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太陽能電池
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References
由周文利、胡松、林一歆編的《太陽能電池(研究生論文精選1)》收錄了近兩年中歐清潔與可再生能源學院獲得中歐雙學位的部分碩士畢業生在太陽能電池方面的中英文優秀論文。這些論文涉及太陽能電池表面輻射機理及特性、納米結構的制備、微晶材料改性等多個方面,是探索培養中歐合璧人才的結晶,體現了中歐導師合作指導研究生的成果。本書文筆流暢,內容廣泛,信息量大,對于高等學校相關專業師生、相關行業的科技人員和管理工作者以及關注這個領域的公眾來說,是有價值的參考書。
最新章節
- References
- 5 Summary
- 4.3 μc-Si:H Solar Cells Using TVW Technique
- 4.2 Effect of Tailored Voltage Waveform on μc-Si:H Film Growth
- 4.1 Electrical Asymmetry Effect
- 4 Application of Tailored Voltage Waveform(TVW)
上架時間:2021-10-22 16:55:55
出版社:中國水利水電出版社
上海閱文信息技術有限公司已經獲得合法授權,并進行制作發行
- References 更新時間:2021-10-22 17:13:17
- 5 Summary
- 4.3 μc-Si:H Solar Cells Using TVW Technique
- 4.2 Effect of Tailored Voltage Waveform on μc-Si:H Film Growth
- 4.1 Electrical Asymmetry Effect
- 4 Application of Tailored Voltage Waveform(TVW)
- 3.6 Influence of Inter-electrode Distance
- 3.5 Influence of Gas Temperature
- 3.4 Influence of Gas Density
- 3.3 Role of Argon
- 3.2 Role of Hydrogen
- 3.1 Motivations of the Plasma Study
- 3 μc-Si:H Thin Films Based on Silicon Tetrafluoride
- 2.6 Characterization
- 2.5 Surface Growth Models
- 2.4 Basic of Plasma Enhanced Chemical Vapor Deposition(PECVD)
- 2.3 Electrical Properties
- 2.2 Optical Properties
- 2.1 Introduction of Microcrystalline Silicon Materials
- 2 Microcrystalline Silicon(μc-Si:H)Solar Cell
- 1.3 Semiconductor Principles of PV
- 1.2 Solar Energy and Photovoltaic(PV)Technology
- 1.1 Renewable Energy Outlook
- 1 Introduction
- Abstract
- 8 Material and Growth Mechanism Studies of Microcrystalline Silicon from SiF4/H2/Ar Gas Mixture and Application of Tailored Voltage Waveform Technique
- References
- Appendix 2 Comparison of BRDF(PTFE)between NIMS-Ⅲ Experimental Data and Cornell University Data
- Al.2 Theoretical Derivation of BRDF by FDTD Method
- Al.1 Simulation Method Introduction
- Appendix 1 FDTD Method Introduction
- 5.2 Prospect
- 5.1 Summary
- 5 Summary and Prospect
- 4.2 BRDF Experimental Results
- 4.1 Introduction of NIMS-Ⅲ BRDF Measurement Device
- 4 BRDF Experimental Measurement
- 3.3 The Radiation Characteristics of Two-dimensional Silicon Rough Surface
- 3.2 Description of Silicon Wafer Samples
- 3.1 Introduction
- 3 BRDF Simulation of Silicon Wafer Surface
- 2.4 Statistical Description of Random Rough Surface
- 2.3 Measuring Method of BRDF
- 2.2 Relationship between BRDF and Several Physical Quantities
- 2.1 BRDF Definition
- 2 Rudimentary Knowledge of BRDF and Rough Surface Description
- 1.3 Organization of the Thesis
- 1.2 Literature Review
- 1.1 Identification and Significance of the Problem
- 1 Introduction
- Abstract
