also show that calculating the natural band offsets and the effective masses of the valence band maxima is not an ideal method to classify the conduction properties of these ternary materials. © 2010 American Institute of Physics Article Outline INTRODUCTION CALCULATION METHODOLOGY RESULTS Structure Electronic structure CuAlO2 CuCrO2 CuScO2 CuYO2 Bader analysis Effective hole masses of the VBM Valence band alignments DISCUSSION CONCLUSION

机译：基于CuI 的铜铁矿结构CuI MIII O2 可以在MIII 位置容纳多种稀土和过渡金属阳离子。已知对这些三价金属的二价离子取代掺杂会产生比未掺杂材料中更高的p型电导率。然而，由于三价金属的变化，仍缺乏对在这些p型材料中观察到的电导率异常的解释。在本文中，我们使用针对现场库仑校正的密度泛函理论研究了CuI MIII O2 （MIII = Al，Cr，Sc，Y）的电子结构在高度相关的系统（GGA + U）中进行交互，并讨论了不寻常的实验趋势。强调了MIII阳离子与氧之间的共价相互作用对于提高铜铁矿结构中电导率的重要性，发现其共价趋势与电导率趋势完全匹配。我们还表明，计算自然能带偏移和价带最大值的有效质量不是对这些三元材料的导电特性进行分类的理想方法。 ©2010美国物理研究所文章概要引言计算方法结果结构电子结构CuAlO2 CuCrO2 CuScO2 CuYO2 Bader分析VBM价带排列的有效孔质量讨论结论

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《Journal of Chemical Physics》 |2010年第2期|p.1-10|共10页
作者
David O. Scanlon Kate G. Godinho Benjamin J. Morgan and Graeme W. Watson;
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School of Chemistry, Trinity College Dublin, Dublin 2, Ireland;

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正文语种 eng
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copper compounds; density functional theory; effective mass; electrical conductivity; semiconductor materials; strongly correlated electron systems; transparency; valence bands;

机译：铜化合物;密度泛函理论;有效质量;电导率;半导体材料;强相关电子体系;透明性;价带;

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机译：了解基于Cu〜I的铜铁矿透明导电氧化物的电导率异常：理论见解
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机译：了解基于Cu〜I的铜铁矿透明导电氧化物的电导率异常：理论见解
3. Metal-like conductivity in undoped TiO_(2-x): Understanding an unconventional transparent conducting oxide [J] . Dorow-Gerspach Daniel, Wuttig Matthias Thin Solid Films . 2019,第JANa1期

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7. Understanding conductivity anomalies in CuI-based delafossite transparent conducting oxides [O] . Scanlon, David O., Godinho, Kate G., Morgan, Benjamin J., 2010

机译：了解基于CuI的铜铁矿透明导电氧化物的电导率异常

Understanding conductivity anomalies in CuI-based delafossite transparent conducting oxides: Theoretical insights

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