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2. An open-access database and analysis tool for perovskite solar cells based on the FAIR data principles

Author

Jacobsson, T. Jesper, Hultqvist, Adam, García-Fernández, Alberto, Anand, Aman, Al-Ashouri, Amran, Hagfeldt, Anders, Crovetto, Andrea, Abate, Antonio, Ricciardulli, Antonio Gaetano, Vijayan, Anuja, Kulkarni, Ashish, Anderson, Assaf Y., Darwich, Barbara Primera, Yang, Bowen, Coles, Brendan L., Perini, Carlo A. R., Rehermann, Carolin, Ramirez, Daniel, Fairen-Jimenez, David, Di Girolamo, Diego, Jia, Donglin, Avila, Elena, Juarez-Perez, Emilio J., Baumann, Fanny, Mathies, Florian, González, G. S. Anaya, Boschloo, Gerrit, Nasti, Giuseppe, Paramasivam, Gopinath, Martínez-Denegri, Guillermo, Näsström, Hampus, Michaels, Hannes, Köbler, Hans, Wu, Hua, Benesperi, Iacopo, Dar, M. Ibrahim, Bayrak Pehlivan, Ilknur, Gould, Isaac E., Vagott, Jacob N., Dagar, Janardan, Kettle, Jeff, Yang, Jie, Li, Jinzhao, Smith, Joel A., Pascual, Jorge, Jerónimo-Rendón, Jose J., Montoya, Juan Felipe, Correa-Baena, Juan-Pablo, Qiu, Junming, Wang, Junxin, Sveinbjörnsson, Kári, Hirselandt, Katrin, Dey, Krishanu, Frohna, Kyle, Mathies, Lena, Castriotta, Luigi A., Aldamasy, Mahmoud. H., Vasquez-Montoya, Manuel, Ruiz-Preciado, Marco A., Flatken, Marion A., Khenkin, Mark V., Grischek, Max, Kedia, Mayank, Saliba, Michael, Anaya, Miguel, Veldhoen, Misha, Arora, Neha, Shargaieva, Oleksandra, Maus, Oliver, Game, Onkar S., Yudilevich, Ori, Fassl, Paul, Zhou, Qisen, Betancur, Rafael, Munir, Rahim, Patidar, Rahul, Stranks, Samuel D., Alam, Shahidul, Kar, Shaoni, Unold, Thomas, Abzieher, Tobias, Edvinsson, Tomas, David, Tudur Wyn, Paetzold, Ulrich W., Zia, Waqas, Fu, Weifei, Zuo, Weiwei, Schröder, Vincent R. F., Tress, Wolfgang, Zhang, Xiaoliang, Chiang, Yu-Hsien, Iqbal, Zafar, Xie, Zhiqiang, and Unger, Eva

Published
2022
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3. From Groundwork to Efficient Solar Cells: On the Importance of the Substrate Material in Co‐Evaporated Perovskite Solar Cells

Author

Abzieher, Tobias, Feeney, Thomas, Schackmar, Fabian, Donie, Yidenekachew J., Hossain, Ihteaz M., Schwenzer, Jonas A., Hellmann, Tim, Mayer, Thomas, Powalla, Michael, Paetzold, Ulrich W., Abzieher, Tobias, Feeney, Thomas, Schackmar, Fabian, Donie, Yidenekachew J., Hossain, Ihteaz M., Schwenzer, Jonas A., Hellmann, Tim, Mayer, Thomas, Powalla, Michael, and Paetzold, Ulrich W.

Abstract

Vacuum‐based deposition of optoelectronic thin films has a long‐standing history. However, in the field of perovskite‐based photovoltaics, these techniques are still not as advanced as their solution‐based counterparts. Although high‐efficiency vacuum‐based perovskite solar cells reaching power conversion efficiencies (PCEs) above 20% are reported, the number of studies on the underlying physical and chemical mechanism of the co‐evaporation of lead iodide and methylammonium iodide is low. In this study, the impact of one of the most crucial process parameters in vacuum processes — the substrate material — is studied. It is shown that not only the morphology of the co‐evaporated perovskite thin films is significantly influenced by the surface polarity of the substrate material, but also the incorporation of the organic compound into the perovskite framework. Based on these studies, a selection guide for suitable substrate materials for efficient co‐evaporated perovskite thin films is derived. This selection guide points out that the organic vacuum‐processable hole transport material 2,2″,7,7″‐tetra(N,N‐di‐p‐tolyl)amino‐9,9‐spirobifluorene is an ideal candidate for the fabrication of efficient all‐evaporated perovskite solar cells, demonstrating PCEs above 19%. Furthermore, building on the insights into the formation of the perovskite thin films on different substrate materials, a basic crystallization model for co‐evaporated perovskite thin films is suggested.

