Charging energy and barrier height of pentacene on Au(111): A local-orbital hybrid-functional density functional theory approach

Pieczyrak B.; Abad E.; Flores F.; Ortega J.

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Charging energy and barrier height of pentacene on Au(111): A local-orbital hybrid-functional density functional theory approach

机译：并五苯在Au（111）上的充电能和势垒高度：局部轨道混合功能密度泛函理论方法

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We analyze the pentacene/Au(111) interface by means of density functional theory (DFT) calculations using a new hybrid functional; in our approach we introduce, in a local-orbital formulation of DFT, a hybrid exchange potential, and combine it with a calculation of the molecule charging energy to properly describe the transport energy gap of pentacene on Au(111). Van der Waals forces are taken into account to obtain the adsorption geometry. Interface dipole potentials are also calculated; it is shown that the metal/pentacene energy level alignment is determined by the potential induced by the charge transfer between the metal surface and the organic material, as described by the induced density of interface states model. Our results compare well with the experimental data.

机译：我们通过使用新的混合功能的密度泛函理论（DFT）计算来分析并五苯/ Au（111）界面;在我们的方法中，我们在DFT的局部轨道公式中引入了一种混合交换势，并将其与分子电荷能的计算相结合，以恰当地描述并五苯在Au（111）上的传输能隙。考虑范德华力以获得吸附几何形状。还可以计算界面偶极电位;结果表明，金属/并五苯能级对准是由金属表面和有机材料之间的电荷转移所感应的电势决定的，如界面状态模型的感应密度所描述的。我们的结果与实验数据进行了比较。

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《The Journal of Chemical Physics》 |2011年第8期|共8页
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Pieczyrak B.; Abad E.; Flores F.; Ortega J.;
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1. Charging energy and barrier height of pentacene on Au(111): A local-orbital hybrid-functional density functional theory approach [J] . Pieczyrak B., Abad E., Flores F., The Journal of Chemical Physics . 2011,第8期

机译：并五苯在Au（111）上的充电能和势垒高度：局部轨道混合功能密度泛函理论方法
2. Quantum state-resolved CH4 dissociation on Pt(111): coverage dependent barrier heights from experiment and density functional theory [J] . Hirokazu Ueta, Li Chen, Rainer D. Beck Physical chemistry chemical physics: PCCP . 2013,第47期

机译：Pt（111）上的量子态分辨CH4解离：根据实验和密度泛函理论，取决于覆盖范围的势垒高度
3. Electronic hole transfer in rutile and anatase TiO2: Effect of a delocalization error in the density functional theory on the charge transfer barrier height [J] . Pawet Zawadzki, Jan Rossmeisl, Karsten Wedel Jacobsen Physical review . 2011,第12期

机译：金红石和锐钛矿型TiO2中的电子空穴转移：密度泛函理论中的离域误差对电荷转移势垒高度的影响
4. Polyvinylpyrrolidone Facilitates Formation of {111}-faceted Au Nanocrystals: Insights from Density-Functional Theory and Molecular Dynamics [C] . S.-H. Liu, W. A. Saidi, Y. Zhou, National SBIR/STTR conference;Annual nanotech conference and expo;Annual TechConnect world innovation conference expo . 2015

机译：聚乙烯吡咯烷酮有助于{111}面金纳米晶体的形成：密度泛函理论和分子动力学的见解。
5. Implementation of optical spectra calculations in FIREBALL: A local-orbital density functional theory approach. [D] . Okhrimenko, Ivan Grigoryevich. 2008

机译：在FIREBALL中实现光谱计算：一种局部轨道密度泛函理论方法。
6. Localized orbital corrections for the calculation of barrier heights in density functional theory [O] . Michelle Lynn Hall, Dahlia A. Goldfeld, Arteum D. Bochevarov, -1

机译：局部轨道纠正为势垒高度的计算在密度泛函理论
7. Charging energy and barrier height of pentacene on Au(111): A local-orbital hybrid-functional density functional theory approach [O] . Pieczyrak, Barbara, Abad, Enrique, Flores, Fernando, 2011

机译：并五苯在au（111）上的充电能量和势垒高度：局部 - 轨道杂化 - 功能密度泛函理论方法

Charging energy and barrier height of pentacene on Au(111): A local-orbital hybrid-functional density functional theory approach

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