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137 results on '"Isikgor, Furkan H."'

1. Stable Perovskite Solar Cells via exfoliated graphite as an ion diffusion-blocking layer

Author

Alharbi, Abdullah S., Albishi, Miqad S., Maksudov, Temur, Alhuwaymel, Tariq F., Aivalioti, Chrysa, AlShebl, Kadi S., Alshamrani, Naif R., Isikgor, Furkan H., Aldosari, Mubarak, Aljomah, Majed M., Petridis, Konstantinos, Anthopoulos, Thomas D., Kakavelakis, George, and Alharbi, Essa A.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Ion and metal diffusion in metal halide perovskites, charge-transporting layers, and electrodes are detrimental to the performance and stability of perovskite-based photovoltaic devices. As a result, there is an intense research interest in developing novel defect and ion diffusion mitigation strategies. We present a simple, low-cost, scalable, and highly effective method that uses spray-coated exfoliated graphite interlayers to block ion and metal diffusion and humidity ingress within the perovskite, the hole transport material, and metal electrodes. The influence of inserting the exfoliated graphite films on the structural, surface morphology, and optoelectronic properties were examined through various methods, including X-ray diffraction, Time-of-Flight Secondary Ion Mass Spectrometry, Scanning electron microscope, atomic force microscopy, Current-voltage (J-V) characteristics, Transient photocurrent, and transient photovoltage. Our comprehensive investigation found that exfoliated graphite films reduced the I- and Li+ diffusion among the layers, leading to defect mitigation, reducing non-radiative recombination, and enhancing the device stability. Consequently, the best-performing device demonstrated a power conversion efficiency of 25% and a fill factor exceeding 80%. Additionally, these devices were subjected to different lifetime tests, which significantly enhanced the operational stability., Comment: 30 pages, 13 figures

Published
2024

2. A critical perspective for emerging ultra-thin solar cells with ultra-high power-per-weight outputs

Author

Panagiotopoulos, Apostolos, Maksudov, Temur, Kakavelakis, George, Perrakis, George, Alharbi, Essa A., Kutsarov, Dimitar, Isikgor, Furkan H., Alfihed, Salman, Petridis, Konstantinos, Kafesaki, Maria, Silva, S. Ravi P., Anthopoulos, Thomas D., and Graetzel, Michael

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Ultrathin, solution-processed emerging solar cells with high power-per-weight (PPW) outputs demonstrate unique potential for applications where low weight, high power output, and flexibility are indispensable. The following perspective explores the literature of emerging PVs and highlights the maximum reported PPW values of Perovskite Solar Cells (PSCs) 29.4 W/g, Organic Solar Cells (OSCs) 32.07 W/g and Quantum Dot Solar Cells (QDSC) 15.02 W/g, respectively. The record PPW values of OSCs and PSCs are approximately one order of magnitude higher compared to their inorganic ultrathin solar cells counterparts (approx. 3.2 W/g for CIGS and a-Si). This consists emerging PVs, very attractive for a variety of applications where the PPW is the key parameter. In particular, both OSCs and PSCs can be implemented in different scenarios of applications (indoor and biocompatible applications for OSCs and outdoor and high-energy radiation conversion conditions for the PSCs) due to their unique optoelectronic and physiochemical properties. Finally, our theoretical optical and electrical simulation and optimization study for the most promising and well-suited PV technologies, showed an impressive maximum realistic theoretical PPW limit of 74.3 and 93.7 W/g for PSCs and OSCs, respectively. Our finding shows that the literature PSCs and OSCs towards high PPW outputs, is not quite close to the theoretical maximum and thus more work needs to be done to further increase the PPW output of these promising PV technologies., Comment: 41 pages, 20 figues

Published
2023

3. Impact of the valence band energy alignment at the hole-collecting interface on the photostability of wide band-gap perovskite solar cells

