Quantum confinement of PbSe nanocrystals embedded in a spacer ZnSe matrix for solar cell applications

V. Arivazhagan; M. Manonmani Parvathi; S. Rajesh; Ragnhild Saeterli; Randi Holmestad

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Quantum confinement of PbSe nanocrystals embedded in a spacer ZnSe matrix for solar cell applications

机译：嵌入在间隔ZnSe基质中的PbSe纳米晶体的量子限制，用于太阳能电池应用

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The paper reports quantum confinement of PbSe nanocrystals (NCs) embedded in a ZnSe matrix by rapid thermal annealing of PbSe/ZnSe multiple quantum wells. The distribution of the PbSe NCs within the ZnSe matrix was observed by transmission electron microscopy and the average crystalline size of PbSe NCs was found to be 3-5 nm. The cumulative disorder and the absence of long range superstructure order due to quantum well intermixing were inferred from small angle X-ray scattering. The blue shifts in the absorption edge and band edge luminescence emission indicate formation of PbSe NCs. Finally, potential applications in solar cells are discussed.

机译：该论文报道了通过快速热退火PbSe / ZnSe多量子阱对嵌入ZnSe基质中的PbSe纳米晶体（NC）的量子限制。通过透射电子显微镜观察到PbSe NCs在ZnSe基质中的分布，发现PbSe NCs的平均晶体尺寸为3-5 nm。从小角度X射线散射可以推断出累积的无序性和由于量子阱混合而引起的远距离超结构的不存在。吸收边缘和能带边缘发光发射中的蓝移表明形成了PbSe NCs。最后，讨论了在太阳能电池中的潜在应用。

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来源
《Solar Energy》 |2014年第8期|38-42|共5页
作者
V. Arivazhagan; M. Manonmani Parvathi; S. Rajesh; Ragnhild Saeterli; Randi Holmestad;
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作者单位

Department of Physics, Karunya University, Coimbatore 641 114, India;

Department of Physics, Karunya University, Coimbatore 641 114, India;

Department of Physics, Karunya University, Coimbatore 641 114, India;

Department of Physics, Norwegian University of Science and Technology (NTNU), 7491 Trondheim, Norway;

Department of Physics, Norwegian University of Science and Technology (NTNU), 7491 Trondheim, Norway;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
PbSe nanocrystals; Quantum confinement effect; Physical vapor deposition;

机译：PbSe纳米晶体;量子约束效应;物理气相沉积;

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1. Air-Stable and Efficient PbSe Quantum-Dot Solar Cells Based upon ZnSe to PbSe Cation-Exchanged Quantum Dots [J] . Kim Sungwoo, Marshal Ashley R., Kroupa Daniel. M., ACS nano . 2015,第8期

机译：基于ZnSe到PbSe阳离子交换的量子点的空气稳定高效的PbSe量子点太阳能电池
2. Efficient conjugated polymer-ZnSe and -PbSe nanocrystals hybrid photovoltaic cells through full solar spectrum utilization [J] . Yun Daqin, Feng Wei, Wu Hongcai, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2009,第8期

机译：通过充分利用太阳光谱，高效共轭聚合物-ZnSe和-PbSe纳米晶体混合光伏电池
3. A New Passivation Route Leading to Over 8% Efficient PbSe Quantum-Dot Solar Cells via Direct Ion Exchange with Perovskite Nanocrystals [J] . Zhang Zhilong, Chen Zihan, Yuan Lin, Advanced Materials . 2017,第41期

机译：一种新的钝化途径，通过与钙钛矿纳米晶体的直接离子交换，可产生超过8％的高效PbSe量子点太阳能电池
4. Efficient hybrid infrared solar cells based on P3HT and PbSe nanocrystal quantum dots [C] . Zhanao Tan, Wenqing Zhang, Deping Qian, IUMRS International Conference in Asia;IUMRS-ICA 2010 . 2011

机译：基于P3HT和PbSe纳米晶量子点的高效混合红外太阳能电池
5. Construction and Analysis of PbSe Quantum Dot Heterojunction Solar Cells. [D] . Gibbs, Markelle Lewis. 2014

机译：PbSe量子点异质结太阳能电池的构建与分析。
6. Engineered optical properties of silver-aluminum alloy nanoparticles embedded in SiON matrix for maximizing light confinement in plasmonic silicon solar cells [O] . Piyush K. Parashar, Vamsi K. Komarala -1

机译：嵌入SiON基质中的银铝合金纳米粒子的工程光学特性可最大程度地提高等离子体硅太阳能电池的光限制
7. Determining the Internal Quantum Efficiency of PbSe Nanocrystal Solar Cells with the Aid of an Optical Model [O] . Matt Law, Matthew C. Beard, Sukgeun Choi, 2008

机译：用光学模型确定pbse纳米晶太阳电池的内部量子效率

Quantum confinement of PbSe nanocrystals embedded in a spacer ZnSe matrix for solar cell applications

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