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Plasmonic Photocurrent Improvement in P3HT:PCBM Organic Solar Cells

Yıl 2021, Sayı: 28, 1508 - 1516, 30.11.2021
https://doi.org/10.31590/ejosat.1022871

Öz

The need to develop and deploy large-scale, cost-effective, renewable energy is becoming tremendously important in the last few decades. Nanostructured organic solar cells have the long-term potential to provide low cost, and high-efficiency renewable energy. In recent years, photovoltaic cells based on nanoparticles blended with semiconducting polymers have achieved good performance and distinguished power conversion efficiencies, greater than 17%. These structures include various sizes and shapes of metal nanoparticles. Intensive research is being done towards achieving organic solar cell efficiency of 20%. In this work, a detailed numerical simulation is done for a proposed nanostructured organic solar cell design. Different nanoparticle shapes and sizes are considered in the active layer (P3HT:PCBM) to obtain a highly efficient organic solar cell.

Kaynakça

  • H.L. Huang, C.T. Lee, H.Y. Lee, Performance improvement mechanisms of P3HT: PCBM inverted polymer solar cells using extra PCBM and extra P3HT interfacial layers. Org. Electron. 21,126–131 ,2015.
  • Dan Chi, Shengchun Qu, Zhanguo Wang and Jizheng Wang, High efficiency P3HT:PCBM solar cells with an inserted PCBM layer, J. Mater. Chem. C, 2, 4383, 2014.
  • S. Y. Chang, P. Cheng, G. Li and Y. Yang, Joule, Transparent polymer photovoltaics for solar energy harvesting and beyond, , 2, 1039–1054,2018.
  • Anjusree S., Arya K. R. and Bikas C. Das” Air-processed active-layer of organic solar cells investigated by conducting AFM for precise defect detection” RSCAdv., 10, 24882, 2020.
  • J. Y. Zhou, X. J. Wan, Y. S. Liu, G. K. Long, F. Wang, Z. Li,Y. Zuo, C. X. Li and Y. S. Chen” A bipolar small molecule based on indacenodithiophene and diketopyrrolopyrrole for solution processed organic solar cells” Chem. Mater., 23,4666–4668, 2011.
  • Hongkyu Kang , Geunjin Kim, Junghwan Kim, Sooncheol Kwon, Heejoo Kim, and Kwanghee Lee, Bulk-Heterojunction Organic Solar Cells: Five Core Technologies for Their Commercialization”Adv. Mater., 287821–7861,2016.
  • B. Siegmund, M. T. Sajjad, J. Widmer, D. Ray, C. Koerner,M. Riede, K. Leo, I. D. W. Samuel and K. Vandewal,” Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells” Adv.Mater., , 29, 1604424,2017.
  • V. Shrotriya, G. Li, Y. Yao, C. W. Chu and Y.Yang,” Transition metal oxides as the buffer layer for polymer photovoltaic cells”Appl. Phys. Lett., 88, 073508,2006.
  • A. Tada, Y. F. Geng, Q. S. Wei, K. Hashimoto and K. Tajima,” Tailoring organicheterojunction interfaces in bilayer polymer photovoltaic devices”Nat. Mater., 10, 450455, 2011.
  • B. Kadem, W. Cranton, A. Hassan, Metal salt modified PEDOT: PSS as anode buffer layer and its effect on power conversion efficiency of organic solar cells. Org. Electron. 24, 73–79 ,2015.
  • Barbara Paci, Amanda Generosi,a Valerio Rossi Albertini, George D. Spyropoulos, Emmanuel Stratakis and Emmanuel Kymakis” Enhancement of photo/thermal stability of organic bulk heterojunction photovoltaic devices via gold nanoparticles doping of the active layer†” Nanoscale, 4, 7452,2012 .
  • Peng Xu, Liang Shen, Fanxu Meng, Jiaqi Zhang, Wenfa Xie, Wenjuan Yu, Wenbin Guo, Xu Jia, and Shengping Ruan” The role of Ag nanoparticles in inverted polymer solar cells: Surface plasmon resonance and backscattering centers” APPLIED PHYSICS LETTERS 102, 123301, 2013.
  • Zhihai Liu, Seung Yong Lee, and Eun-Cheol Lee,” Copper nanoparticle incorporated plasmonic organic bulk-heterojunction solar cells” APPLIED PHYSICS LETTERS 105, 223306, 2014.
  • Eng Liang Lim, Chi Chin Yap, Mohd Asri Mat Teridi, Chin Hoong Teh, Abd Rashid bin Mohd Yusoff, Mohammad Hafizuddin Hj Jumali ” A review of recent plasmonic nanoparticles incorporated P3HT: PCBM organic thin film solar cells” E.L. Lim et al., Organic Electronics 36,2016.
  • Zahra Arefinia and Dip Prakash Samajdar” Novel semi analytical optoelectronic modeling based on homogenization theory for realistic plasmonic polymer solar cells” Scientific Reports, Vol.:(0123456789), 11:3261, 2021.
  • Lin Feng, Mengsi Niu, Zhenchuan Wen and Xiaotao Hao, “Recent Advances of Plasmonic Organic Solar Cells: Photophysical Investigations” Polymers, 10, 123, 2018.