Published
2024

4. The Electronic Structure of MAPI‐Based Perovskite Solar Cells: Detailed Band Diagram Determination by Photoemission Spectroscopy Comparing Classical and Inverted Device Stacks

Author

Hellmann, Tim, Das, Chittaranjan, Abzieher, Tobias, Schwenzer, Jonas A., Wussler, Michael, Dachauer, Ralph, Paetzold, Ulrich W., Jaegermann, Wolfram, Mayer, Thomas, Hellmann, Tim, Das, Chittaranjan, Abzieher, Tobias, Schwenzer, Jonas A., Wussler, Michael, Dachauer, Ralph, Paetzold, Ulrich W., Jaegermann, Wolfram, and Mayer, Thomas

Abstract

High power conversion efficiency (PCE) perovskite solar cells (PSCs) rely on optimal alignment of the energy bands between the perovskite absorber and the adjacent charge extraction layers. However, since most of the materials and devices of high performance are prepared by solution‐based techniques, a deposition of films with thicknesses of a few nanometers and therefore a detailed analysis of surface and interface properties remains difficult. To identify the respective photoactive interfaces, photoelectron spectroscopy measurements are performed on device stacks of methylammonium‐lead‐iodide (MAPI)‐based PSCs in classical and inverted architectures in the dark and under illumination at open‐circuit conditions. The analysis shows that vacuum‐deposited MAPI perovskite absorber layers are n‐type, independent of the architecture and of the charge transport layer that it is deposited on (n‐type SnO₂ or p‐type NiOₓ). It is found that the majority of the photovoltage is formed at the n‐MAPI/p‐HEL (hole extraction layer) junction for both architectures, highlighting the importance of this interface for further improvement of the photovoltage and therefore also the PCE. Finally, an experimentally derived band diagram of the completed devices for the dark and the illuminated case is presented.

Published
2024

6. Continuous flash sublimation of inorganic halide perovskites: overcoming rate and continuity limitations of vapor deposition

Author

Abzieher, Tobias, primary, Muzzillo, Christopher P., additional, Mirzokarimov, Mirzo, additional, Lahti, Gabriella, additional, Kau, Wylie F., additional, Kroupa, Daniel M., additional, Cira, Spencer G., additional, Hillhouse, Hugh W., additional, Kirmani, Ahmad R., additional, Schall, Jackson, additional, Kern, Dana, additional, Luther, Joseph M., additional, and Moore, David T., additional

Published
2024
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7. Vapor Phase Deposition of Perovskite Photovoltaics: Short Track to Commercialization?

Author

Abzieher, Tobias, primary, Moore, David T., additional, Roß, Marcel, additional, Albrecht, Steve, additional, Silvia, Jared, additional, Tan, Hairen, additional, Jeangros, Quentin, additional, Ballif, Christophe, additional, Hoerantner, Maximilian, additional, Kim, Beom-Soo, additional, Bolink, Henk J., additional, Pistor, Paul, additional, Goldschmidt, Jan Christoph, additional, Chiang, Yu-Hsien, additional, Stranks, Samuel D, additional, Borchert, Juliane, additional, McGehee, Michael D., additional, Morales-Masis, Monica, additional, Patel, Jay, additional, Bruno, Annalisa, additional, and Paetzold, Ulrich Wilhelm, additional

Published
2024
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8. Translucent Perovskite Photovoltaics for Building-Integration

Author

Ritzer, David Benedikt, primary, Abdollahi Nejand, Bahram, additional, Preciado-Ruiz, Marco Alejandro, additional, Gharibzadeh, Saba, additional, Hu, Hang, additional, Diercks, Alexander, additional, Feeney, Thomas, additional, Richards, Bryce S, additional, Abzieher, Tobias, additional, and Paetzold, Ulrich Wilhelm, additional

Published
2023
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14. Optimization of SnO2 electron transport layer for efficient planar perovskite solar cells with very low hysteresis

