Yuan Xiong, Eshwar Ravishankar, Jennifer E. Swift, H. Ade, Ronald E Booth, Melodi Charles, Reece Henry, B. O’Connor, J. Rech, C. Saravitz, H. Sederoff, L. Ye, W. You
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Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA\nE-mail: yxiong8@ncsu.edu; hwade@ncsu.edu\n\n Semitransparent organic solar cells (ST-OSCs) show great potential in building-integrated photovoltaics due to the advantages in solution processability, flexibility, and transparency. Herein, we present a systematic study on the application of high-performance ST-OSC filters in a greenhouse by utilizing three representative systems with different spectral responses, namely, FTAZ:PC71BM[1], FTAZ:IT-M[2, 3], and PTB7-Th:IEICO-4F[4]. Specifically, the cultivation of red leaf lettuce is conducted in a controlled environment growth chamber, which is possible to duplicate any climate, and under different ST-OSC filters. In principle, the ST-OSCs absorb a portion of the solar spectrum for power generation and lettuce utilizes the penetrated light for photosynthesis. Furthermore, we quantitatively investigate the leaf area and number profiles, plant biomass, and photosynthetic rate under the as-prepared ST-OSC filters treatments. On the base of statistical analysis after the growth cycle, we can identify the best ST-OSC for plant growth. These results thus pave the way to integrate ST-OSCs with greenhouses. \n\n[1] S. C. Price, A. C. Stuart, L. Yang, H. Zhou, W. You, Journal of the American Chemical Society 2011, 133, 4625.\n[2] L. Ye, Y. Xiong, Q. Zhang, S. Li, C. Wang, Z. Jiang, J. Hou, W. You, H. Ade, Advanced Materials 2018, 30, 1705485.\n[3] Y. Xiong, L. Ye, A. Gadisa, Q. Zhang, J. J. Rech, W. You, H. Ade, Advanced Functional Materials 2019, 29, 1806262.\n[4] X. Song, N. Gasparini, L. Ye, H. Yao, J. Hou, H. Ade, D. 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Department of Physics, Organic and Carbon Electronics Lab (ORaCEL), North Carolina State University, Raleigh, NC 27695, USA\\n2. Department of Mechanical and Aerospace Engineering and ORaCEL, North Carolina State University, Raleigh, NC 27695, USA \\n3. Department of Plant Biology, North Carolina State University, Raleigh, NC 27695, USA\\n4. Department of Plant and Microbial Biology, North Carolina State University, Raleigh, NC 27695, USA \\n5. Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA\\nE-mail: yxiong8@ncsu.edu; hwade@ncsu.edu\\n\\n Semitransparent organic solar cells (ST-OSCs) show great potential in building-integrated photovoltaics due to the advantages in solution processability, flexibility, and transparency. 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引用次数: 2
摘要