Author

Torres Merino, Luis Victor, Petoukhoff, Christopher E., Matiash, Oleksandr, Subbiah, Anand Selvin, Franco, Carolina Villamil, Dally, Pia, Vishal, Badri, Kosar, Sofiia, Rosas Villalva, Diego, Hnapovskyi, Vladyslav, Ugur, Esma, Shah, Sahil, Peña Camargo, Francisco, Karalis, Orestis, Hempel, Hannes, Levine, Igal, Pradhan, Rakesh R., Kralj, Suzana, Kalasariya, Nikhil, Babics, Maxime, Yildirim, Bumin Kagan, Said, Ahmed A., Aydin, Erkan, Bristow, Helen, Mannar, Subhashri, Raja, Waseem, Pininti, Anil Reddy, Prasetio, Adi, Razzaq, Arsalan, Al Nasser, Hamza, Allen, Thomas G., Isikgor, Furkan H., Baran, Derya, Anthopoulos, Thomas D., Masis, Monica Morales, Schwingenschlögl, Udo, Unold, Thomas, Stolterfoht, Martin, Laquai, Frédéric, and De Wolf, Stefaan

Published
2024
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6. Stable Organic Solar Cells Enabled by Simultaneous Hole and Electron Interlayer Engineering.

Author

Hadmojo, Wisnu Tantyo, Isikgor, Furkan H., Lin, Yuanbao, Ling, Zhaoheng, He, Qiao, Faber, Hendrik, Yengel, Emre, Ali, Roshan, Samad, Abdus, Ardhi, Ryanda Enggar Anugrah, Jeong, Sang Young, Woo, Han Young, Schwingenschlögl, Udo, Heeney, Martin, and Anthopoulos, Thomas D.

Subjects
SOLAR cells, ELECTRON transport, THERMAL stresses, THERMAL batteries, THERMAL stability
Abstract

The development of high‐performance organic solar cells (OSCs) with high operational stability is essential to accelerate their commercialization. Unfortunately, our understanding of the origin of instabilities in state‐of‐the‐art OSCs based on bulk heterojunction (BHJ) featuring non‐fullerene acceptors (NFAs) remains limited. Herein, we developed NFA‐based OSCs using different charge extraction interlayer materials and studied their storage, thermal, and operational stabilities. Despite the high power conversion efficiency (PCE) of the OSCs (17.54%), we found that cells featuring self‐assembled monolayers (SAMs) as hole‐extraction interlayers exhibited poor stability. The time required for these OSCs to reach 80% of their initial performance (T80) was only 6 h under continuous thermal stress at 85 °C in a nitrogen atmosphere and 1 h under maximum power point tracking (MPPT) in a vacuum. Inserting MoOx between ITO and SAM enhanced the T80 to 50 and ~15 h after the thermal and operational stability tests, respectively, while maintaining a PCE of 16.9%. Replacing the organic PDINN electron transport layer with ZnO NPs further enhances the cells' thermal and operational stability, boosting the T80 to 1000 and 170 h, respectively. Our work reveals the synergistic roles of charge‐selective interlayers and device architecture in developing efficient and stable OSCs. [ABSTRACT FROM AUTHOR]

Published
2024
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7. 28.2%-efficient, outdoor-stable perovskite/silicon tandem solar cell

Author

Liu, Jiang, Aydin, Erkan, Yin, Jun, De Bastiani, Michele, Isikgor, Furkan H., Rehman, Atteq Ur, Yengel, Emre, Ugur, Esma, Harrison, George T., Wang, Mingcong, Gao, Yajun, Khan, Jafar Iqbal, Babics, Maxime, Allen, Thomas G., Subbiah, Anand S., Zhu, Kaichen, Zheng, Xiaopeng, Yan, Wenbo, Xu, Fuzong, Salvador, Michael F., Bakr, Osman M., Anthopoulos, Thomas D., Lanza, Mario, Mohammed, Omar F., Laquai, Frédéric, and De Wolf, Stefaan

Published
2021
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8. Concurrent cationic and anionic perovskite defect passivation enables 27.4% perovskite/silicon tandems with suppression of halide segregation