Author

Eliwi, Abed Alrhman, primary, Malekshahi Byranvand, Mahdi, additional, Fassl, Paul, additional, Khan, Motiur Rahman, additional, Hossain, Ihteaz Muhaimeen, additional, Frericks, Markus, additional, Ternes, Simon, additional, Abzieher, Tobias, additional, Schwenzer, Jonas A., additional, Mayer, Thomas, additional, Hofmann, Jan P., additional, Richards, Bryce S., additional, Lemmer, Uli, additional, Saliba, Michael, additional, and Paetzold, Ulrich W., additional

Published
2022
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15. An open-access database and analysis tool for perovskite solar cells based on the FAIR data principles

Author

Jacobsson, T. Jesper, primary, Hultqvist, Adam, additional, García-Fernández, Alberto, additional, Anand, Aman, additional, Al-Ashouri, Amran, additional, Hagfeldt, Anders, additional, Crovetto, Andrea, additional, Abate, Antonio, additional, Ricciardulli, Antonio Gaetano, additional, Vijayan, Anuja, additional, Kulkarni, Ashish, additional, Anderson, Assaf Y., additional, Darwich, Barbara Primera, additional, Yang, Bowen, additional, Coles, Brendan L., additional, Perini, Carlo A. R., additional, Rehermann, Carolin, additional, Ramirez, Daniel, additional, Fairen-Jimenez, David, additional, Di Girolamo, Diego, additional, Jia, Donglin, additional, Avila, Elena, additional, Juarez-Perez, Emilio J., additional, Baumann, Fanny, additional, Mathies, Florian, additional, González, G. S. Anaya, additional, Boschloo, Gerrit, additional, Nasti, Giuseppe, additional, Paramasivam, Gopinath, additional, Martínez-Denegri, Guillermo, additional, Näsström, Hampus, additional, Michaels, Hannes, additional, Köbler, Hans, additional, Wu, Hua, additional, Benesperi, Iacopo, additional, Dar, M. Ibrahim, additional, Bayrak Pehlivan, Ilknur, additional, Gould, Isaac E., additional, Vagott, Jacob N., additional, Dagar, Janardan, additional, Kettle, Jeff, additional, Yang, Jie, additional, Li, Jinzhao, additional, Smith, Joel A., additional, Pascual, Jorge, additional, Jerónimo-Rendón, Jose J., additional, Montoya, Juan Felipe, additional, Correa-Baena, Juan-Pablo, additional, Qiu, Junming, additional, Wang, Junxin, additional, Sveinbjörnsson, Kári, additional, Hirselandt, Katrin, additional, Dey, Krishanu, additional, Frohna, Kyle, additional, Mathies, Lena, additional, Castriotta, Luigi A., additional, Aldamasy, Mahmoud. H., additional, Vasquez-Montoya, Manuel, additional, Ruiz-Preciado, Marco A., additional, Flatken, Marion A., additional, Khenkin, Mark V., additional, Grischek, Max, additional, Kedia, Mayank, additional, Saliba, Michael, additional, Anaya, Miguel, additional, Veldhoen, Misha, additional, Arora, Neha, additional, Shargaieva, Oleksandra, additional, Maus, Oliver, additional, Game, Onkar S., additional, Yudilevich, Ori, additional, Fassl, Paul, additional, Zhou, Qisen, additional, Betancur, Rafael, additional, Munir, Rahim, additional, Patidar, Rahul, additional, Stranks, Samuel D., additional, Alam, Shahidul, additional, Kar, Shaoni, additional, Unold, Thomas, additional, Abzieher, Tobias, additional, Edvinsson, Tomas, additional, David, Tudur Wyn, additional, Paetzold, Ulrich W., additional, Zia, Waqas, additional, Fu, Weifei, additional, Zuo, Weiwei, additional, Schröder, Vincent R. F., additional, Tress, Wolfgang, additional, Zhang, Xiaoliang, additional, Chiang, Yu-Hsien, additional, Iqbal, Zafar, additional, Xie, Zhiqiang, additional, and Unger, Eva, additional

Published
2021
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17. Two Birds with One Stone: Dual Grain-Boundary and Interface Passivation Enables > 22% Efficient Inverted Methylammonium-Free Perovskite Solar Cells

