Interfacial Engineering for Highly Efficient-Conjugated Polymer-Based Bulk Heterojunction Photovoltaic Devices | |
Jen, Alex ; Ginger, David ; Luscombe, Christine ; Ma, Hong | |
University of Washington | |
关键词: 14 Solar Energy Interface Engineering, Polymer Solar Cells, Roll-To-Roll Processing; Low Cost Solar Cells; Interface Engineering, Polymer Solar Cells, Roll-To-Roll Processing; | |
DOI : 10.2172/1068847 RP-ID : Final Report RP-ID : FG36-08GO18024 RP-ID : 1068847 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
The aim of our proposal is to apply interface engineering approach to improve charge extraction, guide active layer morphology, improve materials compatibility, and ultimately allow the fabrication of high efficiency tandem cells. Specifically, we aim at developing: i. Interfacial engineering using small molecule self-assembled monolayers ii. Nanostructure engineering in OPVs using polymer brushes iii. Development of efficient light harvesting and high mobility materials for OPVs iv. Physical characterization of the nanostructured systems using electrostatic force microscopy, and conducting atomic force microscopy v. All-solution processed organic-based tandem cells using interfacial engineering to optimize the recombination layer currents vi. Theoretical modeling of charge transport in the active semiconducting layer The material development effort is guided by advanced computer modeling and surface/ interface engineering tools to allow us to obtain better understanding of the effect of electrode modifications on OPV performance for the investigation of more elaborate device structures. The materials and devices developed within this program represent a major conceptual advancement using an integrated approach combining rational molecular design, material, interface, process, and device engineering to achieve solar cells with high efficiency, stability, and the potential to be used for large-area roll-to-roll printing. This may create significant impact in lowering manufacturing cost of polymer solar cells for promoting clean renewable energy use and preventing the side effects from using fossil fuels to impact environment.
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