Author

Isikgor, Furkan H., Furlan, Francesco, Liu, Jiang, Ugur, Esma, Eswaran, Mathan K., Subbiah, Anand S., Yengel, Emre, De Bastiani, Michele, Harrison, George T., Zhumagali, Shynggys, Howells, Calvyn T., Aydin, Erkan, Wang, Mingcong, Gasparini, Nicola, Allen, Thomas G., Rehman, Atteq ur, Van Kerschaver, Emmanuel, Baran, Derya, McCulloch, Iain, Anthopoulos, Thomas D., Schwingenschlögl, Udo, Laquai, Frédéric, and De Wolf, Stefaan

Published
2021
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9. Scaling-up perovskite solar cells on hydrophobic surfaces

Author

Isikgor, Furkan H., Subbiah, Anand S., Eswaran, Mathan K., Howells, Calvyn T., Babayigit, Aslihan, De Bastiani, Michele, Yengel, Emre, Liu, Jiang, Furlan, Francesco, Harrison, George T., Zhumagali, Shynggys, Khan, Jafar I., Laquai, Frédéric, Anthopoulos, Thomas D., McCulloch, Iain, Schwingenschlögl, Udo, and De Wolf, Stefaan

Published
2021
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10. A critical perspective for emerging ultra-thin solar cells with ultra-high power-per-weight outputs

Author

Panagiotopoulos, Apostolos, Maksudov, Temur, Kakavelakis, George, Perrakis, George, Alharbi, Essa A., Kutsarov, Dimitar, Isikgor, Furkan H., Alfihed, Salman, Petridis, Konstantinos, Kafesaki, Maria, Silva, S. Ravi P., Anthopoulos, Thomas D., Graetzel, Michael, Panagiotopoulos, Apostolos, Maksudov, Temur, Kakavelakis, George, Perrakis, George, Alharbi, Essa A., Kutsarov, Dimitar, Isikgor, Furkan H., Alfihed, Salman, Petridis, Konstantinos, Kafesaki, Maria, Silva, S. Ravi P., Anthopoulos, Thomas D., and Graetzel, Michael

Abstract

Ultrathin, solution-processed emerging solar cells with high power-per-weight (PPW) outputs demonstrate unique potential for applications where low weight, high power output, and flexibility are indispensable. The following perspective explores the literature of emerging PVs and highlights the maximum reported PPW values of perovskite solar cells (PSCs) 29.4 W/g, organic solar cells (OSCs) 32.07 W/g, and quantum dot solar cells 15.02 W/g, respectively. The record PPW values of OSCs and PSCs are approximately one order of magnitude higher compared to their inorganic ultrathin solar cells counterparts (approximately 3.2 W/g for CIGS and a-Si). This consists emerging PVs, very attractive for a variety of applications where the PPW is the key parameter. In particular, both OSCs and PSCs can be implemented in different scenarios of applications (indoor and biocompatible applications for OSCs and outdoor and high-energy radiation conversion conditions for the PSCs) due to their unique optoelectronic and physiochemical properties. Finally, our theoretical optical and electrical simulation and optimization study for the most promising and well-suited PV technologies showed an impressive maximum realistic theoretical PPW limit of 74.3 and 93.7 W/g for PSCs and OSCs, respectively. Our finding in the theoretical section shows that the experimental results achieved in the literature of PSCs and OSCs toward high PPW outputs is not quite close to the theoretical maximum (35% and 40% of the theoretical maximum for OSCs and PSCs, respectively), and thus, more work needs to be done to further increase the experimental PPWoutput of these promising PV technologies.