- 7 The Research on Bidirectional Reflectance Distributional Function of Rough Surface
- Reference
- 5 Summary and Prospect
- 4.6 Chapter Conclusion
- 4.5 Results and Discussion
- 4.4 Experimental Section
- 4.3 Main Chemical Reagent and Equipment
- 4.2 Introduction of the ECALE Equipment
- 4.1 Introduction of ECALE
- 4 Preparation of Ag2 S Quantum Dots Sensitized TiO2 Nanorods Array Photo-anodes for QDSSCs by EC-ALE Method
- 3.4 Chapter Conclusion
- 3.3 Results and Discussion
- 3.2 Experimental Section
- 3.1 Main Chemical Reagents and Equipments
- 3 The Photovoltaic Performance of DSSC Based on the Ca-doped TiO2 NRs Arrays Film
- 2.4 Chapter Conclusions
- 2.3 Results and Discussion
- 2.2 Experimental Section
- 2.1 Main Chemical Reagents and Equipments
- 2 Fabrication of Oriented Pure and Ca-doped TiO2 Nanorod Arrays Film by Hydrothermal Method
- 1.7 Content and Significance of the Research
- 1.6 Research Progress of the Counter Electrode
- 1.5 Research Progress of the Electrolyte
- 1.4 Research Progress of the Sensitizer
- 1.3 Research Progress of the Photo-anode Materials
- 1.2 Structure and Working Principle of Dye-sensitized Solar Cells
- 1.1 Solar Cells
- 1 Introduction
- Abstract
- 6 Fabrication and Photovoltaic Performance of the Sensitized Solar Cells Based on TiO2 Nanorods
- Reference
- 5.2 Prospect
- 5.1 Summary
- 5 Summary and Prospect
- 4.5 Chapter Conclusions
- 4.4 Results and Discussion
- 4.3 Experiment Section
- 4.2 Characterization and Measurements
- 4.1 Materials and Instruments
- 4 Fabrication and Photovoltaic Performance of QDSSCs Based on CdS Quantum Dots Sensitized TiO2 Nanotube Array Membrane Photoanode
- 3.5 Chapter Conclusions
- 3.4 Results and Discussion
- 3.3 Experimental Section
- 3.2 Characterization
- 3.1 Materials and Instruments
- 3 Preparation of Two-End-Opened TiO2 Nanotube Arrays
- 2.5 Chapter Conclusions
- 2.4 Results and Discussion
- 2.3 Experimental Section
- 2.2 Characterization
- 2.1 Materials and Instruments
- 2 Preparation of TiO2 Nanotube Arrays
- 1.6 The Main Contents of the Thesis
- 1.5 Research Progress of Oriented TiO2 Nanotubes Array Membranes
- 1.4 TiO2 Nano-semiconductor Materials
- 1.3 Nano-semiconductor Materials
- 1.2 Solar Cells
- 1.1 Motivation
- 1 Introduction
- Abstract
- 5 Fabrication of Two-End-opened TiO2 Nanotube Array Membranes and Their Application in Quantum Dots Sensitizedd Solar Cells
- Reference
- 5.2 Prospect
- 5.1 Summary
- 5 Summary and Prospect
- 4.3 Profile Optimization and Performance Evaluation
- 4.2 Performance Comparison of 2D Gratings and 1D Gratings
- 4.1 Structure Profile
- 4 Research of 2D Gratings as Absorbers for Solar Cells
- 3.3 1D Complex Grating Performance Demonstration
- 3.2 Parametric Study for the 1 D Simple Silicon Grating
