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30 results on '"Lovrinčić, Robert"'

1. Kinetic modelling of carrier cooling in lead halide perovskite materials

Author

Hopper, Thomas R., Jeong, Ahhyun, Gorodetsky, Andrei, Krieg, Franziska, Bodnarchuk, Maryna I., Huang, Xiaokun, Lovrincic, Robert, Kovalenko, Maksym V., and Bakulin, Artem A.

Subjects
Physics - Applied Physics
Abstract

The relaxation of high-energy "hot" carriers in semiconductors is known to involve the redistribution of energy between (i) hot and cold carriers and (ii) hot carriers and phonons. Over the past few years, these two processes have been identified in lead-halide perovskites (LHPs) using ultrafast pump-probe experiments, but the interplay between these processes is not fully understood. Here we present a comprehensive kinetic model to elucidate the individual effects of the hot and cold carriers in bulk and nanocrystal $CsPbBr_{3}$ films obtained from "pump-push-probe" measurements. In accordance with our previous work, we observe that the cooling dynamics in the materials decelerate as the number of hot carriers increases, which we explain through a "hot-phonon bottleneck" mechanism. On the other hand, as the number of cold carriers increases, we observe an acceleration of the cooling kinetics in the samples. We describe the interplay of these opposing effects using our model, and by using series of natural approximations, reduce this model to a simple form containing terms for the carrier-carrier and carrier-phonon interactions. The model can be instrumental for evaluating the details of carrier cooling and electron-phonon couplings in a broad range of LHP optoelectronic materials., Comment: The following article has been submitted to The Journal of Chemical Physics. After it is published, it will be found at https://aip.scitation.org/journal/jcp

Published
2019

2. Electronic properties of air-exposed GaN$(1\bar{1}00)$ and $(0001)$ surfaces after several device processing compatible cleaning steps

Author

Auzelle, Thomas, Ullrich, Florian, Hietzschold, Sebastian, Brackmann, Stefan, Hillebrandt, Sabina, Kowalsky, Wolfgang, Mankel, Eric, Lovrincic, Robert, and Fernández-Garrido, Sergio

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

We report on the electronic properties of GaN$(1\bar{1}00)$ and $(0001)$ surfaces after three different and subsequent device processing compatible cleaning steps: HCl etching, annealing at $400$ $^\circ$C in N$_2$ atmosphere, and O$_2$ plasma exposure. The surface electronic properties are quantified, in the dark and under ultraviolet illumination, using X-ray photoelectron spectroscopy and a Kelvin probe. We find that the cleaning steps largely affect the work function and the band bending of both GaN orientations. These modifications are attributed to the presence of different surface states as well as to the formation of adsorbates building up distinct surface dipoles. Besides these results, we detect that under ultraviolet illumination the work function of the surfaces exposed to HCl decreases by at least $0.2$ eV without screening of the band bending. We thus attribute the observed surface photovoltage to a photo-induced modification of the surface dipole. Overall, these results emphasize the strong dependence of the electronic properties of air-exposed GaN surfaces on adsorbates. As a result, we advocate the use of the common cleaning steps analyzed here to re-initialize at will GaN$(1\bar{1}00)$ and $(0001)$ surfaces into pre-defined states., Comment: This is the accepted manuscript version of an article that appeared in Applied Surface Science copyright (C) Elsevier. The CC BY-NC-ND 4.0 license applies, see http://creativecommons.org/licenses/by-nc-nd/4.0/ . To access the final edited and published work, see https://doi.org/10.1016/j.apsusc.2019.07.256

Published
2019
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4. Optical Phonons in Methylammonium Lead Halide Perovskites and Implications for Charge Transport

Author

Sendner, Michael, Nayak, Pabitra K., Egger, David A., Beck, Sebastian, Müller, Christian, Epding, Bernd, Kowalsky, Wolfgang, Kronik, Leeor, Snaith, Henry J., Pucci, Annemarie, and Lovrinčić, Robert

Subjects
Condensed Matter - Materials Science
Abstract

Lead-halide perovskites are promising materials for opto-electronic applications. Recent reports indicated that their mechanical and electronic properties are strongly affected by the lattice vibrations. Herein we report far-infrared spectroscopy measurements of CH$_{3}$NH$_{3}$Pb(I/Br/Cl)$_{3}$ thin films and single crystals at room temperature and a detailed quantitative analysis of the spectra. We find strong broadening and anharmonicity of the lattice vibrations for all three halide perovskites, which indicates dynamic disorder of the lead-halide cage at room temperature. We determine the frequencies of the transversal and longitudinal optical phonons, and use them to calculate, via appropriate models, the static dielectric constants, polaron masses, electron-phonon coupling constants, and upper limits for the phonon-scattering limited charge carrier mobilities. Within the limitations of the model used, we can place an upper limit of 200$\,$cm$^{2}$V$^{-1}$s$^{-1}$ for the room temperature charge carrier mobility in MAPbI$_{3}$ single crystals. Our findings are important for the basic understanding of charge transport processes and mechanical properties in metal halide perovskites.

