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Part 1: Document Description
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Citation |
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Title: |
Replication Data for: Bifacial, Color-Tunable Semitransparent Perovskite Solar Cells for Building-Integrated Photovoltaics |
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Identification Number: |
doi:10.21979/N9/NDEFOW |
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Distributor: |
DR-NTU (Data) |
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Date of Distribution: |
2020-04-24 |
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Version: |
2 |
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Bibliographic Citation: |
Wang, Hao; Dewi, Herlina Arianita; Koh, Teck Ming; Bruno, Annalisa; Mhaisalkar, Subodh; Mathews, Nripan, 2020, "Replication Data for: Bifacial, Color-Tunable Semitransparent Perovskite Solar Cells for Building-Integrated Photovoltaics", https://doi.org/10.21979/N9/NDEFOW, DR-NTU (Data), V2 |
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Citation |
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Title: |
Replication Data for: Bifacial, Color-Tunable Semitransparent Perovskite Solar Cells for Building-Integrated Photovoltaics |
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Identification Number: |
doi:10.21979/N9/NDEFOW |
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Authoring Entity: |
Wang, Hao (Nanyang Technological University) |
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Dewi, Herlina Arianita (Nanyang Technological University) |
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Koh, Teck Ming (Nanyang Technological University) |
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Bruno, Annalisa (Nanyang Technological University) |
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Mhaisalkar, Subodh (Nanyang Technological University) |
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Mathews, Nripan (Nanyang Technological University) |
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Software used in Production: |
OriginLab |
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Grant Number: |
NRF2018-ITC001-001 |
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Grant Number: |
NRF-CRP14-2014-03 |
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Grant Number: |
NRF2015-EWT-EIRP003-004 |
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Grant Number: |
Solar CRP (S18-1176-SCRP |
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Grant Number: |
ONRG-NICOP-N62909-17-1-2155 |
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Distributor: |
DR-NTU (Data) |
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Access Authority: |
Wang, Hao |
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Access Authority: |
Dewi, Herlina Arianita |
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Depositor: |
Wang, Hao |
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Date of Deposit: |
2020-04-24 |
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Holdings Information: |
https://doi.org/10.21979/N9/NDEFOW |
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Study Scope |
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Keywords: |
Engineering, Engineering, colorful perovskite solar cell, bifacial solar cell, semitransparent perovskite solar cell, CuSCN |
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Abstract: |
Efficient bifacial colorful ST-PSCs were demonstrated using copper thiocyanate (CuSCN), as a holetransporting material, in an n−i−p architecture. The n−i−p ST-PSCs exhibit the highest reported bifacial factor of 93.7% and achieve a bifacial equivalent efficiency of 22.1% when illuminated under 1 sun standard conditions on the front side and with a reflected albedo of ∼54.4% from the back side. We have also demonstrated that the colorful appearance of CuSCN-based ST-PSCs can be easily tuned across the entire visible spectrum by tuning either the indium tin oxide (ITO) or the CuSCN thickness without affecting their final efficiency. The wide colorful tunability and excellent bifacial photovoltaic behavior of CuSCN-based ST-PSCs make them a promising candidate for BIPV applications. |
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Kind of Data: |
experiment data |
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Kind of Data: |
simulation data |
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Methodology and Processing |
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Sources Statement |
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Data Access |
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Other Study Description Materials |
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Related Publications |
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Citation |
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Identification Number: |
10.1021/acsami.9b15488 |
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Bibliographic Citation: |
Wang, H., Dewi, H. A., Koh, T. M., Bruno, A., Mhaisalkar, S., & Mathews, N. (2019). Bifacial, color-tunable semitransparent perovskite solar cells for building-integrated photovoltaics. ACS Applied Materials & Interfaces, 12(1), 484-493. |
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Citation |
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Identification Number: |
10356/142485 |
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Bibliographic Citation: |
Wang, H., Dewi, H. A., Koh, T. M., Bruno, A., Mhaisalkar, S., & Mathews, N. (2019). Bifacial, color-tunable semitransparent perovskite solar cells for building-integrated photovoltaics. ACS Applied Materials & Interfaces, 12(1), 484-493. |
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Figure 1 a -.jpg |
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SEM image showing the morphology of CuSCN films. |
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Notes: |
image/jpeg |
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Figure 1 a.opj |
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Transmittance spectra of CuSCN films on glass. |
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Notes: |
application/octet-stream |
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Figure 1 b.opj |
