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Development of Nanostructured and Surface Modified Semiconductors for Hybrid Organic-Inorganic Solar Cells

机译：用于混合有机 - 无机太阳能电池的纳米结构和表面改性半导体的开发

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Solar energy conversion is increasingly being recognized as one of the principal ways to meet future energy needs without causing detrimental environmental impact. Hybrid organic-inorganic solar cells (SCs) are attracting particular interest due to the potential for low cost manufacturing and for use in new applications, such as consumer electronics, architectural integration and light-weight sensors. Key materials advantages of these next generation SCs over conventional semiconductor SCs are in design opportunities--since the different functions of the SCs are carried out by different materials, there are greater materials choices for producing optimized structures. In this project, we explore the hybrid organic-inorganic solar cell system that consists of oxide, primarily ZnO, nanostructures as the electron transporter and poly-(3-hexylthiophene) (P3HT) as the light-absorber and hole transporter. It builds on our capabilities in the solution synthesis of nanostructured semiconducting oxide arrays to this photovoltaic (PV) technology. The three challenges in this hybrid material system for solar applications are (1) achieving inorganic nanostructures with critical spacing that matches the exciton diffusion in the polymer, (approx) 10 nm, (2) infiltrating the polymer completely into the dense nanostructure arrays, and (3) optimizing the interfacial properties to facilitate efficient charge transfer. We have gained an understanding and control over growing oriented ZnO nanorods with sub-50 nm diameters and the required rod-to-rod spacing on various substrates. We have developed novel approaches to infiltrate commercially available P3HT in the narrow spacing between ZnO nanorods. Also, we have begun to explore ways to modify the interfacial properties. In addition, we have established device fabrication and testing capabilities at Sandia for prototype devices. Moreover, the control synthesis of ZnO nanorod arrays lead to the development of an efficient anti-reflection coating for multicrystalline Si solar cells. An important component of this project is the collaboration with Dr. Dave Ginley's group at NREL. The NREL efforts, which are funded by NREL's LDRD program, focus on measuring device performance, external quantum efficiency, photoconductance through highly specialized non-contact time-resolved microwave conductivity (TRMC) measurements, and vapor phase deposition of oxide materials. The close collaboration with NREL enables us to enter this competitive field in such short time.

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作者
Hsu, J. W. P.;
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年度 2008
页码 p.1-60
总页数 60
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Solar energy; Semiconductors; Polymers; Quantum efficiency; Solar cells; Energy conversion; Substrates; Synthesis; Coatings; Deposition; Diffusion; Electrons; Environmental impacts; Fabrication; Manufacturing; Nanostructures; Oxides; Excitons;

机译：太阳能;半导体;聚合物;量子效率;太阳能电池;能量转换;基板;合成;涂层;沉积;扩散;电子;环境影响;制造;制造;纳米结构;氧化物;激子;

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1. Synergistic combination of semiconductor quantum dots and organic-inorganic halide perovskites for hybrid solar cells [J] . Ru Zhou, Zhou Yang, Jinzhang Xu, Coordination chemistry reviews . 2018,第NOVa期

机译：半导体量子点与有机-无机卤化物钙钛矿的协同组合，用于混合太阳能电池
2. Crafting Semiconductor Organic-Inorganic Nanocomposites via Placing Conjugated Polymers in Intimate Contact with Nanocrystals for Hybrid Solar Cells [J] . Lei Zhao, Zhiqun Lin Advanced Materials . 2012,第32期

机译：通过放置共轭聚合物与纳米晶体紧密接触的混合太阳能电池来制作半导体有机-无机纳米复合材料。
3. Organic-Inorganic Hybrid Ternary Bulk Heterojunction of Nanostructured Perovskite-Low Bandgap Polymer-PCBM for Improved Efficiency of Organic Solar Cells [J] . Jeong Hanbin, Lee Jae Kwan ACS applied materials & interfaces . 2015,第51期

机译：纳米结构钙钛矿-低带隙聚合物-PCBM的有机-无机混合三元本体异质结，可提高有机太阳能电池的效率
4. 2-Dimensional optoelectronic simulation for nanostructured organic-inorganic hybrid solar cells [C] . Cheng Yu-Chih Photovoltaic Specialists Conference (PVSC), 2011 37th IEEE . 2011

机译：纳米结构有机-无机混合太阳能电池的二维光电模拟
5. Organic-inorganic hybrid nanostructures for solar cell applications. [D] . AbdulAlmohsin, Samir M. 2013

机译：用于太阳能电池的有机-无机杂化纳米结构。
6. Significance of hydrogen bonding and other noncovalent interactions in determining octahedral tilting in the CH3NH3PbI3 hybrid organic-inorganic halide perovskite solar cell semiconductor [O] . Pradeep R. Varadwaj, Arpita Varadwaj, Helder M. Marques, -1

机译：氢键和其他非共价相互作用在确定CH3NH3PbI3杂化有机-无机卤化物钙钛矿太阳能电池半导体中八面体倾斜中的意义
7. Development of nanostructured and surface modified semiconductors for hybrid organic-inorganic solar cells. [O] . Hsu, Julia, W. P. 2008

机译：用于混合有机 - 无机太阳能电池的纳米结构和表面改性半导体的开发。

Development of Nanostructured and Surface Modified Semiconductors for Hybrid Organic-Inorganic Solar Cells

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