Published
2024
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11. Photon recycling in perovskite solar cells and its impact on device design

Author

Raja Waseem, De Bastiani Michele, Allen Thomas G., Aydin Erkan, Razzaq Arsalan, Rehman Atteq ur, Ugur Esma, Babayigit Aslihan, Subbiah Anand S., Isikgor Furkan H., and De Wolf Stefaan

Subjects
light-trapping, perovskites, photon recycling, photovoltaics, solar cells, Physics, QC1-999
Abstract

Metal halide perovskites have emerged in recent years as promising photovoltaic materials due to their excellent optical and electrical properties, enabling perovskite solar cells (PSCs) with certified power conversion efficiencies (PCEs) greater than 25%. Provided radiative recombination is the dominant recombination mechanism, photon recycling – the process of reabsorption (and re-emission) of photons that result from radiative recombination – can be utilized to further enhance the PCE toward the Shockley–Queisser (S-Q) theoretical limit. Geometrical optics can be exploited for the intentional trapping of such re-emitted photons within the device, to enhance the PCE. However, this scheme reaches its fundamental diffraction limits at the submicron scale. Therefore, introducing photonic nanostructures offer attractive solutions to manipulate and trap light at the nanoscale via light coupling into guided modes, as well as localized surface plasmon and surface plasmon polariton modes. This review focuses on light-trapping schemes for efficient photon recycling in PSCs. First, we summarize the working principles of photon recycling, which is followed by a review of essential requirements to make this process efficient. We then survey photon recycling in state-of-the-art PSCs and propose design strategies to invoke light-trapping to effectively exploit photon recycling in PSCs. Finally, we formulate a future outlook and discuss new research directions in the context of photon recycling.

Published
2021
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13. A critical perspective for emerging ultra-thin solar cells with ultra-high power-per-weight outputs

Author

Panagiotopoulos, Apostolos, primary, Maksudov, Temur, additional, Kakavelakis, George, additional, Perrakis, George, additional, Alharbi, Essa A., additional, Kutsarov, Dimitar, additional, Isikgor, Furkan H., additional, Alfihed, Salman, additional, Petridis, Konstantinos, additional, Kafesaki, Maria, additional, Silva, S. Ravi P., additional, Anthopoulos, Thomas D., additional, and Graetzel, Michael, additional

Published
2023
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14. Back Cover: On the Conformation of Dimeric Acceptors and Their Polymer Solar Cells with Efficiency over 18 % (Angew. Chem. Int. Ed. 45/2023)

Author

Wu, Jingnan, primary, Ling, Zhaoheng, additional, Franco, Leandro R., additional, Jeong, Sang Young, additional, Genene, Zewdneh, additional, Mena, Josué, additional, Chen, Si, additional, Chen, Cailing, additional, Araujo, C. Moyses, additional, Marchiori, Cleber F. N., additional, Kimpel, Joost, additional, Chang, Xiaoming, additional, Isikgor, Furkan H., additional, Chen, Qiaonan, additional, Faber, Hendrik, additional, Han, Yu, additional, Laquai, Frédéric, additional, Zhang, Maojie, additional, Woo, Han Young, additional, Yu, Donghong, additional, Anthopoulos, Thomas D., additional, and Wang, Ergang, additional

Published
2023
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15. Rücktitelbild: On the Conformation of Dimeric Acceptors and Their Polymer Solar Cells with Efficiency over 18 % (Angew. Chem. 45/2023)

Author

Wu, Jingnan, primary, Ling, Zhaoheng, additional, Franco, Leandro R., additional, Jeong, Sang Young, additional, Genene, Zewdneh, additional, Mena, Josué, additional, Chen, Si, additional, Chen, Cailing, additional, Araujo, C. Moyses, additional, Marchiori, Cleber F. N., additional, Kimpel, Joost, additional, Chang, Xiaoming, additional, Isikgor, Furkan H., additional, Chen, Qiaonan, additional, Faber, Hendrik, additional, Han, Yu, additional, Laquai, Frédéric, additional, Zhang, Maojie, additional, Woo, Han Young, additional, Yu, Donghong, additional, Anthopoulos, Thomas D., additional, and Wang, Ergang, additional

Published
2023
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16. On the Conformation of Dimeric Acceptors and Their Polymer Solar Cells with Efficiency over 18 %