Author

Fassl, Paul, primary, Paetzold, Ulrich W., additional, Hossain, Ihteaz M., additional, Rohrbeck, Pascal, additional, Frericks, Markus, additional, Schmidt, Moritz, additional, Duong, The, additional, Rahman Kahn, Motiur, additional, Abzieher, Tobias, additional, Gharibzadeh, Saba, additional, Schackmar, Fabian, additional, Almora, Osbel, additional, Feeney, Thomas, additional, Singh, Roja, additional, Fuchs, Dirk, additional, Lemmer, Uli, additional, Hofmann, Jan P., additional, Weber, Stefan A. L., additional, and Abdollahi Nejand, Bahram, additional

Published
2021
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19. Optimization of SnO$_{2}$ electron transport layer for efficient planar perovskite solar cells with very low hysteresis†

Author

Eliwi, Abed Alrhman, Malekshahi Byranvand, Mahdi, Fassl, Paul, Khan, Motiur Rahman, Hossain, Ihteaz Muhaimeen, Frericks, Markus, Ternes, Simon, Abzieher, Tobias, Schwenzer, Jonas A., Mayer, Thomas, Hofmann, Jan P., Richards, Bryce S., Lemmer, Uli, Saliba, Michael, and Paetzold, Ulrich W.

Subjects
ddc:620, Engineering & allied operations
Abstract

Nanostructured tin oxide (SnO$_{2}$) is a very promising electron transport layer (ETL) for perovskite solar cells (PSCs) that allows low-temperature processing in the planar n–i–p architecture. However, minimizing current–voltage (J–V) hysteresis and optimizing charge extraction for PSCs in this architecture remains a challenge. In response to this, we study and optimize different types of single- and bilayer SnO$_{2}$ ETLs. Detailed characterization of the optoelectronic properties reveals that a bilayer ETL composed of lithium (Li)-doped compact SnO$_{2}$ (c(Li)-SnO$_{2}$) at the bottom and potassium-capped SnO$_{2}$ nanoparticle layers (NP-SnO$_{2}$) at the top enhances the electron extraction and charge transport properties of PSCs and reduces the degree of ion migration. This results in an improved PCE and a strongly reduced J–V hysteresis for PSCs with a bilayer c(Li)-NP-SnO$_{2}$ ETL as compared to reference PSCs with a single-layer or undoped bilayer ETL. The champion PSC with c(Li)-NP-SnO$_{2}$ ETL shows a high stabilized PCE of up to 18.5% compared to 15.7%, 12.5% and 16.3% for PSCs with c-SnO$_{2}$, c(Li)-SnO$_{2}$ and c-NP-SnO$_{2}$ as ETL, respectively.

Published
2021

20. Co-evaporation of CH3NH3PbI3: How Growth Conditions Impact Phase Purity, Photostriction, and Intrinsic Stability

Author

Fonds National de la Recherche - FnR [sponsor], Gallet, Thibaut, Goncalinho Poeira, Ricardo Jorge, Martin Lanzoni, Evandro, Abzieher, Tobias, Paetzold, Ulrich W., Redinger, Alex, Fonds National de la Recherche - FnR [sponsor], Gallet, Thibaut, Goncalinho Poeira, Ricardo Jorge, Martin Lanzoni, Evandro, Abzieher, Tobias, Paetzold, Ulrich W., and Redinger, Alex

Abstract

Hybrid organic–inorganic perovskites are highly promising candidates for the upcoming generation of single- and multijunction solar cells. Despite their extraordinarily good semiconducting properties, there is a need to increase the intrinsic material stability against heat, moisture, and light exposure. Understanding how variations in synthesis affect the bulk and surface stability is therefore of paramount importance to achieve a rapid commercialization on large scales. In this work, we show for the case of methylammonium lead iodide that a thorough control of the methylammonium iodide (MAI) partial pressure during co-evaporation is essential to limit photostriction and reach phase purity, which dictate the absorber stability. Kelvin probe force microscopy measurements in ultrahigh vacuum corroborate that off-stoichiometric absorbers prepared with an excess of MAI partial pressure exhibit traces of low-dimensional (two-dimensional, 2D) perovskites and stacking faults that have adverse effects on the intrinsic material stability. Under optimized growth conditions, time-resolved photoluminescence and work functions mapping corroborate that the perovskite films are less prone to heat and light degradation.