- 3.1 Structure Profile and the Material Employed
- 3 Research of 1D Gratings as Absorbers for Solar Cells
- 2.2 Theoretical Basis
- 2.1 Numerical Methods
- 2 Numerical Methods and Theoretical Basis
- 1.3 Thesis Main Contents
- 1.2 Literature Review
- 1.1 Background and Significance of the Research
- 1 Introduction
- Abstract
- 4 Research on One-dimensional and Two-dimensional Gratings as Absorbers for Solar Cells
- 參考文獻
- 6.2 展望
- 6.1 總結
- 6 總結與展望
- 5.3 本章小結
- 5.2 不同光學性能AZO薄膜對電池性能影響
- 5.1 絨面結構AZO對薄膜電池性能影響
- 5 AZO薄膜在非晶硅薄膜電池上的應用
- 4.5 本章小結
- 4.4 襯底溫度對AZO薄膜禁帶寬度的影響
- 4.3 濺射功率對AZO薄膜禁帶寬度的影響
- 4.2 Ar流量對AZO薄膜禁帶寬度的影響
- 4.1 理論和計算
- 4 工藝參數對AZO薄膜禁帶寬度的影響
- 3.3 本章小結
- 3.2 AZO薄膜的性能研究
- 3.1 AZO薄膜的制備
- 3 AZO薄膜的制備及其性能研究
- 2.2 薄膜樣品的表征
- 2.1 射頻磁控濺射
- 2 AZO薄膜的制備技術及表征
- 1.4 研究意義及內容
- 1.3 AZO薄膜的應用以及研究現狀
- 1.2 ZnO的缺陷與摻雜
- 1.1 ZnO的結構與性質
- 1 緒論
- 摘要
- 3 AZO薄膜性能研究及其在薄膜電池上的應用
- 參考文獻
- 5.2 展望
- 5.1 總結
- 5 總結與展望
- 4.5 本章小結
- 4.4 結果與討論
- 4.3 樣品表征
- 4.2 實驗部分
- 4.1 實驗試劑和儀器
- 4 CdS量子點敏化TiO2納米管陣列薄膜太陽能電池的制備及其性能研究
- 3.5 本章小結
- 3.4 結果與討論
- 3.3 樣品表征
- 3.2 實驗部分
- 3.1 實驗試劑和儀器
- 3 兩端開口的TiO2納米管陣列薄膜的制備
- 2.5 本章小結
- 2.4 結果與討論
- 2.3 樣品表征
- 2.2 實驗部分
- 2.1 實驗試劑和儀器
- 2 一端開口的TiO2納米管陣列薄膜的制備
- 1.6 研究目的和主要內容
- 1.5 TiO2納米管的概述
- 1.4 納米TiO2半導體材料
- 1.3 納米半導體材料
- 1.2 太陽能電池
- 1.1 引言
- 1 緒論
- 摘要
- 2 兩端開口TiO2納米管陣列制備及其在量子點敏化太陽能電池中的應用
- 參考文獻
- 5.2 展望
- 5.1 總結
- 5 總結與展望
- 4.3 本章小結
- 4.2 二維凹形光柵輻射特性研究
- 4.1 二維凸形光柵輻射特性研究
- 4 太陽能電池表面二維光柵吸收輻射特性的研究
- 3.3 本章小結
- 3.2 一維復雜凹形光柵輻射特性研究
- 3.1 一維簡單光柵輻射特性研究
- 3 太陽能電池表面一維光柵吸收輻射特性的研究
- 2.3 本章小結
- 2.2 微結構中的異常輻射現象
- 2.1 表面微結構輻射特性的數值計算方法
- 2 輻射特性數值計算方法和異常輻射現象
- 1.3 主要內容
- 1.2 國內外研究現狀
- 1.1 研究背景和意義
- 1 緒論
- 主要符號表
- 摘要
- 1 太陽能電池表面光柵吸收輻射特性研究
- Preface
- 前言
- 編委會
- 版權信息
- 封面
- 封面
- 版權信息
- 編委會
- 前言
- Preface
- 1 太陽能電池表面光柵吸收輻射特性研究
- 摘要
- 主要符號表
- 1 緒論
- 1.1 研究背景和意義
- 1.2 國內外研究現狀
- 1.3 主要內容
- 2 輻射特性數值計算方法和異常輻射現象
- 2.1 表面微結構輻射特性的數值計算方法
- 2.2 微結構中的異常輻射現象
- 2.3 本章小結
- 3 太陽能電池表面一維光柵吸收輻射特性的研究
- 3.1 一維簡單光柵輻射特性研究
- 3.2 一維復雜凹形光柵輻射特性研究
- 3.3 本章小結
- 4 太陽能電池表面二維光柵吸收輻射特性的研究
- 4.1 二維凸形光柵輻射特性研究
- 4.2 二維凹形光柵輻射特性研究
- 4.3 本章小結
- 5 總結與展望
- 5.1 總結
- 5.2 展望
- 參考文獻
- 2 兩端開口TiO2納米管陣列制備及其在量子點敏化太陽能電池中的應用
- 摘要
- 1 緒論
- 1.1 引言
- 1.2 太陽能電池
- 1.3 納米半導體材料
- 1.4 納米TiO2半導體材料
- 1.5 TiO2納米管的概述
- 1.6 研究目的和主要內容
- 2 一端開口的TiO2納米管陣列薄膜的制備
- 2.1 實驗試劑和儀器
- 2.2 實驗部分
- 2.3 樣品表征
- 2.4 結果與討論
- 2.5 本章小結
- 3 兩端開口的TiO2納米管陣列薄膜的制備
- 3.1 實驗試劑和儀器
- 3.2 實驗部分
- 3.3 樣品表征
- 3.4 結果與討論
- 3.5 本章小結
- 4 CdS量子點敏化TiO2納米管陣列薄膜太陽能電池的制備及其性能研究
- 4.1 實驗試劑和儀器
- 4.2 實驗部分
- 4.3 樣品表征
- 4.4 結果與討論
- 4.5 本章小結
- 5 總結與展望
- 5.1 總結
- 5.2 展望
- 參考文獻
- 3 AZO薄膜性能研究及其在薄膜電池上的應用
- 摘要
- 1 緒論
- 1.1 ZnO的結構與性質
- 1.2 ZnO的缺陷與摻雜
- 1.3 AZO薄膜的應用以及研究現狀
- 1.4 研究意義及內容
- 2 AZO薄膜的制備技術及表征
- 2.1 射頻磁控濺射
- 2.2 薄膜樣品的表征
- 3 AZO薄膜的制備及其性能研究
- 3.1 AZO薄膜的制備
- 3.2 AZO薄膜的性能研究
- 3.3 本章小結
- 4 工藝參數對AZO薄膜禁帶寬度的影響
