Enhanced infrared photovoltaic efficiency in PbS nanocrystal/ semiconducting polymer composites: 600-fold increase in maximum power output via control of the ligand barrier

S. Zhang; P. W. Cyr; S. A. McDonald; G. Konstantatos; E. H. Sargent

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Enhanced infrared photovoltaic efficiency in PbS nanocrystal/ semiconducting polymer composites: 600-fold increase in maximum power output via control of the ligand barrier

机译：PbS纳米晶体/半导体聚合物复合材料的红外光电效率提高：通过控制配体势垒，最大功率输出提高了600倍

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We report a comparison of photoconductive performance of PbS nanocrystal/polymer composite devices containing either oleic acid-capped or octylamine capped nanocrystals (NCs). The octylamine-capped NCs allow over two orders of magnitude more photocurrent under -1 V bias; they also show an infrared photovoltaic response, while devices using oleic acid-capped NCs do not. Further improvement in the photovoltaic performance of films made with octylamine-capped NCs occurs upon thermally annealing the composite layer at 220℃ for 1 h. The procedure leads to a 200-fold increase in short circuit current, a 600-fold increase in maximum power output, and an order of magnitude faster response time.

机译：我们报告了包含油酸封端或辛胺封端的纳米晶体（NCs）的PbS纳米晶体/聚合物复合器件的光电导性能的比较。在-1 V偏压下，加有辛基胺封端的NC允许的光电流增加两个数量级以上。它们还显示出红外光伏响应，而使用油酸封端的NC则没有。在220℃下将复合层热退火1 h后，可以进一步提高由辛胺封端的NCs制成的薄膜的光伏性能。该过程导致短路电流增加200倍，最大功率输出增加600倍，并且响应时间加快一个数量级。

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来源
《Applied Physics Letters》 |2005年第23期|p.233101.1-233101.3|共3页
作者
S. Zhang; P. W. Cyr; S. A. McDonald; G. Konstantatos; E. H. Sargent;
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Department of Electrical & Computer Engineering, University of Toronto, Toronto, Ontario M5S 3G4, Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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1. Photoconductivity from PbS-nanocrystal/semiconducting polymer composites for solution-processible, quantum-size tunable infrared photodetectors [J] . McDonald SA, Cyr PW, Levina L, Applied Physics Letters . 2004,第11期

机译：PbS-纳米晶体/半导体聚合物复合材料的光电导性，用于溶液可加工，量子尺寸可调红外光电探测器
2. Enhancement of the photovoltaic performance in PbS nanocrystal:P3HT hybrid composite devices by post-treatment-driven ligand exchange [J] . Seo J, Kim SJ, Kim WJ, Nanotechnology . 2009,第9期

机译：通过后处理驱动的配体交换增强PbS纳米晶体：P3HT杂化复合器件中的光伏性能
3. Harvest of near infrared light in PbSe nanocrystal-polymer hybrid photovoltaic cells [J] . Dehu Cui, Jian Xu, Ting Zhu, Applied Physics Letters . 2006,第18期

机译：PbSe纳米晶-聚合物混合光伏电池中近红外光的收获
4. Synthesis and characterization of PbS nanocrystals in MDMO-PPV semiconducting polymer for photovoltaic applications [C] . Ferrer Juan Carlos, Salinas-Castillo Alfonso, Mallavia Ricardo, Spanish Conference on ELectron Devices . 2009

机译：用于光伏应用的MDMO-PPV半导体聚合物中PBS纳米晶体的合成与表征
5. Enhanced infrared photovoltaic efficiency in PbS nanocrystal/semiconducting polymer composites: 600-fold increase in maximum power output via control of the ligand barrier [O] . S. Zhang, P. W. Cyr, S. A. McDonald, 2005

机译：PBS纳米晶/半导体聚合物复合材料中增强的红外光伏效率：通过控制配体屏障的最大功率输出增加600倍

Enhanced infrared photovoltaic efficiency in PbS nanocrystal/ semiconducting polymer composites: 600-fold increase in maximum power output via control of the ligand barrier

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