Author

Wu, Jingnan, primary, Ling, Zhaoheng, additional, Franco, Leandro R., additional, Jeong, Sang Young, additional, Genene, Zewdneh, additional, Mena, Josué, additional, Chen, Si, additional, Chen, Cailing, additional, Araujo, C. Moyses, additional, Marchiori, Cleber F. N., additional, Kimpel, Joost, additional, Chang, Xiaoming, additional, Isikgor, Furkan H., additional, Chen, Qiaonan, additional, Faber, Hendrik, additional, Han, Yu, additional, Laquai, Frédéric, additional, Zhang, Maojie, additional, Woo, Han Young, additional, Yu, Donghong, additional, Anthopoulos, Thomas D., additional, and Wang, Ergang, additional

Published
2023
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17. On the Conformation of Dimeric Acceptors and Their Polymer Solar Cells with Efficiency over 18 %

Author

Wu, Jingnan, Ling, Zhaoheng, Franco, Leandro R. R., Jeong, Sang Young, Genene, Zewdneh, Mena, Josue, Chen, Si, Chen, Cailing, Araujo, Moyses, Marchiori, Cleber F. N., Kimpel, Joost, Chang, Xiaoming, Isikgor, Furkan H. H., Chen, Qiaonan, Faber, Hendrik, Han, Yu, Laquai, Frederic, Zhang, Maojie, Woo, Han Young, Yu, Donghong, Anthopoulos, Thomas D. D., Wang, Ergang, Wu, Jingnan, Ling, Zhaoheng, Franco, Leandro R. R., Jeong, Sang Young, Genene, Zewdneh, Mena, Josue, Chen, Si, Chen, Cailing, Araujo, Moyses, Marchiori, Cleber F. N., Kimpel, Joost, Chang, Xiaoming, Isikgor, Furkan H. H., Chen, Qiaonan, Faber, Hendrik, Han, Yu, Laquai, Frederic, Zhang, Maojie, Woo, Han Young, Yu, Donghong, Anthopoulos, Thomas D. D., and Wang, Ergang

Abstract

The determination of molecular conformations of oligomeric acceptors (OAs) and their impact on molecular packing are crucial for understanding the photovoltaic performance of their resulting polymer solar cells (PSCs) but have not been well studied yet. Herein, we synthesized two dimeric acceptor materials, DIBP3F-Se and DIBP3F-S, which bridged two segments of Y6-derivatives by selenophene and thiophene, respectively. Theoretical simulation and experimental 1D and 2D NMR spectroscopic studies prove that both dimers exhibit O-shaped conformations other than S- or U-shaped counter-ones. Notably, this O-shaped conformation is likely governed by a distinctive "conformational lock" mechanism, arising from the intensified intramolecular & pi;-& pi; interactions among their two terminal groups within the dimers. PSCs based on DIBP3F-Se deliver a maximum efficiency of 18.09 %, outperforming DIBP3F-S-based cells (16.11 %) and ranking among the highest efficiencies for OA-based PSCs. This work demonstrates a facile method to obtain OA conformations and highlights the potential of dimeric acceptors for high-performance PSCs.

Published
2023
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19. Monolithic Perovskite/Silicon Tandems with >28% Efficiency: Role of Silicon‐Surface Texture on Perovskite Properties

Author

De Bastiani, Michele, primary, Jalmood, Rawan, additional, Liu, Jiang, additional, Ossig, Christina, additional, Vlk, Aleš, additional, Vegso, Karol, additional, Babics, Maxime, additional, Isikgor, Furkan H., additional, Selvin, Anand S., additional, Azmi, Randi, additional, Ugur, Esma, additional, Banerjee, Swarnendu, additional, Mirabelli, Alessandro J., additional, Aydin, Erkan, additional, Allen, Thomas G., additional, Ur Rehman, Atteq, additional, Van Kerschaver, Emmanuel, additional, Siffalovic, Peter, additional, Stuckelberger, Michael E., additional, Ledinsky, Martin, additional, and De Wolf, Stefaan, additional

Published
2022
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22. Metal-Free Interconnecting Layer for Monolithic Perovskite/Organic Tandem Solar Cells with Enhanced Outdoor Stability

