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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.14264/uql.2016.913&rft.title=High performance, fullerene-free organic photodiodes based on a solution processable indigo: supporting information&rft.identifier=10.14264/uql.2016.913&rft.publisher=The University of Queensland&rft.description=1. Experimental section Material synthesis Scheme S1. Conditions and reagents Figure S1. 1H NMR spectrum of indigo 3 Figure S2. 13C NMR spectrum of indigo 3 Thermal, electrochemical and photophysical properties Figure S3. TGA trace of 3 Figure S4. DSC traces of 3 Figure S5. Cyclic voltammogram of indigo 3 Figure S6. Absorption and emission spectra of a neat film of 3 PL quenching study Table S1. Summary of PLQY quenching results 2. Charge mobility and morphorogy studies SCLC mobility Figure S7: Dark-current densities and SCLC fitting in electron-only and hole-only diode structures OFET mobility Figure S8. Field effect mobility was calculated in OFET geometry Figure S9. OFET output charcteristics of P3HT:3 blend films in hole accumulation mode Table: S2: Summary of electron and hole mobilities measured for neat 3 and blend films Morphorogy study Figure S10. AFM images of neat films of P3HT and 3, and P3HT:3 (1:1) blend films. 3. Photodiode properties Figure S11. Temperature dependent dark current density Figure S12. Noise Equivalent Power (NEP) trends Figure S13. Noise equivalent power (NEP) trends for the OPDs by frequency Figure S14. Calculated specific detectivity (D*) trends for the OPD by frequency 4. Photovoltaic and control devices performance Photovoltaic device performance Figure S15. J–V characteristics of the photovoltaic cells using P3HT:3 (1:1 by weight, 500 nm) Table S3. Summary of the photovoltaic devices (ITO/PEIE/P3HT:3/MoO3/Ag) Influence of indigo 3 on device performance: control devices Figure S16. Device characteristics of the control device (i.e., without 3) Table S4. Summary of the control devices (i.e., without 3) 5. Stability study Air stability of indigo 3 Figure S17. Absorption spectra of freshly prepared and 90 days old pristine films of 3. Device stability Figure S18. Comparison of current density between freshly prepared and 180 days old devices. Table S5. Comparison of solar cell performance between freshly prepared and 180 days old devices. 6. Performance comparison of non‒fullerene and/or indigo‒based photodiodes Table S6. Performance comparison of non-fullerene and/or indigo-based photodiodes&rft.creator=Associate Professor Ebinazar Namdas&rft.creator=Associate Professor Ebinazar Namdas&rft.creator=Associate Professor Shih-Chun Lo&rft.creator=Associate Professor Shih-Chun Lo&rft.creator=Dr Mujeeb Ullah&rft.creator=Dr Paul Shaw&rft.creator=Dr Paul Shaw&rft.creator=Dr Robert Wawrzinek&rft.date=2015&rft.coverage=153.215332,-27.488781&rft_rights=2015, The University of Queensland&rft_rights= https://guides.library.uq.edu.au/deposit-your-data/license-reuse-data-agreement&rft_subject=eng&rft_subject=Nonfullerenes&rft_subject=Organic photodiodes&rft_subject=Solution-processable acceptors&rft_subject=Organic semiconductors&rft_subject=Soft Condensed Matter&rft_subject=PHYSICAL SCIENCES&rft_subject=CONDENSED MATTER PHYSICS&rft_subject=Molecular and Organic Electronics&rft_subject=TECHNOLOGY&rft_subject=NANOTECHNOLOGY&rft_subject=Photodetectors, Optical Sensors and Solar Cells&rft_subject=ENGINEERING&rft_subject=ELECTRICAL AND ELECTRONIC ENGINEERING&rft.type=dataset&rft.language=English Access the data

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1. Experimental section Material synthesis Scheme S1. Conditions and reagents Figure S1. 1H NMR spectrum of indigo 3 Figure S2. 13C NMR spectrum of indigo 3 Thermal, electrochemical and photophysical properties Figure S3. TGA trace of 3 Figure S4. DSC traces of 3 Figure S5. Cyclic voltammogram of indigo 3 Figure S6. Absorption and emission spectra of a neat film of 3 PL quenching study Table S1. Summary of PLQY quenching results 2. Charge mobility and morphorogy studies SCLC mobility Figure S7: Dark-current densities and SCLC fitting in electron-only and hole-only diode structures OFET mobility Figure S8. Field effect mobility was calculated in OFET geometry Figure S9. OFET output charcteristics of P3HT:3 blend films in hole accumulation mode Table: S2: Summary of electron and hole mobilities measured for neat 3 and blend films Morphorogy study Figure S10. AFM images of neat films of P3HT and 3, and P3HT:3 (1:1) blend films. 3. Photodiode properties Figure S11. Temperature dependent dark current density Figure S12. Noise Equivalent Power (NEP) trends Figure S13. Noise equivalent power (NEP) trends for the OPDs by frequency Figure S14. Calculated specific detectivity (D*) trends for the OPD by frequency 4. Photovoltaic and control devices performance Photovoltaic device performance Figure S15. J–V characteristics of the photovoltaic cells using P3HT:3 (1:1 by weight, 500 nm) Table S3. Summary of the photovoltaic devices (ITO/PEIE/P3HT:3/MoO3/Ag) Influence of indigo 3 on device performance: control devices Figure S16. Device characteristics of the control device (i.e., without 3) Table S4. Summary of the control devices (i.e., without 3) 5. Stability study Air stability of indigo 3 Figure S17. Absorption spectra of freshly prepared and 90 days old pristine films of 3. Device stability Figure S18. Comparison of current density between freshly prepared and 180 days old devices. Table S5. Comparison of solar cell performance between freshly prepared and 180 days old devices. 6. Performance comparison of non‒fullerene and/or indigo‒based photodiodes Table S6. Performance comparison of non-fullerene and/or indigo-based photodiodes

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153.21533,-27.48878

153.215332,-27.488781

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High-performance, fullerene-free organic photodiodes based on a solution-processable indigo

local : UQ:370699

Kim, Il Ku, Li, Xin, Ullah, Mujeeb, Shaw, Paul E., Wawrzinek, Robert, Namdas, Ebinazar B. and Lo, Shih-Chun (2015). High-performance, fullerene-free organic photodiodes based on a solution-processable indigo. Advanced Materals, 27 (41), 6390-6395. doi: 10.1002/adma.201502936

Research Data Collections

local : UQ:289097

School of Chemistry and Molecular Biosciences

local : UQ:3825

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