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Publications

only work for peer-reviewed journals listed

2024

  • Thiesbrummel, J., Shah, S., Gutierrez-Partida, E., Zu, F., Peña-Camargo, F., Zeiske, S., ... & Stolterfoht, M. (2024). Ion-induced field screening as a dominant factor in perovskite solar cell operational stability. Nature Energy, 1-13. https://doi.org/10.1038/s41560-024-01487-w
  • Yudco, S., & Etgar, L. (2024). Ruddlesden–Popper and Dion–Jacobson Perovskites in Multiple Quantum Wells Light‐Emitting Diodes. Advanced Optical Materials, 12(13), 2302592.https://doi.org/10.1002/adom.202302592
  • A. Py-Renaudie, Y. Soffer, P. Singh, S. Kumar, D. R. Ceratti, Y. Mualem, I. Rosenhek-Goldian, D. Oron, S. R. Cohen, P. Schulz, D. Cahen, J.-F. Guillemoles, Guided Search to Self-Healing in Semiconductors. Adv. Funct. Mater. 2024, 34, 2309107. https://doi.org/10.1002/adfm.202309107
  • Levine, I., Menzel, D., Musiienko, A., MacQueen, R., Romano, N., Vasquez-Montoya, M., ... & Dittrich, T. (2024). Revisiting Sub-Band Gap Emission Mechanism in 2D Halide Perovskites: The Role of Defect States. Journal of the American Chemical Society, 146(33), 23437-23448.https://doi.org/10.1021/jacs.4c06621
  • Khenkin, M., & Albrecht, S. (2024). The way to predict outdoor lifetime. Nature Energy, 9(1), 12-13. DOI: 10.1038/s41560-023-01419-0 
  • Jasti, N. P., Levine, I., Feldman, Y., Hodes, G., Aharon, S., & Cahen, D. (2024). Experimental evidence for defect tolerance in Pb-halide perovskites. Proceedings of the National Academy of Sciences, 121(18), e2316867121. https://doi.org/10.1073/pnas.2316867121
  • Vashishtha, A., Subila, K. B., Dror, Y., Kumar, J., Priyakumari, C. P., & Edri, E. (2024). What can chemical bonding tell us about photoinduced self-healing reactions in inorganic semiconductors? Insight from Bismuth-Antimony Selenide, https://doi.org/10.26434/chemrxiv-2024-b74fc
  • Khenkin, M., Köbler, H., Remec, M., Roy, R., Erdil, U., Li, J., ... & Abate, A. (2024). Light cycling as a key to understanding the outdoor behaviour of perovskite solar cells. Energy & Environmental Science, 17(2), 602-610. https://doi.org/10.1039/D3EE03508E
  • Remec, M., Tomšič, Š., Khenkin, M., Emery, Q., Li, J., Scheler, F., ... & Topič, M. (2024). From Sunrise to Sunset: Unraveling Metastability in Perovskite Solar Cells by Coupled Outdoor Testing and Energy Yield Modelling. Advanced Energy Materials, 2304452. https://doi.org/10.1002/aenm.202304452
  • Präg, R., Kölbach, M., Abdi, F. F., Ahmet, I. Y., Schleuning, M., Friedrich, D., & van de Krol, R. (2024). Photoelectrochemical Properties of CuFeO2 Photocathodes Prepared by Pulsed Laser Deposition. Chemistry of Materials, 36(16), 7764-7780. https://doi.org/10.1021/acs.chemmater.4c00903
  • D. Abou-Ras, Microscopic origins of radiative performance losses in thin-film solar cells, J. Vac. Sci. Techn. A 42 (2024) 022803, invited contribution to the Special Topic Collection honoring the seminal and interdisciplinary contributions of Professor Joe Greene, https://doi.org/10.1116/6.0003364
  • J. Quirk, M. Rothmann, W. Li, D. Abou-Ras, K.P. McKenna, Grain boundaries in polycrystalline materials for energy applications: first principles modeling and electron microscopy, Appl. Phys. Rev. 11 (2024) 011308 (invited), doi: 10.1063/5.0175150.