Author

Xu, Han, primary, Torres Merino, Luis, additional, Koc, Mehmet, additional, Aydin, Erkan, additional, Zhumagali, Shynggys, additional, Haque, Md Azimul, additional, Yazmaciyan, Aren, additional, Sharma, Anirudh, additional, Rosas Villalva, Diego, additional, Huerta Hernandez, Luis, additional, De Bastiani, Michele, additional, Babics, Maxime, additional, Isikgor, Furkan H., additional, Troughton, Joel, additional, De Wolf, Stefaan, additional, Yerci, Selcuk, additional, and Baran, Derya, additional

Published
2022
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24. Efficient and stable perovskite-silicon tandem solar cells through contact displacement by MgFx

Author

Liu, Jiang, primary, De Bastiani, Michele, additional, Aydin, Erkan, additional, Harrison, George T., additional, Gao, Yajun, additional, Pradhan, Rakesh R., additional, Eswaran, Mathan K., additional, Mandal, Mukunda, additional, Yan, Wenbo, additional, Seitkhan, Akmaral, additional, Babics, Maxime, additional, Subbiah, Anand S., additional, Ugur, Esma, additional, Xu, Fuzong, additional, Xu, Lujia, additional, Wang, Mingcong, additional, Rehman, Atteq ur, additional, Razzaq, Arsalan, additional, Kang, Jingxuan, additional, Azmi, Randi, additional, Said, Ahmed Ali, additional, Isikgor, Furkan H., additional, Allen, Thomas G., additional, Andrienko, Denis, additional, Schwingenschlögl, Udo, additional, Laquai, Frédéric, additional, and De Wolf, Stefaan, additional

Published
2022
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27. Monolithic Perovskite/Silicon Tandems with >28% Efficiency: Role of Silicon‐Surface Texture on Perovskite Properties.

Author

De Bastiani, Michele, Jalmood, Rawan, Liu, Jiang, Ossig, Christina, Vlk, Aleš, Vegso, Karol, Babics, Maxime, Isikgor, Furkan H., Selvin, Anand S., Azmi, Randi, Ugur, Esma, Banerjee, Swarnendu, Mirabelli, Alessandro J., Aydin, Erkan, Allen, Thomas G., Ur Rehman, Atteq, Van Kerschaver, Emmanuel, Siffalovic, Peter, Stuckelberger, Michael E., and Ledinsky, Martin

Subjects
PHOTOVOLTAIC power systems, SILICON solar cells, SOLAR cell manufacturing, PEROVSKITE, SILICON wafers, SILICON surfaces, OPTICAL spectroscopy
Abstract

Textured silicon wafers used in silicon solar cell manufacturing offer superior light trapping, which is a critical enabler for high‐performance photovoltaics. A similar optical benefit can be obtained in monolithic perovskite/silicon tandem solar cells, enhancing the current output of the silicon bottom cell. Yet, such complex silicon surfaces may affect the structural and optoelectronic properties of the overlying perovskite films. Here, through extensive characterization based on optical and microstructural spectroscopy, it is found that the main effect of such substrate morphology lies in an altering of the photoluminescence response of the perovskite, which is associated with thickness variations of the perovskite, rather than lattice strain or compositional changes. With this understanding, the design of high‐performance perovskite/silicon tandems is rationalized, yielding certified power conversion efficiencies of >28%. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Linked Nickel Oxide/Perovskite Interface Passivation for High‐Performance Textured Monolithic Tandem Solar Cells (Adv. Energy Mater. 40/2021)

Author

Zhumagali, Shynggys, primary, Isikgor, Furkan H., additional, Maity, Partha, additional, Yin, Jun, additional, Ugur, Esma, additional, De Bastiani, Michele, additional, Subbiah, Anand S., additional, Mirabelli, Alessandro James, additional, Azmi, Randi, additional, Harrison, George T., additional, Troughton, Joel, additional, Aydin, Erkan, additional, Liu, Jiang, additional, Allen, Thomas, additional, Rehman, Atteq ur, additional, Baran, Derya, additional, Mohammed, Omar F., additional, and De Wolf, Stefaan, additional