P3HT:PCBM Organik Güneş Pillerinde Plazmonik Fotoakım İyileştirmesi

Yıl 2021, Sayı: 28, 1508 - 1516, 30.11.2021
https://doi.org/10.31590/ejosat.1022871

Öz

Uygun maliyetli, yenilenebilir enerji geliştirme ve dağıtma ihtiyacı, son birkaç on yılda son derece önemli hale geliyor. Nano yapılı organik güneş pilleri, düşük maliyetli ve yüksek verimli yenilenebilir enerji sağlamak için uzun vadeli potansiyele sahiptir. Son yıllarda, yarı iletken polimerlerle harmanlanmış nanoparçacıklara dayalı fotovoltaik hücreler, %17'den fazla iyi performans ve seçkin güç dönüştürme verimliliği elde etti. Bu yapılar, çeşitli boyut ve şekillerde metal nanoparçacıkları içerir. %20 organik güneş pili verimi elde etmek için yoğun araştırmalar yapılmaktadır. Bu çalışmada, önerilen bir nanoyapılı organik güneş pili tasarımı için ayrıntılı bir sayısal simülasyon yapılmıştır. Yüksek verimli bir organik güneş pili elde etmek için aktif katmanda (P3HT:PCBM) farklı nanoparçacık şekilleri ve boyutları göz önünde bulundurulur.

Kaynakça

  • H.L. Huang, C.T. Lee, H.Y. Lee, Performance improvement mechanisms of P3HT: PCBM inverted polymer solar cells using extra PCBM and extra P3HT interfacial layers. Org. Electron. 21,126–131 ,2015.
  • Dan Chi, Shengchun Qu, Zhanguo Wang and Jizheng Wang, High efficiency P3HT:PCBM solar cells with an inserted PCBM layer, J. Mater. Chem. C, 2, 4383, 2014.
  • S. Y. Chang, P. Cheng, G. Li and Y. Yang, Joule, Transparent polymer photovoltaics for solar energy harvesting and beyond, , 2, 1039–1054,2018.
  • Anjusree S., Arya K. R. and Bikas C. Das” Air-processed active-layer of organic solar cells investigated by conducting AFM for precise defect detection” RSCAdv., 10, 24882, 2020.
  • J. Y. Zhou, X. J. Wan, Y. S. Liu, G. K. Long, F. Wang, Z. Li,Y. Zuo, C. X. Li and Y. S. Chen” A bipolar small molecule based on indacenodithiophene and diketopyrrolopyrrole for solution processed organic solar cells” Chem. Mater., 23,4666–4668, 2011.
  • Hongkyu Kang , Geunjin Kim, Junghwan Kim, Sooncheol Kwon, Heejoo Kim, and Kwanghee Lee, Bulk-Heterojunction Organic Solar Cells: Five Core Technologies for Their Commercialization”Adv. Mater., 287821–7861,2016.
  • B. Siegmund, M. T. Sajjad, J. Widmer, D. Ray, C. Koerner,M. Riede, K. Leo, I. D. W. Samuel and K. Vandewal,” Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells” Adv.Mater., , 29, 1604424,2017.
  • V. Shrotriya, G. Li, Y. Yao, C. W. Chu and Y.Yang,” Transition metal oxides as the buffer layer for polymer photovoltaic cells”Appl. Phys. Lett., 88, 073508,2006.
  • A. Tada, Y. F. Geng, Q. S. Wei, K. Hashimoto and K. Tajima,” Tailoring organicheterojunction interfaces in bilayer polymer photovoltaic devices”Nat. Mater., 10, 450455, 2011.
  • B. Kadem, W. Cranton, A. Hassan, Metal salt modified PEDOT: PSS as anode buffer layer and its effect on power conversion efficiency of organic solar cells. Org. Electron. 24, 73–79 ,2015.
  • Barbara Paci, Amanda Generosi,a Valerio Rossi Albertini, George D. Spyropoulos, Emmanuel Stratakis and Emmanuel Kymakis” Enhancement of photo/thermal stability of organic bulk heterojunction photovoltaic devices via gold nanoparticles doping of the active layer†” Nanoscale, 4, 7452,2012 .
  • Peng Xu, Liang Shen, Fanxu Meng, Jiaqi Zhang, Wenfa Xie, Wenjuan Yu, Wenbin Guo, Xu Jia, and Shengping Ruan” The role of Ag nanoparticles in inverted polymer solar cells: Surface plasmon resonance and backscattering centers” APPLIED PHYSICS LETTERS 102, 123301, 2013.
  • Zhihai Liu, Seung Yong Lee, and Eun-Cheol Lee,” Copper nanoparticle incorporated plasmonic organic bulk-heterojunction solar cells” APPLIED PHYSICS LETTERS 105, 223306, 2014.
  • Eng Liang Lim, Chi Chin Yap, Mohd Asri Mat Teridi, Chin Hoong Teh, Abd Rashid bin Mohd Yusoff, Mohammad Hafizuddin Hj Jumali ” A review of recent plasmonic nanoparticles incorporated P3HT: PCBM organic thin film solar cells” E.L. Lim et al., Organic Electronics 36,2016.
  • Zahra Arefinia and Dip Prakash Samajdar” Novel semi analytical optoelectronic modeling based on homogenization theory for realistic plasmonic polymer solar cells” Scientific Reports, Vol.:(0123456789), 11:3261, 2021.
  • Lin Feng, Mengsi Niu, Zhenchuan Wen and Xiaotao Hao, “Recent Advances of Plasmonic Organic Solar Cells: Photophysical Investigations” Polymers, 10, 123, 2018.
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Mahmoud Fathy 0000-0002-8432-041X

Yayımlanma Tarihi 30 Kasım 2021
Yayımlandığı Sayı Yıl 2021 Sayı: 28

Kaynak Göster

APA Fathy, M. (2021). Plasmonic Photocurrent Improvement in P3HT:PCBM Organic Solar Cells. Avrupa Bilim Ve Teknoloji Dergisi(28), 1508-1516. https://doi.org/10.31590/ejosat.1022871