2023

  • Saliba, M., Unger, E., Etgar, L., Luo, J., & Jacobsson, T. J. (2023). A systematic discrepancy between the short circuit current and the integrated quantum efficiency in perovskite solar cells. Nature Communications, 14(1), 5445. https://doi.org/10.1038/s41467-023-41263-0
  • Mariotti, S., Köhnen, E., Scheler, F., Sveinbjörnsson, K., Zimmermann, L., Piot, M., ... & Albrecht, S. (2023). Interface engineering for high-performance, triple-halide perovskite–silicon tandem solar cells. Science, 381(6653), 63-69. https://doi.org/10.1126/science.adf5872
  • Kafedjiska, I., Levine, I., Musiienko, A., Maticiuc, N., Bertram, T., Al‐Ashouri, A., ... & Lauermann, I. (2023). Advanced characterization and optimization of NiOx: Cu‐SAM hole‐transporting bi‐layer for 23.4% efficient monolithic Cu (In, Ga) Se2‐perovskite tandem solar cells. Advanced Functional Materials, 33(34), 2302924.
  • Bat-El Cohen, Ron Alafi, Jonathan Beinglass, Adva Shpatz Dayan, Oren Goldberg, Shachar Gold, Isaac Balberg, Leeor Kronik, Lioz Etgar, Oded Millo, and Doron Azulay, In-gap states and carrier recombination in quasi-2D perovskite films, Solar RRL, 2300813 (2023). DOI: 10.1002/solr.202300813
  • Harari, Y., Pathak, C. S., & Edri, E. (2023). Molecular relays in nanometer-scale alumina: effective encapsulation for water-submersed halide perovskite photocathodes. Nanoscale, 15(10), 4951-4961. http://dx.doi.org/10.1039/D2NR06530D
  • I. Susic, A. Kama, L. Gil-Escrig, C. Dreessen, F. Palazon, D. Cahen, M. Sessolo, H. J. Bolink, Combinatorial Vacuum-Deposition of Wide Bandgap Perovskite Films and Solar Cells. Adv. Mater. Interfaces 2023, 10, 2202271. https://doi.org/10.1002/admi.202202271
  • Binyamin, T., Cohen, O., Cohen, I., & Etgar, L. (2023). Controlled assembly of perovskite nanoparticles by photoswitchable functional ligands. Journal of Physics: Energy, 5(3), 035011. http://dx.doi.org/10.1088/2515-7655/ace7f5
  • Li, J., Dagar, J., Shargaieva, O., Maus, O., Remec, M., Emery, Q., ... & Unger, E. (2023). Ink Design Enabling Slot‐Die Coated Perovskite Solar Cells with> 22% Power Conversion Efficiency, Micro‐Modules, and 1 Year of Outdoor Performance Evaluation. Advanced Energy Materials, 13(33), 2203898.
  • Singh, P., Soffer, Y., Ceratti, D. R., Elbaum, M., Oron, D., Hodes, G., & Cahen, D. (2023). A-site cation dependence of self-healing in polycrystalline APbI3 perovskite films. ACS Energy Letters, 8(5), 2447-2455. https://doi.org/10.1021/acsenergylett.3c00017
  • Vashishtha, A., Kumar, J., Singh, N., & Edri, E. (2023). Surface potential variation across (hk1) and non-(hk1) grain boundaries of antimony triselenide. Journal of Alloys and Compounds, 948, 169714. https://doi.org/10.1016/j.jallcom.2023.169714