Published
2021
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30. Toward Stable Monolithic Perovskite/Silicon Tandem Photovoltaics: A Six-Month Outdoor Performance Study in a Hot and Humid Climate

Author

De Bastiani, Michele, primary, Van Kerschaver, Emmanuel, additional, Jeangros, Quentin, additional, Ur Rehman, Atteq, additional, Aydin, Erkan, additional, Isikgor, Furkan H., additional, Mirabelli, Alessandro J., additional, Babics, Maxime, additional, Liu, Jiang, additional, Zhumagali, Shynggys, additional, Ugur, Esma, additional, Harrison, George T., additional, Allen, Thomas G., additional, Chen, Bin, additional, Hou, Yi, additional, Shikin, Semen, additional, Sargent, Edward H., additional, Ballif, Christophe, additional, Salvador, Michael, additional, and De Wolf, Stefaan, additional

Published
2021
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31. Tin Oxide Electron-Selective Layers For Efficient, Stable, And Scalable Perovskite Solar Cells

Author

Altinkaya, Cesur, Aydin, Erkan, Ugur, Esma, Isikgor, Furkan H., Subbiah, Anand S., De Bastiani, Michele, Liu, Jiang, Babayigit, Aslihan, Allen, Thomas G., Laquai, Frederic, Yildiz, Abdullah, and De Wolf, Stefaan

Abstract

Perovskite solar cells (PSCs) have become a promising photovoltaic (PV) technology, where the evolution of the electron-selective layers (ESLs), an integral part of any PV device, has played a distinctive role to their progress. To date, the mesoporous titanium dioxide (TiO2)/compact TiO2 stack has been among the most used ESLs in state-of-the-art PSCs. However, this material requires high-temperature sintering and may induce hysteresis under operational conditions, raising concerns about its use toward commercialization. Recently, tin oxide (SnO2) has emerged as an attractive alternative ESL, thanks to its wide bandgap, high optical transmission, high carrier mobility, suitable band alignment with perovskites, and decent chemical stability. Additionally, its low-temperature processability enables compatibility with temperature-sensitive substrates, and thus flexible devices and tandem solar cells. Here, the notable developments of SnO2 as a perovskite-relevant ESL are reviewed with emphasis placed on the various fabrication methods and interfacial passivation routes toward champion solar cells with high stability. Further, a techno-economic analysis of SnO2 materials for large-scale deployment, together with a processing-toxicology assessment, is presented. Finally, a perspective on how SnO2 materials can be instrumental in successful large-scale module and perovskite-based tandem solar cell manufacturing is provided.

Published
2021

32. The multiple ways of making perovskite/silicon tandem solar cells: Which way to go?

Author

Aydin, Erkan, primary, De Wolf, Stefaan, additional, Subbiah, Anand S., additional, Liu, Jiang, additional, Ugur, Esma, additional, Azmi, Randi, additional, Allen, Thomas G., additional, De Bastiani, Michele, additional, Babics, Maxime, additional, Isikgor, Furkan H., additional, Chen, Bin, additional, Hou, Yi, additional, Laquai, Frédéric, additional, Sargent, Edward H., additional, and Rehman, Atteq ur, additional

Published
2021
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34. Tin Oxide Electron‐Selective Layers for Efficient, Stable, and Scalable Perovskite Solar Cells

Author

Altinkaya, Cesur, primary, Aydin, Erkan, additional, Ugur, Esma, additional, Isikgor, Furkan H., additional, Subbiah, Anand S., additional, De Bastiani, Michele, additional, Liu, Jiang, additional, Babayigit, Aslihan, additional, Allen, Thomas G., additional, Laquai, Frédéric, additional, Yildiz, Abdullah, additional, and De Wolf, Stefaan, additional

Published
2021
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35. Ligand-bridged charge extraction and enhanced quantum efficiency enable efficient n–i–p perovskite/silicon tandem solar cells