Published
2021

23. Vacuum‐Assisted Growth of Low‐Bandgap Thin Films (FA$_{0.8}$MA$_{0.2}$Sn$_{0.5}$Pb$_{0.5}$I$_{3}$) for All‐Perovskite Tandem Solar Cells

Author

Abdollahi Nejand, Bahram, Hossain, Ihteaz M., Jakoby, Marius, Moghadamzadeh, Somayeh, Abzieher, Tobias, Gharibzadeh, Saba, Schwenzer, Jonas A., Nazari, Pariya, Schackmar, Fabian, Hauschild, Dirk, Weinhardt, Lothar, Lemmer, Uli, Richards, Bryce S., Howard, Ian A., and Paetzold, Ulrich W.

Subjects
Technology, ddc:600
Abstract

All-perovskite multijunction photovoltaics, combining a wide-bandgap (WBG) perovskite top solar cell (EG ≈1.6–1.8 eV) with a low-bandgap (LBG) perovskite bottom solar cell (EG < 1.3 eV), promise power conversion efficiencies (PCEs) >33%. While the research on WBG perovskite solar cells has advanced rapidly over the past decade, LBG perovskite solar cells lack PCE as well as stability. In this work, vacuum-assisted growth control (VAGC) of solution-processed LBG perovskite thin films based on mixed Sn–Pb perovskite compositions is reported. The reported perovskite thin films processed by VAGC exhibit large columnar crystals. Compared to the well-established processing of LBG perovskites via antisolvent deposition, the VAGC approach results in a significantly enhanced charge-carrier lifetime. The improved optoelectronic characteristics enable high-performance LBG perovskite solar cells (1.27 eV) with PCEs up to 18.2% as well as very efficient four-terminal all-perovskite tandem solar cells with PCEs up to 23%. Moreover, VAGC leads to promising reproducibility and potential in the fabrication of larger active-area solar cells up to 1 cm².

Published
2020
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24. Thermische Koverdampfung von hybriden Perowskit-Halbleitern für den Einsatz in Solarzellen

Author

Abzieher, Tobias Benjamin and Powalla, M.

Subjects
Perowskit, Halbleiterphysik, Erneuerbare Energien, Aufskalierung, Koverdampfung, Solarzellen, Materialwissenschaften, Photovoltaik, ddc:620, Vakuumprozessierung, Stabilität, Metalloxide, Engineering & allied operations, Tandem-Solarzellen
Abstract

Metallorganische Perowskit-Materialien gehören zu einer der herausragendsten Materialklassen der Photovoltaik. Während der Fokus der Forschung heute in erster Linie auf lösungsbasierten Verfahren für die Abscheidung der funktionalen Schichten der Perowskit-Solarzelle liegt, befasst sich diese Dissertation mit der Abscheidung von planaren Perowskit-Solarzellen mittels vakuumbasierten Verfahren. Es wird gezeigt, dass die Abscheidung des Absorbers über die Koverdampfung von Bleiiodid und Methylammoniumiodid aufgrund des hohen Dampfdruckes der organischen Komponente besondere Anforderungen an die Auslegung der Aufdampfanlage sowie die Prozesskontrolle stellt. Unter Berücksichtigung dieser spezifischen Anforderungen wird ein Prozess entwickelt, der die Herstellung von Solarzellen mit stabilisierten Wirkungsgraden von über 18 % erlaubt. Es wird weiter gezeigt, dass auch die Wahl des Substratmaterials die Morphologie des Absorbers sowie dessen optoelektronische Eigenschaften entscheidend beeinflusst. Basierend darauf erfolgt die Entwicklung hocheffizienter elektronenstrahlverdampfter Lochleiterschichten auf Basis von Nickeloxid, deren Integration in Solarzellen Wirkungsgrade bis knapp 21 % ermöglichen. In einem folgenden Kapitel wird das Konzept der vollständig vakuumprozessierten Perowskit-Solarzellen präsentiert. Dabei erweisen sich diese Solarzellen vor allem im Hinblick auf die Skalierbarkeit der Abscheidung, die anhand eines ersten in der Literatur berichteten vakuumprozessierten Prototyp-Solarmoduls veranschaulicht wird, als besonders vielversprechend. Wegen ihrer homogenen Abscheidung werden vakuumprozessierte Solarzellen weiter als idealer Kandidat für den Einsatz in Tandem-Solarzellen auf rauem CIGS oder texturiertem Silizium identifiziert.