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Steady-state photoluminescence spectra of perovskite films and a triple-cation perovskite/CuSCN bilayer on glass substrates |
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Figure 1 b -.tif |
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SEM image shows the morphology of perovskite films |
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Figure 1 d.png |
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Crosssectional field emission scanning electron microscopy (FESEM) image of bifacial ST-PSCs |
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Notes: |
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Label: |
Figure 2 a.opj |
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(a) Current−voltage (J−V) curves of Bifacial ST-PSC in the dark and under 1 sun illumination. |
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Figure 2 b.opj |
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External quantum efficiency (EQE) spectra and integrated current density of ST-PSC |
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Figure 2 c.opj |
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Optical analysis of CuSCN STPSCs and their integrated current density (calculated for λ = 300−800 nm) |
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Figure 2 d.opj |
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Optical analysis of Spiro-OMeTAD ST-PSCs and their integrated current density (calculated for λ = 300−800 nm) |
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Figure 3 b.opj |
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Current−voltage characteristics of the bifacial STPSC when illuminated using the setup described in (a), with front direct 1 sun illumination and back RAs of 33.7% (orange curve) and 54.4% (red curve) |
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Figure 3 b _s.jpg |
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Reflection albedo determination using power meter |
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Notes: |
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Label: |
Figure 3 c_1.opj |
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Calculated prediction of bifacial equivalent efficiency of bifacial ST-PSCs with different RAs |
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Notes: |
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Figure 3 c_2.opj |
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experimental measurements of bifacial equivalent efficiency of bifacial ST-PSCs with 33.7% RA and 54.4% RA |
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Figure 4 a.opj |
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color coordinates (x, y) in the CIE 1931 chromaticity diagram of optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (a) CuSCN = 50 nm, with different ITO thicknesses. |
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Figure 4 a _s.opj |
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optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (a) CuSCN = 50 nm, with different ITO thicknesses. |
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Figure 4 b.opj |
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color coordinates (x, y) in the CIE 1931 chromaticity diagram of optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (b) CuSCN = 110 nm, with different ITO thicknesses. |
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Figure 4 b _s.opj |
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optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (b) CuSCN = 110 nm, with different ITO thicknesses. |
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Notes: |
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Figure 4 c.opj |
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color coordinates (x, y) in the CIE 1931 chromaticity diagram of optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (c) ITO = 100 nm, with different CuSCN thicknesses. |
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Figure 4 c _s.opj |
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optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (c) ITO = 100 nm, with different CuSCN thicknesses. |
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Notes: |
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Figure 4 d.opj |
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color coordinates (x, y) in the CIE 1931 chromaticity diagram of optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (d) ITO = 200 nm, with different CuSCN thicknesses. |
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Notes: |
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Figure 4 d _s.opj |
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optical simulated light reflectance spectra of CuSCN based bifacial ST-PSCs from the ITO electrode side. (d) ITO = 200 nm, with different CuSCN thicknesses. |
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Figure 5 b.opj |
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color coordinates (x, y) of the colorful CuSCN-based ST-PSCs with different ITO thicknesses in the CIE 1931 chromaticity diagram. |
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Figure 5 c.opj |
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Reflectance spectra of CuSCN-based ST-PSCs with pink, purple, blue, and green colors when the ITO thickness is about 145, 170, 190, and 210 nm, respectively. |
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Figure 5 d.opj |
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Integrated Jsc calculated from back-EQE spectra (from the rear ITO side) for CuSCN-based ST-PSCs with different ITO thicknesses. |
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Figure 5 d_s.opj |
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back-EQE spectra (from the rear ITO side) for CuSCN-based ST-PSCs with different ITO thicknesses. |
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Notes: |
application/octet-stream |
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Raw data for Bifacial, Color-Tunable Semitransparent Perovskite Solar Cells for Building-Integrated Photovoltaics_DRAFT.pptx |
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Notes: |
application/vnd.openxmlformats-officedocument.presentationml.presentation |