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Acta Physica Sinica, Volume. 69, Issue 13, 138401-1(2020)

Progress in perovskite solar cells based on different buffer layer materials

Yong-Liang Chen1,2, Ya-Wen Tang1,3, Pei-Run Chen1,2, Li Zhang1,2, Qi Liu3, Ying Zhao1,2, Qian Huang1,2、*, and Xiao-Dan Zhang1,2
Author Affiliations
  • 1Institute of Photo-Electronics Thin Film Devices and Technique, Nankai University, Tianjin 300071, China
  • 2Key Laboratory of Photo-Electronics Thin Film Devices and Technique of Tianjin, Tianjin 300071, China
  • 3Anhui Polytechnic University, Wuhu 241000, China
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    AbstractGet PDF(in Chinese)
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    Figures & Tables(14)
    Structure and energy band diagram of perovskite solar cell: (a) Structure; (b) Energy band diagram.

    Fig. 1. Structure and energy band diagram of perovskite solar cell: (a) Structure; (b) Energy band diagram.

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    Energy level diagram of the buffer layer between the hole transport layer and the anode.

    Fig. 2. Energy level diagram of the buffer layer between the hole transport layer and the anode.

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    PCE distribution of 50 individual PSCs with and without 25 mg·ml–1 NiO buffer layer[14].

    Fig. 3. PCE distribution of 50 individual PSCs with and without 25 mg·ml–1 NiO buffer layer[14].

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    Energy level diagram of the buffer layer between the electron transport layer and the cathode.

    Fig. 4. Energy level diagram of the buffer layer between the electron transport layer and the cathode.

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    I-V diagram of perovskite solar cell with different TPBi buffer layer thickness and different structure cell EQE diagram[26]: (a) I-V diagram; (b) EQE diagram.

    Fig. 5. I-V diagram of perovskite solar cell with different TPBi buffer layer thickness and different structure cell EQE diagram[26]: (a) I-V diagram; (b) EQE diagram.

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    AFM diagram of Perovskite/PCBM and Perovskite/PCBM/Zr(Ac)4 films and XPS spectra showing the different amount of I, N and Pb elements on the films surface; the J-V characteristics of the optimized device perovskite solar cell with and without Zr(Ac)4 buffer layer[30]: (a) Perovskite/PCBM; (b) Perovskite/PCBM/Zr(Ac)4; (c) XPS spectra; (d) J-V diagram.

    Fig. 6. AFM diagram of Perovskite/PCBM and Perovskite/PCBM/Zr(Ac)4 films and XPS spectra showing the different amount of I, N and Pb elements on the films surface; the J-V characteristics of the optimized device perovskite solar cell with and without Zr(Ac)4 buffer layer[30]: (a) Perovskite/PCBM; (b) Perovskite/PCBM/Zr(Ac)4; (c) XPS spectra; (d) J-V diagram.

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    The AFM images and the steady state PL spectra of ITO/PEI/SnO2/perovskite and ITO/SnO2/perovskite, and the IPCE spectra of the champion devices with and without PEI buffer layer[20]: (a) ITO/SnO2/perovskite; (b) ITO/PEI/SnO2/perovskite; (c) PL spectra; (d) IPCE spectra.

    Fig. 7. The AFM images and the steady state PL spectra of ITO/PEI/SnO2/perovskite and ITO/SnO2/perovskite, and the IPCE spectra of the champion devices with and without PEI buffer layer[20]: (a) ITO/SnO2/perovskite; (b) ITO/PEI/SnO2/perovskite; (c) PL spectra; (d) IPCE spectra.

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    Energy level diagram of the buffer layer between the hole transport layer and the absorption layer.

    Fig. 8. Energy level diagram of the buffer layer between the hole transport layer and the absorption layer.

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    The J-V characteristics of the optimized device and important parameter table of perovskite solar cell with GO buffer layer[33].

    Fig. 9. The J-V characteristics of the optimized device and important parameter table of perovskite solar cell with GO buffer layer[33].

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    The luminescence spectra of structure of 1: Glass/Perovskite, 2: Glass/CuPc/Perovskite, 3: Glass/CuPc/Al2O3/Perovskite and 4: Glass/CuPc/GO/Perovskite[18]

    Fig. 10. The luminescence spectra of structure of 1: Glass/Perovskite, 2: Glass/CuPc/Perovskite, 3: Glass/CuPc/Al2O3/Perovskite and 4: Glass/CuPc/GO/Perovskite[18]

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    Energy level diagram of the buffer layer between the electron transport layer and the absorption layer.

    Fig. 11. Energy level diagram of the buffer layer between the electron transport layer and the absorption layer.

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    After heating 168 hours of two different thicknesses of PCBM buffer at 85 ℃, obtained a normalized Voc, Jsc, FF and PCE based on CH3NH3PbI3 absorber layer perovskite solar cells[41].

    Fig. 12. After heating 168 hours of two different thicknesses of PCBM buffer at 85 ℃, obtained a normalized Voc, Jsc, FF and PCE based on CH3NH3PbI3 absorber layer perovskite solar cells[41].

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    XRD patterns (a) and PL spectra (b) of perovskite films on Glass/ITO/ZnO/TiO2 (x cycles) substrates with various x values[17].

    Fig. 13. XRD patterns (a) and PL spectra (b) of perovskite films on Glass/ITO/ZnO/TiO2 (x cycles) substrates with various x values[17].

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    Steady-state photoluminescence spectra and photoluminescence decay of perovskite films with and without C60-SAM[45]: (a) PL spectra; (b) TRPL spectra.

    Fig. 14. Steady-state photoluminescence spectra and photoluminescence decay of perovskite films with and without C60-SAM[45]: (a) PL spectra; (b) TRPL spectra.

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    Yong-Liang Chen, Ya-Wen Tang, Pei-Run Chen, Li Zhang, Qi Liu, Ying Zhao, Qian Huang, Xiao-Dan Zhang. Progress in perovskite solar cells based on different buffer layer materials[J]. Acta Physica Sinica, 2020, 69(13): 138401-1

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    Paper Information

    Received: Apr. 13, 2020

    Accepted: --

    Published Online: Jan. 4, 2021

    The Author Email:

    DOI:10.7498/aps.69.20200543

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