Published
2020

26. Two birds with one stone: dual grain-boundary and interface passivation enables >22% efficient inverted methylammonium-free perovskite solar cells

Author

Gharibzadeh, Saba, primary, Fassl, Paul, additional, Hossain, Ihteaz M., additional, Rohrbeck, Pascal, additional, Frericks, Markus, additional, Schmidt, Moritz, additional, Duong, The, additional, Khan, Motiur Rahman, additional, Abzieher, Tobias, additional, Nejand, Bahram Abdollahi, additional, Schackmar, Fabian, additional, Almora, Osbel, additional, Feeney, Thomas, additional, Singh, Roja, additional, Fuchs, Dirk, additional, Lemmer, Uli, additional, Hofmann, Jan P., additional, Weber, Stefan A. L., additional, and Paetzold, Ulrich W., additional

Published
2021
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27. Upscaling of perovskite solar modules: The synergy of fully evaporated layer fabrication and all‐laser‐scribed interconnections.

Author

Ritzer, David B., Abzieher, Tobias, Basibüyük, Agit, Feeney, Thomas, Laufer, Felix, Ternes, Simon, Richards, Bryce S., Bergfeld, Stefan, and Paetzold, Ulrich W.

Subjects
PEROVSKITE, VACUUM deposition, SOLAR cells, THIN films, PHOTOVOLTAIC power generation
Abstract

Given the outstanding progress in research over the past decade, perovskite photovoltaics (PV) is about to step up from laboratory prototypes to commercial products. For this to happen, realizing scalable processes to allow the technology to transition from solar cells to modules is pivotal. This work presents all‐evaporated perovskite PV modules with all thin films coated by established vacuum deposition processes. A common 532‐nm nanosecond laser source is employed to realize all three interconnection lines of the solar modules. The resulting module interconnections exhibit low series resistance and a small total lateral extension down to 160 μm. In comparison with interconnection fabrication approaches utilizing multiple scribing tools, the process complexity is reduced while the obtained geometrical fill factor of 96% is comparable with established inorganic thin‐film PV technologies. The all‐evaporated perovskite minimodules demonstrate power conversion efficiencies of 18.0% and 16.6% on aperture areas of 4 and 51 cm2, respectively. Most importantly, the all‐evaporated minimodules exhibit only minimal upscaling losses as low as 3.1%rel per decade of upscaled area, at the same time being the most efficient perovskite PV minimodules based on an all‐evaporated layer stack sequence. [ABSTRACT FROM AUTHOR]

Published
2022
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28. The Electronic Structure of MAPI‐Based Perovskite Solar Cells: Detailed Band Diagram Determination by Photoemission Spectroscopy Comparing Classical and Inverted Device Stacks

Author

Hellmann, Tim, primary, Das, Chittaranjan, additional, Abzieher, Tobias, additional, Schwenzer, Jonas A., additional, Wussler, Michael, additional, Dachauer, Ralph, additional, Paetzold, Ulrich W., additional, Jaegermann, Wolfram, additional, and Mayer, Thomas, additional

Published
2020
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31. Toward Stable Perovskite Solar Cell Architectures: Robustness Against Temperature Variations of Real-World Conditions

Author

Schwenzer, Jonas A., primary, Rakocevic, Lucija, additional, Abzieher, Tobias, additional, Rueda-Delgado, Diana, additional, Moghadamzadeh, Somayeh, additional, Gharibzadeh, Saba, additional, Hossain, Ihteaz M., additional, Gehlhaar, Robert, additional, Richards, Bryce S., additional, Lemmer, Uli, additional, and Paetzold, Ulrich W., additional

Published
2020
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32. Flexible Inkjet-Printed Triple Cation Perovskite X-ray Detectors

Author

Mescher, Henning, primary, Schackmar, Fabian, additional, Eggers, Helge, additional, Abzieher, Tobias, additional, Zuber, Marcus, additional, Hamann, Elias, additional, Baumbach, Tilo, additional, Richards, Bryce S., additional, Hernandez-Sosa, Gerardo, additional, Paetzold, Ulrich W., additional, and Lemmer, Uli, additional

Published
2020
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33. 2D/3D Heterostructure for Semitransparent Perovskite Solar Cells with Engineered Bandgap Enables Efficiencies Exceeding 25% in Four‐Terminal Tandems with Silicon and CIGS

Author

Gharibzadeh, Saba, primary, Hossain, Ihteaz M., additional, Fassl, Paul, additional, Nejand, Bahram Abdollahi, additional, Abzieher, Tobias, additional, Schultes, Moritz, additional, Ahlswede, Erik, additional, Jackson, Philip, additional, Powalla, Michael, additional, Schäfer, Sören, additional, Rienäcker, Michael, additional, Wietler, Tobias, additional, Peibst, Robby, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, and Paetzold, Ulrich W., additional