Author

Aydin, Erkan, primary, Liu, Jiang, additional, Ugur, Esma, additional, Azmi, Randi, additional, Harrison, George T., additional, Hou, Yi, additional, Chen, Bin, additional, Zhumagali, Shynggys, additional, De Bastiani, Michele, additional, Wang, Mingcong, additional, Raja, Waseem, additional, Allen, Thomas G., additional, Rehman, Atteq ur, additional, Subbiah, Anand S., additional, Babics, Maxime, additional, Babayigit, Aslihan, additional, Isikgor, Furkan H., additional, Wang, Kai, additional, Van Kerschaver, Emmanuel, additional, Tsetseris, Leonidas, additional, Sargent, Edward H., additional, Laquai, Frédéric, additional, and De Wolf, Stefaan, additional

Published
2021
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36. Self-Assembled Monolayer Enables Hole Transport Layer-Free Organic Solar Cells with 18% Efficiency and Improved Operational Stability

Author

Lin, Yuanbao, primary, Firdaus, Yuliar, additional, Isikgor, Furkan H., additional, Nugraha, Mohamad Insan, additional, Yengel, Emre, additional, Harrison, George T., additional, Hallani, Rawad, additional, El-Labban, Abdulrahman, additional, Faber, Hendrik, additional, Ma, Chun, additional, Zheng, Xiaopeng, additional, Subbiah, Anand, additional, Howells, Calvyn T., additional, Bakr, Osman M., additional, McCulloch, Iain, additional, Wolf, Stefaan De, additional, Tsetseris, Leonidas, additional, and Anthopoulos, Thomas D., additional

Published
2020
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37. High-Performance Perovskite Single-Junction and Textured Perovskite/Silicon Tandem Solar Cells via Slot-Die-Coating

Author

Subbiah, Anand S., primary, Isikgor, Furkan H., additional, Howells, Calvyn T., additional, De Bastiani, Michele, additional, Liu, Jiang, additional, Aydin, Erkan, additional, Furlan, Francesco, additional, Allen, Thomas G., additional, Xu, Fuzong, additional, Zhumagali, Shynggys, additional, Hoogland, Sjoerd, additional, Sargent, Edward H., additional, McCulloch, Iain, additional, and De Wolf, Stefaan, additional

Published
2020
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40. Efficient tandem solar cells with solution-processed perovskite on textured crystalline silicon

Author

Hou, Yi, primary, Aydin, Erkan, additional, De Bastiani, Michele, additional, Xiao, Chuanxiao, additional, Isikgor, Furkan H., additional, Xue, Ding-Jiang, additional, Chen, Bin, additional, Chen, Hao, additional, Bahrami, Behzad, additional, Chowdhury, Ashraful H., additional, Johnston, Andrew, additional, Baek, Se-Woong, additional, Huang, Ziru, additional, Wei, Mingyang, additional, Dong, Yitong, additional, Troughton, Joel, additional, Jalmood, Rawan, additional, Mirabelli, Alessandro J., additional, Allen, Thomas G., additional, Van Kerschaver, Emmanuel, additional, Saidaminov, Makhsud I., additional, Baran, Derya, additional, Qiao, Qiquan, additional, Zhu, Kai, additional, De Wolf, Stefaan, additional, and Sargent, Edward H., additional

Published
2020
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42. A universal solution processed interfacial bilayer enabling ohmic contact in organic and hybrid optoelectronic devices

Author

Troughton, Joel, primary, Neophytou, Marios, additional, Gasparini, Nicola, additional, Seitkhan, Akmaral, additional, Isikgor, Furkan H., additional, Song, Xin, additional, Lin, Yen-Hung, additional, Liu, Tong, additional, Faber, Hendrik, additional, Yengel, Emre, additional, Kosco, Jan, additional, Oszajca, Marek F., additional, Hartmeier, Benjamin, additional, Rossier, Michael, additional, Lüchinger, Norman A., additional, Tsetseris, Leonidas, additional, Snaith, Henry J., additional, De Wolf, Stefaan, additional, Anthopoulos, Thomas D., additional, McCulloch, Iain, additional, and Baran, Derya, additional

Published
2020
Full Text
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