  • F. Yang, P. Tockhorn, A. Musiienko, F. Lang, D. Menzel, R. Macqueen, E. Köhnen, K. Xu, S. Mariotti, D. Mantione, L. Merten, A. Hinderhofer, B. Li, D.R. Wargulski, S.P. Harvey, J. Zhang, F. Scheler, S. Berwig, M. Roß, J. Thiesbrummel, A. Al-Ashouri, K.O. Brinkmann, T. Riedl, F. Schreiber, D. Abou-Ras, H. Snaith, Dieter Neher, L. Korte, M. Stolterfoht, S. Albrecht, Minimizing Interfacial Recombination in 1.8 eV Triple-Halide Perovskites for 27.2% Efficient All-Perovskite Tandems, Adv. Mater. 36 (2023) 2307743, doi: 10.1002/adma.202307743
  • S. Caicedo-Dávila, P. Caprioglio, F. Lehmann, S. Levcenco, M. Stolterfoht, D. Neher, L. Kronik, D. Abou-Ras, Effects of Quantum and Dielectric Confinement on the Emission of Cs-Pb-Br Composites, Adv. Func. Mater. 33 (2023) 2305240, doi: 10.1002/adfm.202305240
  • H. Funk, T. Binyamin, L. Etgar, O. Shargaieva, T. Unold, A. Eljarrat, C.T. Koch, D. Abou-Ras, Phase segregation in mixed-halide perovskite nanocrystals in dependence of their sizes and their initial halide ratios, ACS Materials Au 3 (2023) 687-698 (invited), doi: 10.1021/acsmaterialsau.3c00056
  • D.R. Wargulski, K. Xu, H. Hempel, M. Flatken, S. Albrecht, D. Abou-Ras, Relationship Between Annealing Temperature and the Presence of PbI2 Platelets at the Surfaces of Slot-Die Coated Triple-Halide Perovskite Thin Films, ACS En. Lett. 15 (2023) 41516-41524, doi: 10.1021/acsami.3c07692
  • D. Abou-Ras, U. Bloeck, S. Caicedo-Dávila, A. Eljarrat, H. Funk, A. Hammud, S. Thomas, D.R. Wargulski, T. Lunkenbein, C.T. Koch, Correlative microscopy and monitoring of segregation processes in optoelectronic semiconductor materials and devices, J. Appl. Phys. 133 (2023) 121101 (invited), doi: 10.1063/5.0138952
  • F. Yang, R.W. MacQueen, D. Menzel, A. Musiienko, A. Al-Ashouri, J. Thiesbrummel, S. Shah, K. Prashanthan, D. Abou-Ras, L. Korte, M. Stolterfoht, D. Neher, I. Levine, H. Snaith, S. Albrecht, Rubidium iodide reduces recombination losses in methylammonium-free tin-lead perovskite solar cells, Adv. En. Mater. 13 (2023) 2204339, doi: 10.1002/aenm.202204339.
  • M. Schleuning, M. Kölbach, I. Ahmet, R. Präg, R. Gottesman, R. Gunder, M. Zhang, D. R. Wargulski, D. Abou-Ras, D. A. Grave, F. F. Abdi, R. van de Krol, K. Schwarzburg, R. Eichberger, D. Friedrich, H. Hempel, Carrier Localization on the Nanometer-Scale limits Transport in Metal Oxide Photoabsorbers, Adv. Func. Mater. 33 (2023) 2300065, doi: 10.1002/adfm.202300065.
  • Fernandez, E. N., Grave, D. A., van de Krol, R., & Abdi, F. F. (2023). Strain‐Induced Distortions Modulate the Optoelectronic Properties of Epitaxial BiVO4 Films. Advanced Energy Materials, 13(25), 2301075.
  • T. Xiao, D. Erfurt, R. Félix, A. Siebert, X. Liao, J. Frisch, M. Meixner, D. Abou-Ras, K.A. Mazzio, R.G. Wilks, R. Schlatmann, M. Bär, Annealing-induced chemical interaction at the Ag/In2O3:H interface as revealed by in-situ photoelectron spectroscopy, Adv. Mater. Interf. 10 (2023) 2202347, doi: 10.1002/admi.202202347
  • Warby, J., Shah, S., Thiesbrummel, J., Gutierrez‐Partida, E., Lai, H., Alebachew, B., ... & Stolterfoht, M. (2023). Mismatch of quasi–fermi level splitting and Voc in perovskite solar cells. Advanced Energy Materials, 13(48), 2303135

