Tight-Binding Quantum Chemistry Study on Excitation Properties of Perylene with Acrylic Acid on Anatase(001) Surface

Chen LV; Kei OGIYA; Ai SUZUKI; Riadh SAHNOUN; Michihisa KOYAMA; Hideyuki TSUBOI; Nozomu HATAKEYAMA; Akira ENDOU; Hiromitsu TAKABA; Carlos A. DEL CARPIO; Momoji KUBO; Akira MIYAMOTO

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Tight-Binding Quantum Chemistry Study on Excitation Properties of Perylene with Acrylic Acid on Anatase(001) Surface

机译：锐钛矿（001）表面上Per与丙烯酸激发性能的紧密结合量子化学研究

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The dye-sensitize solar cell (DSSCs) attracted considerable attentions because of potentially low cost. Organic dye sensitizers have been recognized as one of the most important parts for DSSCs to reduce the cost and improve the performance. In addition, computational predication in advance and subsequent synthesis of the ultimately tailor dye sensitizers is also an alternative approach to reduce the cost. However, the high computational cost of conventional computational method limited the study on large-scale DSSCs. Hence, tight-binding quantum chemistry method was developed to challenge electronic properties and excitation spectra of the complicated dye-sensitized TiO{sub}2 systems.

机译：染料敏化太阳能电池（DSSC）由于潜在的低成本而备受关注。有机染料敏化剂已被公认为是DSSC降低成本和改善性能的最重要部分之一。另外，预先计算的预测和最终定制染料敏化剂的后续合成也是降低成本的另一种方法。然而，传统计算方法的高计算成本限制了对大型DSSC的研究。因此，人们开发了紧密结合的量子化学方法来挑战复杂的染料敏化TiO {sub} 2系统的电子性能和激发光谱。

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《電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials》 |2008年第236期|共4页
作者
Chen LV; Kei OGIYA; Ai SUZUKI; Riadh SAHNOUN; Michihisa KOYAMA; Hideyuki TSUBOI; Nozomu HATAKEYAMA; Akira ENDOU; Hiromitsu TAKABA; Carlos A. DEL CARPIO; Momoji KUBO; Akira MIYAMOTO;
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正文语种 eng
中图分类一般性问题;
关键词
Tight-binding quantum chemistry method; Anatase(001) surface; Perylene with acrylic acid;

机译：紧束缚量子化学法;Anatase（001）表面;Per与丙烯酸;

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1. Tight-Binding Quantum Chemistry Study on Excitation Properties of Perylene with Acrylic Acid on Anatase(001) Surface [J] . Chen LV, Kei OGIYA, Ai SUZUKI, 電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials . 2008,第236期

机译：锐钛矿（001）表面上Per与丙烯酸激发性能的紧密结合量子化学研究
2. Tight-Binding Quantum Chemical Molecular Dynamics Study on Interfacial Electron Transfer in Dye-Sensitized Anatase (001) Surface [J] . Chen LV, Agalya GOVINDASAMY, Kei OGIYA, 電子情報通信学会技術研究報告. シリコン材料·デバイス. Silicon Devices and Materials . 2007,第245期

机译：染料敏锐钛矿（001）表面中界面电子转移的紧密结合量子化学分子动力学研究
3. Quantum Chemistry Study on Absorption Spectra, Electronic and Electrical Properties of Organic Dye on Anatase(001) [J] . Chen Lv, Kei Ogiya, Ai Suzuki, Journal of nanoscience and nanotechnology . 2010,第4期

机译：锐钛型有机染料的吸收光谱，电子和电学性质的量子化学研究（001）
4. VIBRATIONAL AND STRUCTURAL PROPERTIES OF THE NB (001) SURFACE WITH AND WITHOUT A NB ADATOM BY TIGHT-BINDING MOLECULAR DYNAMICS [C] . CH. E. LEKKA, G. A. EVANGELAKIS, N. I. PAPANICOLAOU, NATO advanced research workshop on atomistic aspects of epitaxial growth . 2002

机译：Nb（001）表面的振动和结构特性，通过紧密结合分子动力学，没有Nb Adatom
5. Computational Chemistry Meet Semiconductor: Electronic Properties of Wet TiO2 (001) Anatase Surface Functionalized by Transition Metal Doping [D] . Zhang, Yuchi 2013

机译：计算化学与半导体的交汇：通过过渡金属掺杂功能化的湿TiO2（001）锐钛矿表面的电子性质
6. A comparison between quantum chemistry and quantum Monte Carlo techniques for the adsorption of water on the (001) LiH surface [O] . Theodoros Tsatsoulis, Felix Hummel, Denis Usvyat, -1

机译：量子化学和量子蒙特卡罗技术在（001）LiH表面吸附水的比较
7. Molecular dynamics study of water in contact with TiO2 rutile-110, 100, 101, 001 and anatase-101, 001 surface [O] . Kavathekar, Ritwik S., Dev, Pratibha, English, Niall J., 2011

机译：与TiO2金红石110、100、101、001和锐钛矿101、001表面接触的水的分子动力学研究

Tight-Binding Quantum Chemistry Study on Excitation Properties of Perylene with Acrylic Acid on Anatase(001) Surface

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