应用于温室的透明有机太阳能电池:袁雄1*,Eshwar Ravishankar2, Jennifer swif3, Harald Ade1*, Ronald Booth2, Melodi Charles4, Reece Henry1, Brendan O 'Connor2, jerome James Rech5, Carole Saravitz3, Heike Sederoff4,叶龙1,优伟51。北卡罗来纳州立大学物理系,有机与碳电子实验室(ORaCEL),北卡罗来纳州罗利27695,美国a22 .北卡罗来纳州立大学机械与航空航天工程系与ORaCEL,美国北卡罗来纳州罗利27695美国北卡罗来纳州立大学植物生物系,罗利276954 .北卡罗来纳州立大学植物与微生物学系,北卡罗来纳州罗利27695北卡罗来纳大学教堂山分校化学系,美国北卡罗来纳教堂山27599 e -mail: yxiong8@ncsu.edu;hwade@ncsu.edu半透明有机太阳能电池(ST-OSCs)由于其在溶液可加工性、灵活性和透明度方面的优势,在建筑集成光伏发电中显示出巨大的潜力。本文采用FTAZ:PC71BM[1]、FTAZ:IT-M[2,3]和PTB7-Th:IEICO-4F[4]三个具有代表性的光谱响应系统,系统研究了高性能ST-OSC滤波器在温室中的应用。具体而言,红叶莴苣的培养是在可控环境的生长室内进行的,可以复制任何气候,并在不同的ST-OSC过滤器下进行。原则上,ST-OSCs吸收一部分太阳光谱用于发电,生菜利用穿透的光进行光合作用。此外,我们定量研究了制备的ST-OSC过滤器处理下的叶面积和叶数分布、植物生物量和光合速率。在生长周期结束后的统计分析基础上,我们可以确定植物生长的最佳ST-OSC。这些结果为将ST-OSCs与温室相结合铺平了道路。[1] s c价格,a·c·斯图亚特·l·杨h .周w .你,2011年美国化学学会杂志》,133年,4625年。[2]叶磊,熊艳,张强,李树生,王超,蒋志强,侯建军,游伟,阿德红,2018 .[3]熊艳,叶丽丽,张强,李建军,尤伟,阿德华,高性能材料,2019,29 (4):662 - 662 .[4]宋晓霞,叶丽丽,姚海燕,侯俊杰,艾德H.,巴兰D.,能源工程学报,2018,36,669。
Semi-transparent organic solar cells for greenhouse application (Conference Presentation)
Semi-transparent Organic Solar Cells for Greenhouse Application
Yuan Xiong1*, Eshwar Ravishankar2, Jennifer Swift3, Harald Ade1*, Ronald Booth2, Melodi Charles4, Reece Henry1, Brendan O’Connor2, Jeromy James Rech5, Carole Saravitz3, Heike Sederoff4, Long Ye1, Wei You5
1. Department of Physics, Organic and Carbon Electronics Lab (ORaCEL), North Carolina State University, Raleigh, NC 27695, USA
2. Department of Mechanical and Aerospace Engineering and ORaCEL, North Carolina State University, Raleigh, NC 27695, USA
3. Department of Plant Biology, North Carolina State University, Raleigh, NC 27695, USA
4. Department of Plant and Microbial Biology, North Carolina State University, Raleigh, NC 27695, USA
5. Department of Chemistry, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA
E-mail: yxiong8@ncsu.edu; hwade@ncsu.edu
Semitransparent organic solar cells (ST-OSCs) show great potential in building-integrated photovoltaics due to the advantages in solution processability, flexibility, and transparency. Herein, we present a systematic study on the application of high-performance ST-OSC filters in a greenhouse by utilizing three representative systems with different spectral responses, namely, FTAZ:PC71BM[1], FTAZ:IT-M[2, 3], and PTB7-Th:IEICO-4F[4]. Specifically, the cultivation of red leaf lettuce is conducted in a controlled environment growth chamber, which is possible to duplicate any climate, and under different ST-OSC filters. In principle, the ST-OSCs absorb a portion of the solar spectrum for power generation and lettuce utilizes the penetrated light for photosynthesis. Furthermore, we quantitatively investigate the leaf area and number profiles, plant biomass, and photosynthetic rate under the as-prepared ST-OSC filters treatments. On the base of statistical analysis after the growth cycle, we can identify the best ST-OSC for plant growth. These results thus pave the way to integrate ST-OSCs with greenhouses.
[1] S. C. Price, A. C. Stuart, L. Yang, H. Zhou, W. You, Journal of the American Chemical Society 2011, 133, 4625.
[2] L. Ye, Y. Xiong, Q. Zhang, S. Li, C. Wang, Z. Jiang, J. Hou, W. You, H. Ade, Advanced Materials 2018, 30, 1705485.
[3] Y. Xiong, L. Ye, A. Gadisa, Q. Zhang, J. J. Rech, W. You, H. Ade, Advanced Functional Materials 2019, 29, 1806262.
[4] X. Song, N. Gasparini, L. Ye, H. Yao, J. Hou, H. Ade, D. Baran, ACS Energy Letters 2018, 3, 669.
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