2022

  • Pathak, C. S., Paramasivam, G., Mathies, F., Hirselandt, K., Schröder, V., Maus, O., ... & Visoly-Fisher, I. (2022). PTB7 as an Ink-additive for spin-coated versus inkjet-printed perovskite solar cells. ACS Applied Energy Materials, 5(4), 4085-4095.
  •  Menzel, D., Al‐Ashouri, A., Tejada, A., Levine, I., Guerra, J. A., Rech, B., ... & Korte, L. (2022). Field effect passivation in perovskite solar cells by a LiF interlayer. Advanced Energy Materials, 12(30), 2201109.
  •  Oron, D., Raanan, D., & Soffer, Y. (2022). Impulsive SRS microscopy. In Stimulated Raman Scattering Microscopy (pp. 99-113). Elsevier.
  •  Segev, G., Kibsgaard, J., Hahn, C., Xu, Z. J., Deutsch, T. G., Xiang, C., ... & Houle, F. (2022). The 2022 solar fuels roadmap. Journal of Physics D: Applied Physics, 55(32), 323003.
  • Oliver, R. D., Caprioglio, P., Peña-Camargo, F., Buizza, L. R., Zu, F., Ramadan, A. J., ... & Snaith, H. J. (2022). Understanding and suppressing non-radiative losses in methylammonium-free wide-bandgap perovskite solar cells. Energy & Environmental Science, 15(2), 714-726.
  • Tockhorn, P., Sutter, J., Cruz, A., Wagner, P., Jäger, K., Yoo, D., ... & Becker, C. (2022). Nano-optical designs for high-efficiency monolithic perovskite–silicon tandem solar cells. Nature Nanotechnology, 17(11), 1214-1221.
  • Halder, A., Itzhak, A., Hodesh, E. R., Tirosh, S., & Cahen, D. (2022). Surface Interactions of Oxygen Suffice to P‐Dope the Halide Perovskites. Advanced materials interfaces, 9(18), 2200569.
  • Emery, Q., Remec, M., Paramasivam, G., Janke, S., Dagar, J., Ulbrich, C., ... & Khenkin, M. (2022). Encapsulation and outdoor testing of perovskite solar cells: comparing industrially relevant process with a simplified lab procedure. ACS applied materials & interfaces, 14(4), 5159-5167.
  • Gottesman, R., Peracchi, I., Gerke, J. L., Irani, R., Abdi, F. F., & van de Krol, R. (2022). Shining a hot light on emerging photoabsorber materials: The Power of rapid radiative heating in developing oxide thin-film photoelectrodes. ACS Energy Letters, 7(1), 514-522.
  • Grischek, M., Caprioglio, P., Zhang, J., Pena-Camargo, F., Sveinbjörnsson, K., Zu, F., ... & Albrecht, S. (2022). Efficiency Potential and Voltage Loss of Inorganic CsPbI2Br Perovskite Solar Cells. Solar RRL, 6(11), 2200690.
  • Itzhak, A., Keller, D., Bendikov, T., Kama, A., Millo, O., Balberg, I., & Cahen, D. (2022). Steady-state optoelectronic measurements of halide perovskites on a selective contact: a path to in-depth comprehension of their photovoltaic activity. Journal of Physics D: Applied Physics, 55(45), 455107.
  • Itzhak, A., He, X., Kama, A., Kumar, S., Ejgenberg, M., Kahn, A., & Cahen, D. (2022). NiN-passivated NiO hole-transport layer improves halide perovskite-based solar cell. ACS applied materials & interfaces, 14(42), 47587-47594.
  • Kama, A., Tirosh, S., Itzhak, A., Ejgenberg, M., & Cahen, D. (2022). New Pb-free stable Sn–Ge solid solution halide perovskites fabricated by spray deposition. ACS applied energy materials, 5(3), 3638-3646.
  • Binyamin, T., & Etgar, L. (2022). Ways to Improve the Performance of Triple‐Mesoscopic Hole‐Conductor‐Free Perovskite‐Based Solar Cells. Solar RRL, 6(8), 2200295.
  • Yudco, S., Dayan, A. S., Cohen, B. E., Binyamin, T., & Etgar, L. (2022). Controlling the device functionality by solvent engineering, solar cell versus light emitting diode. Journal of Materials Chemistry C, 10(27), 10037-10046.https://doi.org/10.1039/D2TC01941H
  • Sawahreh, A., Binyamin, T., Jiang, J., Millo, O., Goldberg, O., Azulay, D., Pachter, R. & Etgar, L. (2022). Electrical and chemical properties of vacancy-ordered lead free layered double perovskite nanoparticles. Nanoscale, 14(9), 3487-3495.
    https://doi.org/10.1039/D2NR00565D
  • Shpatz, A. D., Rahmany, S., Marion, F., Binyamin, T., Hoell, A., Abate, A., & Etgar, L. (2022). Solution-based low-temperature CsPbI 3 nanoparticle perovskite solar cells. Materials Advances, 3(3), 1737-1746.https://doi.org/10.1039/D1MA00802A
  • K. Xu, A. Al-Ashouri, Z.-W. Peng, E. Köhnen, H. Hempel, F. Akhundova, J.A. Marquez, P. Tockhorn, O. Shargaieva, F. Ruske, J. Zhang, J. Dagar, B. Stannowski, T. Unold, D. Abou-Ras, E. Unger, L. Korte, S. Albrecht, Slot-Die Coated Triple-Halide Perovskites for Efficient and Scalable Perovskite/Silicon Tandem Solar Cells, ACS En. Lett. 7 (2022) 3600-3611, https://doi.org/10.1021/acsenergylett.2c01506

