Structure-Dependent 4-Tert-Butyl Pyridine-Induced Band Bending at TiO2Surfaces

MatsG?thelid; ShunYu; SarehAhmadi; ChenghuaSun; MarceloZuleta

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Structure-Dependent 4-Tert-Butyl Pyridine-Induced Band Bending at TiO2Surfaces

机译：TiO2表面上依赖于结构的4-叔丁基吡啶诱导的能带弯曲

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The role of 4-tert butyl pyridine (4TBP) adsorption on TiO2surface band bending has been studied using photoelectron spectroscopy. Surface oxygen vacancies pin the Fermi level near the conduction band edge on rutile (110). 4TBP preferentially adsorbs in those vacancies and shift the Fermi level to lower binding energy in the band gap. This is done by transferring vacancy excess charge into the emptyπ∗orbital in the pyridine ring. The anatase (100) surface contains much less oxygen vacancies although the surface is much rougher than the rutile (110). 4TBP adsorption does not have any significant effect on the surface band bending. Thus the positive role associated with 4TBP addition to solar cell electrolytes is suggested to protection against adsorption of other electrolyte components such as Li and I.

机译：使用光电子能谱研究了4-叔丁基吡啶（4TBP）在TiO2表面带弯曲上的吸附作用。表面氧空位使金红石（110）的导带边缘附近的费米能级固定。 4TBP优先吸附在这些空位中，并改变费米能级以降低带隙中的结合能。这是通过将空位过量电荷转移到吡啶环的空π轨道中来完成的。锐钛矿（100）表面包含的氧空位要少得多，尽管该表面比金红石（110）更粗糙。 4TBP吸附对表面带弯曲没有明显影响。因此，建议与向太阳能电池电解质中添加4TBP有关的积极作用是防止吸附其他电解质成分（例如Li和I）。

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《International Journal of Photoenergy》 |2011年第1期|共6页
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MatsG?thelid; ShunYu; SarehAhmadi; ChenghuaSun; MarceloZuleta;
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1. Structure-Dependent 4-Tert-Butyl Pyridine-Induced Band Bending at TiO_(2) Surfaces [J] . Mats Gothelid, Shun Yu, Sareh Ahmadi, International Journal of Photoenergy . 2011,第Pta2期

机译：TiO_（2）表面上的结构依赖性4-叔丁基吡啶诱导的能带弯曲
2. 4-tert-Butyl Pyridine Bond Site and Band Bending on TiO2(110) [J] . Shun Yu, Sareh Ahmadi, Chenghua Sun The journal of physical chemistry, C. Nanomaterials and interfaces . 2010,第5期

机译：TiO2（110）上的4-叔丁基吡啶吡啶键位和能带弯曲
3. Vibrational hot bands of linear C-4 and C-5 arising from a bending vibration with two quanta in the lowest bend: the (v3+2v5)-2v(5) band of C-4 and the (v3+2v(7))-2v(7) band of C-5 [J] . Gakwaya S, Abusara Z, Moazzen-Ahmadi N Chemical Physics Letters . 2004,第4a6期

机译：线性C-4和C-5的振动热带是由弯曲振动引起的，在最低的弯曲处具有两个量子：C-4的（v3 + 2v5）-2v（5）带和（v3 + 2v（7） C-5）-2v（7）波段
4. Induced junction III-nitride solar cells for wide band gap solar cells: Modeling charge transport and band bending in polarized material [C] . Williams J.J., Ghosh K., Faleev N.N., IEEE Photovoltaic Specialists Conference . 2013

机译：用于宽带隙太阳能电池的感应结III型氮化物太阳能电池：模拟极化材料中的电荷传输和能带弯曲
5. Band-Bending and Induced Junctions of Silicon Heterojunction Solar Cells [D] . Hack, James Henry. 2021

机译：硅杂交结变太阳能电池的带弯曲和诱导结
6. Tetrakis(μ-4-tert-butylbenzoato)-κ4 O:O′;κ3 OO′:O′;κ3 O:OO′-bisaqua(4-tert-butylbenzoato-κ2 OO′)(4-tert-butylbenzoic acid-κO)neodymium(III) [O] . Juan Yang, Jun Dai 2011

机译：Tetrakis（μ-4-叔丁基苯并）-κ4 O：O′；κ3 OO：O;κ3 O：OO-bis aqua（4-tert-butylbenzoatoato-κ2 OO）（4-叔丁基苯甲酸-κO）钕（III）
7. Effect of on-site Coulomb repulsion termUon the band-gap states of the reduced rutile (110)TiO2surface [O] . Carmen J. Calzado, Norge Cruz Hernández, Javier Fdez. Sanz 2008

机译：现场库仑排斥项U对还原金红石（110）TiO2表面带隙态的影响

Structure-Dependent 4-Tert-Butyl Pyridine-Induced Band Bending at TiO2Surfaces

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