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High thermostable and conductive niobium doped titanium oxide for the application to a diffusion barrier layer of silicon quantum dot superlattice solar cell structure

机译：用于应用于硅量子点超晶型太阳能电池结构的扩散阻挡层的高温稳定和导电铌掺杂氧化钛

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We investigated the durability of the transparency and the conductivity of TiO2:Nb against the high temperature thermal annealing, and the potential as a diffusion barrier layer of phosphorous atoms for silicon quantum dot superlattice solar cells. The films were annealed at 900 °C for 30 minutes under the forming gas atmosphere. After the annealing, conductivity of the films was measured. The conductivity of 247 S/cm was achieved. And the films kept high transparency in the range above 600 nm. From the depth profiles of phosphorous measured by secondary ion mass spectrometry (SIMS), it was revealed that TiO2:Nb works as a diffusion barrier against phosphorous impurity.

机译：我们研究了TiO2：Nb对高温热退火的透明度和导电性的耐久性，以及作为硅量子点超晶型太阳能电池的磷原子的扩散阻挡层的潜力。在成型气体气氛下，将薄膜在900＆＃00b0; c以900℃下退火30分钟。在退火后，测量膜的电导率。实现了247 s / cm的电导率。并且薄膜在600nm以上的范围内保持高透明度。从二次离子质谱（SIMS）测量的磷的深度分布，揭示了TiO2：Nb作为磷杂质的扩散屏障。

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《IEEE Photovoltaic Specialists Conference 》|2011年||共4页
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Yamada S.;
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1. Improvement of Electrical Properties of Silicon Quantum Dot Superlattice Solar Cells with Diffusion Barrier Layers [J] . Shigeru Yamada, Yasuyoshi Kurokawa, Shinsuke Miyajima, Japanese journal of applied physics . 2013 ,第4Issue2期

机译：具有扩散阻挡层的硅量子点超晶格太阳能电池的电学性能改善
2. Synthesis of superlattice heterostructure of germanium quantum dots in silicon spacer layers and its application in photovoltaic solar cells [J] . H.M. Tawancy, M.O. Aboelfotoh, Mohamed A. Hassan, Superlattices and microstructures . 2021 ,第Jula期

机译：硅隔膜中锗量子点超晶格异质结构及其在光伏太阳能电池中的应用
3. Boron doped Si rich oxide/SiO_2 and silicon rich nitride/SiN_x bilayers on molybdenum-fused silica substrates for vertically structured Si quantum dot solar cells [J] . Ziyun Lin, Lingfeng Wu, Xuguang Jia, Journal of Applied Physics . 2015 ,第4期

机译：垂直结构化Si量子点太阳能电池用钼熔合二氧化硅衬底上掺硼的富Si氧化物/ SiO_2和富氮化硅/ SiN_x双层
4. High thermostable and conductive niobium doped titanium oxide for the application to a diffusion barrier layer of silicon quantum dot superlattice solar cell structure [C] . Yamada S. Photovoltaic Specialists Conference (PVSC), 2011 37th IEEE . 2011

机译：高耐热导电铌掺杂二氧化钛，用于硅量子点超晶格太阳能电池结构的扩散阻挡层
5. Enhanced Performance in Quantum Dot Solar Cell with Titanium Oxide and Nitrogen Doped Titanium Oxide Interlayers. [D] . Yu, Jialin. 2011

机译：氧化钛和氮掺杂的氧化钛中间层增强了量子点太阳能电池的性能。
6. Effect of the Niobium-Doped Titanium Oxide Thickness and Thermal Oxide Layer for Silicon Quantum Dot Solar Cells as a Dopant-Blocking Layer [O] . Ryushiro Akaishi, Kohei Kitazawa, Kazuhiro Gotoh, 2020

机译：掺杂铌的氧化钛厚度和热氧化层对硅量子点太阳能电池作为掺杂阻挡层的影响
7. Effect of the Niobium-Doped Titanium Oxide Thickness and Thermal Oxide Layer for Silicon Quantum Dot Solar Cells as a Dopant-Blocking Layer [O] . Ryushiro Akaishi, Kohei Kitazawa, Kazuhiro Gotoh, 2020

机译：掺杂铌氧化钛厚度和硅量子点太阳能电池的热氧化物层作为掺杂剂阻挡层的影响
8. Enhanced Power Stability for Proton Conducting Solid Oxides Fuel Cells. Calculated energy barriers for proton diffusion in Y-doped BaZrO3. Potential electrode materials for application in proton ceramic fuel cells. [R] . 2005

机译：提高质子传导固体氧化物燃料电池的功率稳定性。计算Y掺杂BaZrO3中质子扩散的能垒。用于质子陶瓷燃料电池的潜在电极材料。

High thermostable and conductive niobium doped titanium oxide for the application to a diffusion barrier layer of silicon quantum dot superlattice solar cell structure

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