Published
2020
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34. Tandem Solar Cells: Vacuum‐Assisted Growth of Low‐Bandgap Thin Films (FA 0.8 MA 0.2 Sn 0.5 Pb 0.5 I 3 ) for All‐Perovskite Tandem Solar Cells (Adv. Energy Mater. 5/2020)

Author

Abdollahi Nejand, Bahram, primary, Hossain, Ihteaz M., additional, Jakoby, Marius, additional, Moghadamzadeh, Somayeh, additional, Abzieher, Tobias, additional, Gharibzadeh, Saba, additional, Schwenzer, Jonas A., additional, Nazari, Pariya, additional, Schackmar, Fabian, additional, Hauschild, Dirk, additional, Weinhardt, Lothar, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, Howard, Ian A., additional, and Paetzold, Ulrich W., additional

Published
2020
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37. Spontaneous enhancement of the stable power conversion efficiency in perovskite solar cells

Author

Moghadamzadeh, Somayeh, primary, Hossain, Ihteaz M., additional, Jakoby, Marius, additional, Abdollahi Nejand, Bahram, additional, Rueda-Delgado, Diana, additional, Schwenzer, Jonas A., additional, Gharibzadeh, Saba, additional, Abzieher, Tobias, additional, Khan, Motiur Rahman, additional, Haghighirad, Amir A., additional, Howard, Ian A., additional, Richards, Bryce S., additional, Lemmer, Uli, additional, and Paetzold, Ulrich W., additional

Published
2020
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40. Vacuum‐Assisted Growth of Low‐Bandgap Thin Films (FA 0.8 MA 0.2 Sn 0.5 Pb 0.5 I 3 ) for All‐Perovskite Tandem Solar Cells

Author

Abdollahi Nejand, Bahram, primary, Hossain, Ihteaz M., additional, Jakoby, Marius, additional, Moghadamzadeh, Somayeh, additional, Abzieher, Tobias, additional, Gharibzadeh, Saba, additional, Schwenzer, Jonas A., additional, Nazari, Pariya, additional, Schackmar, Fabian, additional, Hauschild, Dirk, additional, Weinhardt, Lothar, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, Howard, Ian A., additional, and Paetzold, Ulrich W., additional

Published
2019
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41. Drying Dynamics of Solution-Processed Perovskite Thin-Film Photovoltaics: In Situ Characterization, Modeling, and Process Control

Author

Ternes, Simon, Börnhorst, Tobias, Schwenzer, Jonas A., Hossain, Ihteaz M., Abzieher, Tobias, Mehlmann, Waldemar, Lemmer, Uli, Scharfer, Philip, Schabel, Wilhelm, Richards, Bryce S., and Paetzold, Ulrich W.

Abstract

A key challenge for the commercialization of perovskite photovoltaics is the transfer of high-quality spin coated perovskite thin-films toward applying industry-scale thin-film deposition techniques, such as slot-die coating, spray coating, screen printing, or inkjet printing. Due to the complexity of the formation of polycrystalline perovskite thin-films from the precursor solution, efficient strategies for process transfer require advancing the understanding of the involved dynamic processes. This work investigates the fundamental interrelation between the drying dynamics of the precursor solution thin-film and the quality of the blade coated polycrystalline perovskite thin-films. Precisely defined drying conditions are established using a temperature-stabilized drying channel purged with a laminar flow of dry air. The dedicated channel is equipped with laser reflectometry at multiple probing positions, allowing for in situ monitoring of the perovskite solution thin-film thickness during the drying process. Based on the drying dynamics as measured at varying drying parameters, namely at varying temperature and laminar air flow velocity, a quantitative model on the drying of perovskite thin-films is derived. This model enables process transfer to industry-scale deposition systems beyond brute force optimization. Via this approach, homogeneous and pinhole-free blade coated perovskite thin-films are fabricated, demonstrating high power conversion efficiencies of up to 19.5% (17.3% stabilized) in perovskite solar cells.