2021

    • Fatima Akhundova, Larry Lüer, Andres Osvet, Jens Hauch, Ian Marius Peters, Karen Forberich, Ning Li and Christoph Brabec. Building process design rules for microstructure control in wide-bandgap mixed halide perovskite solar cells by a high-throughput approach. Appl. Phys. Lett. 118, 243903 (2021); https://doi.org/10.1063/5.0049010
    • Emilio Gutierrez-Partida, Hannes Hempel, Sebastián Caicedo-Dávila, Meysam Raoufi, Francisco Peña-Camargo, Max Grischek, René Gunder, Jonas Diekmann, Pietro Caprioglio, Kai O. Brinkmann, Hans Köbler, Steve Albrecht, Thomas Riedl, Antonio Abate, Daniel Abou-Ras, Thomas Unold, Dieter Neher, and Martin Stolterfoht. Large-Grain Double Cation Perovskites with 18 μs Lifetime and High Luminescence Yield for Efficient Inverted Perovskite Solar Cells. ACS Energy Letters 2021 6 (3), 1045-1054,
      DOI: 10.1021/acsenergylett.0c02642

    • Daniel A. Grave, David S. Ellis, Yifat Piekner, Moritz Kölbach, Hen Dotan, Asaf Kay, Patrick Schnell, Roel van de Krol, Fatwa F. Abdi, Dennis Friedrich and Avner Rothschild in Nature Materials (2021): Extraction of mobile charge carrier photogeneration yield spectrum of ultrathin-film metal oxide photoanodes for solar water splitting DOI: 10.1038/s41563-021-00955-y

2020

    • Amran Al-Ashouri, Eike Köhnen, Bor Li, et al. Monolithic perovskite/silicon tandem solar cell >29% efficiency by enhanced hole extraction Science  11 Dec 2020: Vol. 370, Issue 6522, pp. 1300-1309, DOI:10.1126/science.abd4016

    • Claudia Hartmann, Satyajit Gupta, Tatyana Bendikov, Xeniya Kozina, Thomas Kunze, Roberto Félix, Gary Hodes, Regan G. Wilks, David Cahen, and Marcus Bär, Impact of SnF2 Addition on the Chemical and Electronic Surface Structure of CsSnBr3, ACS Applied Materials & Interfaces 2020 12 (10), 12353-12361, DOI: 10.1021/acsami.9b22967

    • Krause, M., Nikolaeva, A., Maiberg, M. et al. Microscopic origins of performance losses in highly efficient Cu(In,Ga)Se2 thin-film solar cells. Nat Commun 11, 4189 (2020). https://doi.org/10.1038/s41467-020-17507-8

    • Photo-transport properties of CuInSe2 thin films – influence of Na and planar defects, N. Zakay, H. Stange, H. Alpern, D. Abou-Ras, R. Mainz, I. Balberg, O Millo,  and D. Azulay, Phys. Rev. Appl. 14, 024005 (2020).

    • Dielectric Confinement and Excitonic Effects in Two-Dimensional Nanoplatelets, B. Ji , Al. L. Efros, E. Rabani, R. Vaxenburg, O. Ashkenazi, D. Azulay, U. Banin, and O. Millo, ACS Nano 14, 8257−8265 (2020)

