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有机太阳能电池领域最新研究论文集(截至2014年3月)
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文献列表 其中参考文献6和7是有机太阳能电池进入10%转化效率的里程碑式文章。 1 Yuan, Y., Xiao, Z., Yang, B. & Huang, J. Arising applications of ferroelectric materials in photovoltaic devices. Journal of Materials Chemistry A 2, 6027-6041, doi:10.1039/c3ta14188h (2014). 2 Kim, K. et al. Ultrathin organic solar cells with graphene doped by ferroelectric polarization. ACS Applied Materials & Interfaces (2014). 3 Jie, W. & Hao, J. Graphene-based hybrid structures combined with functional materials of ferroelectrics and semiconductors. Nanoscale, doi:10.1039/c3nr06918d (2014). 4 Hu, L., Dalgleish, S., Matsushita, M. M., Yoshikawa, H. & Awaga, K. Storage of an electric field for photocurrent generation in ferroelectric-functionalized organic devices. Nature communications 5 (2014). 5 Chang, W.-C., Chen, P.-H., Lin, C.-T., Wang, A.-B. & Lee, C.-K. Development of a Photoresponsive and Electrostrictive Material from P(VDF-TrFE-CFE) and TiOPc Composite. MRS Online Proceedings Library 1659, null-null, doi:doi:10.1557/opl.2014.54 (2014). 6 You, J. et al. A polymer tandem solar cell with 10.6% power conversion efficiency. Nature communications 4, 1446 (2013). 7 You, J. et al. 10.2% Power Conversion Efficiency Polymer Tandem Solar Cells Consisting of Two Identical Sub‐Cells. Advanced Materials 25, 3973-3978 (2013). 8 Xiao, Z. et al. Synthesis and Application of Ferroelectric P (VDF‐TrFE) Nanoparticles in Organic Photovoltaic Devices for High Efficiency. Advanced Energy Materials 3, 1581-1588 (2013). 9 Teichler, A., Perelaer, J. & Schubert, U. S. Inkjet printing of organic electronics - comparison of deposition techniques and state-of-the-art developments. Journal of Materials Chemistry C 1, 1910-1925, doi:10.1039/c2tc00255h (2013). 10 Li, N. et al. Towards 15% energy conversion efficiency: a systematic study of the solution-processed organic tandem solar cells based on commercially available materials. Energy & Environmental Science 6, 3407-3413, doi:10.1039/c3ee42307g (2013). 11 Hoth, C. N., Schilinsky, P., Choulis, S. A., Balasubramanian, S. & Brabec, C. J. in Applications of Organic and Printed Electronics 27-56 (Springer, 2013). 12 Yuan, Y. et al. Understanding the effect of ferroelectric polarization on power conversion efficiency of organic photovoltaic devices. Energy & Environmental Science 5, 8558-8563 (2012). 13 Small, C. E. et al. High-efficiency inverted dithienogermole-thienopyrrolodione-based polymer solar cells. Nature Photonics 6, 115-120 (2012). 14 Dou, L. et al. Tandem polymer solar cells featuring a spectrally matched low-bandgap polymer. Nature Photonics 6, 180-185 (2012). 15 Choi, Y.-Y., Kang, S. J., Kim, H.-K., Choi, W. M. & Na, S.-I. Multilayer graphene films as transparent electrodes for organic photovoltaic devices. Solar Energy Materials and Solar Cells 96, 281-285 (2012). 16 Yuan, Y. et al. Efficiency enhancement in organic solar cells with ferroelectric polymers. Nature materials 10, 296-302 (2011). 17 Ohshita, J. et al. Synthesis of Dithienogermole-Containing π-Conjugated Polymers and Applications to Photovoltaic Cells. Organometallics 30, 3233-3236, doi:10.1021/om200081b (2011). 18 Park, S. H. et al. Bulk heterojunction solar cells with internal quantum efficiency approaching 100% percent. Nature Photonics 3, 297-302 (2009). 19 Krebs, F. C. et al. A complete process for production of flexible large area polymer solar cells entirely using screen printing—First public demonstration. Solar Energy Materials and Solar Cells 93, 422-441, doi:http://dx.doi.org/10.1016/j.solmat.2008.12.001 (2009). 20 Chen, H.-Y. et al. Polymer solar cells with enhanced open-circuit voltage and efficiency. Nature Photonics 3, 649-653 (2009). |
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