- 4.1 理論和計算
- 4.2 Ar流量對AZO薄膜禁帶寬度的影響
- 4.3 濺射功率對AZO薄膜禁帶寬度的影響
- 4.4 襯底溫度對AZO薄膜禁帶寬度的影響
- 4.5 本章小結
- 5 AZO薄膜在非晶硅薄膜電池上的應用
- 5.1 絨面結構AZO對薄膜電池性能影響
- 5.2 不同光學性能AZO薄膜對電池性能影響
- 5.3 本章小結
- 6 總結與展望
- 6.1 總結
- 6.2 展望
- 參考文獻
- 4 Research on One-dimensional and Two-dimensional Gratings as Absorbers for Solar Cells
- Abstract
- 1 Introduction
- 1.1 Background and Significance of the Research
- 1.2 Literature Review
- 1.3 Thesis Main Contents
- 2 Numerical Methods and Theoretical Basis
- 2.1 Numerical Methods
- 2.2 Theoretical Basis
- 3 Research of 1D Gratings as Absorbers for Solar Cells
- 3.1 Structure Profile and the Material Employed
- 3.2 Parametric Study for the 1 D Simple Silicon Grating
- 3.3 1D Complex Grating Performance Demonstration
- 4 Research of 2D Gratings as Absorbers for Solar Cells
- 4.1 Structure Profile
- 4.2 Performance Comparison of 2D Gratings and 1D Gratings
- 4.3 Profile Optimization and Performance Evaluation
- 5 Summary and Prospect
- 5.1 Summary
- 5.2 Prospect
- Reference
- 5 Fabrication of Two-End-opened TiO2 Nanotube Array Membranes and Their Application in Quantum Dots Sensitizedd Solar Cells
- Abstract
- 1 Introduction
- 1.1 Motivation
- 1.2 Solar Cells
- 1.3 Nano-semiconductor Materials
- 1.4 TiO2 Nano-semiconductor Materials
- 1.5 Research Progress of Oriented TiO2 Nanotubes Array Membranes
- 1.6 The Main Contents of the Thesis
- 2 Preparation of TiO2 Nanotube Arrays
- 2.1 Materials and Instruments
- 2.2 Characterization
- 2.3 Experimental Section
- 2.4 Results and Discussion
- 2.5 Chapter Conclusions
- 3 Preparation of Two-End-Opened TiO2 Nanotube Arrays
- 3.1 Materials and Instruments
- 3.2 Characterization
- 3.3 Experimental Section
- 3.4 Results and Discussion
- 3.5 Chapter Conclusions
- 4 Fabrication and Photovoltaic Performance of QDSSCs Based on CdS Quantum Dots Sensitized TiO2 Nanotube Array Membrane Photoanode
- 4.1 Materials and Instruments
- 4.2 Characterization and Measurements
- 4.3 Experiment Section
- 4.4 Results and Discussion
- 4.5 Chapter Conclusions
- 5 Summary and Prospect
- 5.1 Summary
- 5.2 Prospect
- Reference
- 6 Fabrication and Photovoltaic Performance of the Sensitized Solar Cells Based on TiO2 Nanorods
- Abstract
- 1 Introduction
- 1.1 Solar Cells
- 1.2 Structure and Working Principle of Dye-sensitized Solar Cells
- 1.3 Research Progress of the Photo-anode Materials
- 1.4 Research Progress of the Sensitizer
- 1.5 Research Progress of the Electrolyte
- 1.6 Research Progress of the Counter Electrode
- 1.7 Content and Significance of the Research
- 2 Fabrication of Oriented Pure and Ca-doped TiO2 Nanorod Arrays Film by Hydrothermal Method
- 2.1 Main Chemical Reagents and Equipments
- 2.2 Experimental Section