2019

  • Abou-Ras, A. Nikolaeva, S. Caicedo Dávila, M. Krause, H. Guthrey, M. Al-Jassim, M. Morawski, R. Scheer, No evidence for passivation effects of Na and K at grain boundaries in polycrystalline Cu (In,Ga)Se2 thin films for solar cells, Solar RRL 3 (2019) 1900095, doi: 10.1002/solr.201900095.
  • Caicedo-Dávila, H. Funk, R. Lovrinčić, C. Müller, M. Sendner, O. Cojocaru-Mirédin, F. Lehmann, R. Gunder, A. Franz, A.V. Cohen, L. Kronik, B. Haas, C.T. Koch, D. Abou-Ras, Spatial Phase Distributions in Solution-Based and Evaporated Cs-Pb-Br Thin Films, J. Phys. Chem. C 123 (2019) 17666-17677, doi: 10.1021/acs.jpcc.9b02567.
  • Dagar, K. Hirselandt, A. Merdasa, R. Munir, T. Dittrich, E.L. Unger, Alkali-salts as Interface Modifiers for n-i-p Hybrid Perovskite Solar Cells, Solar RRL 9 (2019) 1900088, doi: 10.1002/solr.201900088.
  • Merdasa, A. Kiligaridis, C. Rehermann, M. Abdi-Jalebi, J. Stöber, B. Louis, M. Gerhard, S.D. Stranks, E.L. Unger, I.G. Scheblykin, The Impact of Excess Lead Iodide on the Recombination Kinetics in Metal Halide Perovskites, ACS Energy Lett. 2019, 4, 6, 1370-1378, doi: 10.1021/acsenergylett.9b00774.
  • V. Cohen, D.A. Egger, A.M. Rappe, L. Kronik, Breakdown of the static picture of defect energetics in halide perovskites: the case of the Br vacancy in CsPbBr3, J. Phys. Chem. Lett. 2019, 10, 16, 4490-4498, doi: 10.1021/acs.jpclett.9b01855.
  • Zu, P. Amsalem, D.A. Egger, R. Wang, C.M. Wolff, H. Fang, M.A. Loi, D. Neher, L.Kronik , S. Duhm, and N. Koch, Constructing the Electronic Structure of CH3NH3PbI3 and CH3NH3PbBr3 Perovskite Thin Films from Single-Crystal Band Structure Measurements, J. Phys. Chem. Lett., 2019, 601–609, DOI: 10.1021/acs.jpclett.8b03728
  • I Levine, O Garcia Vera, M Kulbak, C Rehermann, J A. Márquez Prieto, T Unold, G Hodes, I Balberg, D Cahen, T Dittrich, Deep defect states in wide band gap halide perovskites, accepted for publication in ACS En. Lett.

2018

  • Kirchartz, L. Krückemeier, E.L. Unger, Research Update: Recombination and open-circuit voltage in lead-halide perovskites, APL Materials 6, 100702 (2018), doi: 10.1063/1.5052164
  • Li, A. Dobrovolsky, A. Merdasa, E.L. Unger, and I.G. Scheblykin, Luminescent Intermediates and Humidity-Dependent Room-Temperature Conversion of the MAPbI3 perovskite precursor, ACS Omega, 2018, 3 (10), pp 14494–14502, DOI: 10.1021/acsomega.8b01799
  • Braunger, L.E. Mundt, C.M. Wolff, M. Mews, C. Rehermann, M. Jošt, Alvaro Tejada, D. Eisenhauer, C. Becker, J.A. Guerra, E. Unger, L. Korte, D. Neher, M.C. Schubert, B. Rech, and S. Albrecht, CsxFA1–xPb(I1–yBry)3 Perovskite Compositions: The Appearance of Wrinkled Morphology and its Impact on Solar Cell Performance, J. Phys. Chem. C 2018 122 (30), 17123-17135, DOI: 10.1021/acs.jpcc.8b06459
  • Zgadzai, Y. Twig, H. Wolfson, R. Ahmad, P. Kuppusamy, A. Blank, Electron Spin Resonance Dipstick, Analytical Chemistry 90, (2018), 7830-7836, DOI: 10.1021/acs.analchem.8b00917
  • Dayan, Y. Ishay, Y. Artzi, D. Cristea, E. Reijerse, P. Kuppusamy, A. Blank, Advanced Surface Resonators for Electron Spin Resonance of Single Microcrystals, Review of Scientific Instruments 89 (2018) 124707, doi: 10.1063/1.5063367.
  • Levine, S. Gupta, A. Bera, D. Ceratti, G. Hodes, D. Cahen. D. Guo, T. Savenije, J. Ávila, H. Bolink, O. Millo, D. Azulay, and I. Balberg, Can we use timeresolved measurements to get steadystate transport data for Halide Perovskites?”, J. Appl. Phys., 124, 103103 (2018).
  • Azulay, I. Levine, S. Gupta, E. Barak-Kulbak, A. Bera, G. San, S. Simha, D. Cahen, O. Millo, G. Hodes, and I. Balberg, On the influence of multiple cations on the in-gap states and phototransport properties of iodide-based Halide Perovskites”, Chem. Phys. Phys. Chem. 20, 24444-24452 (2018), doi: 10.1039/C8CP03555E
  • Kay, M. Fiegenbaum-Raz, S. Müller, R. Eichberger, H. Dotan, R. van de Krol, F.F. Abdi, A. Rothschild, D. Friedrich, and D.A. Grave, Effect of doping and excitation wavelength on charge carrier dynamics in hematite by time-resolved microwave and terahertz photoconductivity, Adv. Func. Mater., in press, d oi: 10.1002/adfm.201901590.