Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations

Janesko B. G.

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Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations

机译：比较共轭聚合物能带结构的现代密度泛函：筛选的杂种，明尼苏达州和朗3.5近似值

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Semiconducting polymers with π-conjugated backbones show promise in fields such as photovoltaics. Practical applications of conjugated polymers require precise control over the polymer's electronic band structure. Several new classes of density functional approximation, including screened hybrids, semilocal Minnesota functionals, and Rung 3.5 functionals, show potential for improved predictions of conjugated polymer band structures. This work compares these methods to standard global hybrid density functionals for bandgaps and band structures of representative conjugated polymers. The new methods exhibit particular promise for modeling three-dimensionally periodic bulk polymers, which can be problematic for global hybrids.

机译：具有π-共轭主链的半导体聚合物在光伏等领域显示出希望。共轭聚合物的实际应用需要精确控制聚合物的电子带结构。几类新的密度泛函近似，包括筛选的杂合体，半本地明尼苏达州泛函和Rung 3.5泛函，显示了改进的共轭聚合物带结构预测的潜力。这项工作将这些方法与代表共轭聚合物的带隙和能带结构的标准全局混合密度泛函进行了比较。新方法对三维周期性本体聚合物的建模具有特别的希望，这对于全局杂化来说可能是有问题的。

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《The Journal of Chemical Physics》 |2011年第18期|共8页
作者
Janesko B. G.;
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正文语种 eng
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conducting polymers; density functional theory; energy gap; organic semiconductors;

机译：导电聚合物;密度泛函理论;能隙;有机半导体;

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1. Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations [J] . Benjamin G. Janesko Journal of Chemical Physics . 2011,第18期

机译：比较共轭聚合物带结构的现代密度泛函：筛选的杂种，明尼苏达州和朗3.5近似值
2. Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations [J] . Janesko B. G. The Journal of Chemical Physics . 2011,第18期

机译：比较共轭聚合物能带结构的现代密度泛函：筛选的杂种，明尼苏达州和朗3.5近似值
3. Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations [J] . Janesko B. G. The Journal of Chemical Physics . 2011,第18期

机译：比较共轭聚合物能带结构的现代密度泛函：筛选的杂种，明尼苏达州和朗3.5近似值
4. Efficient hybrid and screened hybrid density functional calculations of carbon and silicon nanostructures electronic properties [C] . Dor Gabay, Xueyang Wang, Vitaliy Lomakin, International Conference on Electromagnetics in Advanced Applications . 2018

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5. Screened Coulomb hybrid density functionals [D] . Heyd, Jochen 2004

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6. The Electronic Structures and Optical Properties of Alkaline-Earth Metals Doped Anatase TiO2: A Comparative Study of Screened Hybrid Functional and Generalized Gradient Approximation [O] . Jin-Gang Ma, Cai-Rong Zhang, Ji-Jun Gong, 2015

机译：碱土金属掺杂锐钛矿型TiO2的电子结构和光学性质：筛选的混合功能和广义梯度近似的比较研究
7. Ab initio complex band structure of conjugated polymers: Effects of hydrid density functional theory and GW schemes [O] . A. Ferretti, G. Mallia, L. Martin-Samos, 2012

机译：共轭聚合物的从头算起的复杂能带结构：杂化密度泛函理论和GW方案的影响

Comparing modern density functionals for conjugated polymer band structures: Screened hybrid, Minnesota, and Rung 3.5 approximations

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