- 2.3 Results and Discussion
- 2.4 Chapter Conclusions
- 3 The Photovoltaic Performance of DSSC Based on the Ca-doped TiO2 NRs Arrays Film
- 3.1 Main Chemical Reagents and Equipments
- 3.2 Experimental Section
- 3.3 Results and Discussion
- 3.4 Chapter Conclusion
- 4 Preparation of Ag2 S Quantum Dots Sensitized TiO2 Nanorods Array Photo-anodes for QDSSCs by EC-ALE Method
- 4.1 Introduction of ECALE
- 4.2 Introduction of the ECALE Equipment
- 4.3 Main Chemical Reagent and Equipment
- 4.4 Experimental Section
- 4.5 Results and Discussion
- 4.6 Chapter Conclusion
- 5 Summary and Prospect
- Reference
- 7 The Research on Bidirectional Reflectance Distributional Function of Rough Surface
- Abstract
- 1 Introduction
- 1.1 Identification and Significance of the Problem
- 1.2 Literature Review
- 1.3 Organization of the Thesis
- 2 Rudimentary Knowledge of BRDF and Rough Surface Description
- 2.1 BRDF Definition
- 2.2 Relationship between BRDF and Several Physical Quantities
- 2.3 Measuring Method of BRDF
- 2.4 Statistical Description of Random Rough Surface
- 3 BRDF Simulation of Silicon Wafer Surface
- 3.1 Introduction
- 3.2 Description of Silicon Wafer Samples
- 3.3 The Radiation Characteristics of Two-dimensional Silicon Rough Surface
- 4 BRDF Experimental Measurement
- 4.1 Introduction of NIMS-Ⅲ BRDF Measurement Device
- 4.2 BRDF Experimental Results
- 5 Summary and Prospect
- 5.1 Summary
- 5.2 Prospect
- Appendix 1 FDTD Method Introduction
- Al.1 Simulation Method Introduction
- Al.2 Theoretical Derivation of BRDF by FDTD Method
- Appendix 2 Comparison of BRDF(PTFE)between NIMS-Ⅲ Experimental Data and Cornell University Data
- References
- 8 Material and Growth Mechanism Studies of Microcrystalline Silicon from SiF4/H2/Ar Gas Mixture and Application of Tailored Voltage Waveform Technique
- Abstract
- 1 Introduction
- 1.1 Renewable Energy Outlook
- 1.2 Solar Energy and Photovoltaic(PV)Technology
- 1.3 Semiconductor Principles of PV
- 2 Microcrystalline Silicon(μc-Si:H)Solar Cell
- 2.1 Introduction of Microcrystalline Silicon Materials
- 2.2 Optical Properties
- 2.3 Electrical Properties
- 2.4 Basic of Plasma Enhanced Chemical Vapor Deposition(PECVD)
- 2.5 Surface Growth Models
- 2.6 Characterization
- 3 μc-Si:H Thin Films Based on Silicon Tetrafluoride
- 3.1 Motivations of the Plasma Study
- 3.2 Role of Hydrogen
- 3.3 Role of Argon
- 3.4 Influence of Gas Density
- 3.5 Influence of Gas Temperature
- 3.6 Influence of Inter-electrode Distance
- 4 Application of Tailored Voltage Waveform(TVW)
- 4.1 Electrical Asymmetry Effect
- 4.2 Effect of Tailored Voltage Waveform on μc-Si:H Film Growth
- 4.3 μc-Si:H Solar Cells Using TVW Technique
- 5 Summary
- References 更新時間:2021-10-22 17:13:17