Published
2019
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42. Perovskite/Hole Transport Layer Interface Improvement by Solvent Engineering of Spiro-OMeTAD Precursor Solution

Author

Taherianfard, Hossein, primary, Kim, Guan-Woo, additional, Ebadi, Firouzeh, additional, Abzieher, Tobias, additional, Choi, Kyoungwon, additional, Paetzold, Ulrich W., additional, Richards, Bryce S., additional, Alrhman Eliwi, Abed, additional, Tajabadi, Fariba, additional, Taghavinia, Nima, additional, and Malekshahi Byranvand, Mahdi, additional

Published
2019
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43. Efficient All-Evaporated pin-Perovskite Solar Cells: A Promising Approach Toward Industrial Large-Scale Fabrication

Author

Abzieher, Tobias, primary, Schwenzer, Jonas A., additional, Moghadamzadeh, Somayeh, additional, Sutterluti, Florian, additional, Hossain, Ihteaz M., additional, Pfau, Michael, additional, Lotter, Erwin, additional, Hetterich, Michael, additional, Richards, Bryce S., additional, Lemmer, Uli, additional, Powalla, Michael, additional, and Paetzold, Ulrich W., additional

Published
2019
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44. Drying Dynamics of Solution‐Processed Perovskite Thin‐Film Photovoltaics: In Situ Characterization, Modeling, and Process Control

Author

Ternes, Simon, primary, Börnhorst, Tobias, additional, Schwenzer, Jonas A., additional, Hossain, Ihteaz M., additional, Abzieher, Tobias, additional, Mehlmann, Waldemar, additional, Lemmer, Uli, additional, Scharfer, Philip, additional, Schabel, Wilhelm, additional, Richards, Bryce S., additional, and Paetzold, Ulrich W., additional

Published
2019
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45. Perovskite Tandem Photovoltaics: Employing 2D/3D Perovskite Heterostructure for Perovskite Top Solar Cell with Engineered Bandgap

Author

Fassl, Paul, primary, Powala, Michael, additional, Hossain, Ihteaz M., additional, Nejand, Bahram A., additional, Abzieher, Tobias, additional, Schultes, Moritz, additional, Ahlswede, Erik, additional, Jackson, Philip, additional, Gharibzadeh, Saba, additional, Schäfer, Sören, additional, Rienäcker, Michael, additional, Wietler, Tobias, additional, Peibst, Robby, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, and Paetzold, Ulrich W., additional

Published
2019
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47. High Open-Circuit Voltage in Wide-Bandgap Perovskite Photovoltaics with Passivation Layers Based on Large Cations

Author

Gharibzadeh, Saba, primary, Lemmer, Uli, additional, Richards, Bryce S., additional, Howard, Ian A., additional, Paetzold, Ulrich W., additional, Nejand, Bahram Abdollahi, additional, Jakoby, Marius, additional, Abzieher, Tobias, additional, Moghadamzadeh, Somayeh, additional, Schwenzer, Jonas A., additional, Brenner, Philipp, additional, Schmager, Raphael, additional, and Haghighirad, Amir Abbas, additional

Published
2019
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48. Perovskite Solar Cells: Record Open‐Circuit Voltage Wide‐Bandgap Perovskite Solar Cells Utilizing 2D/3D Perovskite Heterostructure (Adv. Energy Mater. 21/2019)

Author

Gharibzadeh, Saba, primary, Abdollahi Nejand, Bahram, additional, Jakoby, Marius, additional, Abzieher, Tobias, additional, Hauschild, Dirk, additional, Moghadamzadeh, Somayeh, additional, Schwenzer, Jonas A., additional, Brenner, Philipp, additional, Schmager, Raphael, additional, Haghighirad, Amir Abbas, additional, Weinhardt, Lothar, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, Howard, Ian A., additional, and Paetzold, Ulrich W., additional

Published
2019
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49. Record Open‐Circuit Voltage Wide‐Bandgap Perovskite Solar Cells Utilizing 2D/3D Perovskite Heterostructure

Author

Gharibzadeh, Saba, primary, Abdollahi Nejand, Bahram, additional, Jakoby, Marius, additional, Abzieher, Tobias, additional, Hauschild, Dirk, additional, Moghadamzadeh, Somayeh, additional, Schwenzer, Jonas A., additional, Brenner, Philipp, additional, Schmager, Raphael, additional, Haghighirad, Amir Abbas, additional, Weinhardt, Lothar, additional, Lemmer, Uli, additional, Richards, Bryce S., additional, Howard, Ian A., additional, and Paetzold, Ulrich W., additional

Published
2019
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