Colloidal quantum dot solar cell electrical parameter non-destructive quantitative imaging using high-frequency heterodyne lock-in carrierography and photocarrier radiometry

Lilei Hu; Mengxia Liu; Andreas Mandelis; Qiming Sun; Alexander Melnikov; Edward H. Sargent

首页> 外文期刊>Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion >Colloidal quantum dot solar cell electrical parameter non-destructive quantitative imaging using high-frequency heterodyne lock-in carrierography and photocarrier radiometry

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Colloidal quantum dot solar cell electrical parameter non-destructive quantitative imaging using high-frequency heterodyne lock-in carrierography and photocarrier radiometry

机译：胶体量子点太阳能电池电气参数无损定量成像，使用高频外差锁定载影和光载体辐射测量

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Abstract

Colloidal quantum dot (CQD) solar cells with a certified power conversion efficiency of 11.28% were characterized using camera-based heterodyne lock-in carrierography (HeLIC) and photocarrier radiometry (PCR). Carrier lifetime, diffusivity, and diffusion and drift length of a CQD solar cell were imaged in order to investigate carrier transport dynamics, as well as solar cell homogeneity and the effects of Au contacts on carrier transport dynamics. Using room temperature HeLIC imaging which has also been demonstrated using PCR measurements, shorter carrier lifetimes (ca. 0.5μs) were found in Au contact regions that can be attributed to enhanced non-radiative recombinations through trap states at Au/CQD interfaces. This imaging methodology shows strong potential for elucidating the energy loss physics of CQD solar cells and for industrial non-destructive large-area photovoltaic device characterization.

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胶体量子点（CQD）太阳能电池的经认证的电源转换效率为11.28％，使用基于相机的外差锁定载影（Helic）的特征表征）和光载体辐射测定（PCR）。成像CQD太阳能电池的载流子寿命，扩散性和扩散和漂移长度，以便研究载波运输动力学，以及太阳能电池均匀性以及Au触点对载波运输动力学的影响。使用使用PCR测量的室温螺旋成像，在Au / CQD接口通过捕集状态增强非辐射重组，载流量螺旋成像，较短的载体寿命（CA.0.5μs）。这种成像方法表明了阐明CQD太阳能电池的能量损失物理和工业无损大面积光伏器件表征的强大潜力。

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来源
《Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion》 |2018年第2018期|共7页
作者
Lilei Hu; Mengxia Liu; Andreas Mandelis; Qiming Sun; Alexander Melnikov; Edward H. Sargent;
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作者单位

Center for Advanced Diffusion-Wave and Photoacoustic Technologies (CADIPT) Department of Mechanical and Industrial Engineering University of Toronto;

Edward S. Rogers Sr. Department of Electrical and Computer Engineering University of Toronto;

Center for Advanced Diffusion-Wave and Photoacoustic Technologies (CADIPT) Department of Mechanical and Industrial Engineering University of Toronto;

Center for Advanced Diffusion-Wave and Photoacoustic Technologies (CADIPT) Department of Mechanical and Industrial Engineering University of Toronto;

Center for Advanced Diffusion-Wave and Photoacoustic Technologies (CADIPT) Department of Mechanical and Industrial Engineering University of Toronto;

Edward S. Rogers Sr. Department of Electrical and Computer Engineering University of Toronto;

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原文格式 PDF
正文语种 eng
中图分类太阳能技术;各种发电;
关键词
Colloidal quantum dots (CQDs); Solar cell; Carrier transport dynamics; Trap states; Carrier lifetime; Large-area imaging;

机译：胶体量子点（CQDS）;太阳能电池;载波运输动态;陷阱状态;载体寿命;大面积成像;

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1. Colloidal quantum dot solar cell electrical parameter non-destructive quantitative imaging using high-frequency heterodyne lock-in carrierography and photocarrier radiometry [J] . Lilei Hu, Mengxia Liu, Andreas Mandelis, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2018,第期

机译：胶体量子点太阳能电池电气参数无损定量成像，使用高频外差锁定载影和光载体辐射测量
2. Uniqueness range optimization of photocarrier transport parameter measurements using combined quantitative heterodyne lock-in carrierography imaging and photocarrier radiometry [J] . Song Peng, Melnikov Alexander, Sun Qiming, Journal of Applied Physics . 2019,第6期

机译：使用组合定量外差锁定载摄成像和光载体辐射测量光载波传输参数测量的唯一性范围优化
3. Quantitative Carrier Density Wave Imaging in Silicon Solar Cells Using Photocarrier Radiometry and Lock-in Carrierography [J] . Sun Q. M., Melnikov A., Mandelis A. International Journal of Thermophysics . 2016,第4期

机译：硅载流子中使用载流子射线照相术和锁定式照相术的定量载流子密度波成像
4. Colloidal Quantum Dot Solar Cell Electrical Parameter Imaging Using Camera-based High-frequency Heterodyne Lock-in Carrierography [C] . Lilei Hu, Mengxia Liu, Andreas Mandelis, IEEE Photovoltaic Specialist Conference . 2017

机译：胶体量子点太阳能电池电参数成像的基于相机的高频外差锁定成像
5. Quantitative Carrier Transport in Quantum Dot Photovoltaic Solar Cells from Novel Photocarrier Radiometry and Lock-in Carrierography [D] . Hu, Lilei. 2017

机译：新型光载流子射线照相法和锁定式照相术在量子点光伏太阳能电池中的定量载流子传输
6. Efficient two-step photocarrier generation in bias-controlled InAs/GaAs quantum dot superlattice intermediate-band solar cells [O] . T. Kada, S. Asahi, T. Kaizu, -1

机译：偏置控制的InAs / GaAs量子点超晶格中带太阳能电池中高效的两步光生载流子
7. Lock-in carrierography non-destructive imaging of silicon wafers and silicon solar cells [O] . Peng Song, Feng Yang, Junyan Liu, 2020

机译：锁定载波扫描硅晶片和硅太阳能电池的成像

Colloidal quantum dot solar cell electrical parameter non-destructive quantitative imaging using high-frequency heterodyne lock-in carrierography and photocarrier radiometry

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