Published
2016
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5. Mode-selective vibrational control of charge transport in $\pi$-conjugated molecular materials

Author

Bakulin, Artem A., Lovrinčić, Robert, Xi, Yu, Selig, Oleg, Bakker, Huib J., Rezus, Yves L. A., Nayak, Pabitra K., Fonari, Alexandr, Coropceanu, Veaceslav, Brédas, Jean-Luc, and Cahen, David

Subjects
Condensed Matter - Materials Science, Condensed Matter - Soft Condensed Matter
Abstract

The soft character of organic materials leads to strong coupling between molecular nuclear and electronic dynamics. This coupling opens the way to control charge transport in organic electronic devices by inducing molecular vibrational motions. However, despite encouraging theoretical predictions, experimental realization of such control has remained elusive. Here we demonstrate experimentally that photoconductivity in a model organic optoelectronic device can be controlled by the selective excitation of molecular vibrations. Using an ultrafast infrared laser source to create a coherent superposition of vibrational motions in a pentacene/C60 photoresistor, we observe that excitation of certain modes in the 1500-1700 cm$^{-1}$ region leads to photocurrent enhancement. Excited vibrations affect predominantly trapped carriers. The effect depends on the nature of the vibration and its mode-specific character can be well described by the vibrational modulation of intermolecular electronic couplings. Vibrational control thus presents a new tool for studying electron-phonon coupling and charge dynamics in (bio)molecular materials.

Published
2015
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6. A permanent, stable, and simple top-contact for molecular electronics on Si: Pb evaporated on organic monolayers

Author

Lovrinčić, Robert, Kraynis, Olga, Har-Lavan, Rotem, Haj-Yahya, Abd-Elrazek, Li, Wenjie, Vilan, Ayelet, and Cahen, David

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We show that thermally evaporated lead (Pb) preserves the electronic properties of organic monolayers on Si and the surface passivation of the Si surface itself. The obtained current-voltage characteristics are in accordance with results from the well-established hanging mercury drop method and preserve both the molecule-induced dipolar effect and length-attenuation of current. We rationalize our findings by the lack of interaction between the Pb and the Si substrate. Our method is fast, scalable, compatible to standard semiconductor processing, and can help to spur the large-scale utilization of silicon-organic hybrid electronics.

Published
2012

11. Spatial Phase Distributions in Solution-Based and Evaporated Cs–Pb–Br Thin Films

Author

Caicedo-Dávila, Sebastián, primary, Funk, Hannah, additional, Lovrinčić, Robert, additional, Müller, Christian, additional, Sendner, Michael, additional, Cojocaru-Mirédin, Oana, additional, Lehmann, Frederike, additional, Gunder, René, additional, Franz, Alexandra, additional, Levcenco, Sergej, additional, Cohen, Ayala V., additional, Kronik, Leeor, additional, Haas, Benedikt, additional, Koch, Christoph T., additional, and Abou-Ras, Daniel, additional

Published
2019
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13. Mode-selective vibrational control of charge transport in $π$-conjugated molecular materials

Author

Bakulin, Artem A, Lovrinčić, Robert, Xi, Yu, Selig, Oleg, Bakker, Huib J, Rezus, Yves LA, Nayak, Pabitra K, Fonari, Alexandr, Coropceanu, Veaceslav, Brédas, Jean-Luc, Cahen, David, Bakulin, Artem [0000-0002-3998-2000], and Apollo - University of Cambridge Repository

Subjects
cond-mat.soft, cond-mat.mtrl-sci
Abstract

The soft character of organic materials leads to strong coupling between molecular nuclear and electronic dynamics. This coupling opens the way to control charge transport in organic electronic devices by inducing molecular vibrational motions. However, despite encouraging theoretical predictions, experimental realization of such control has remained elusive. Here we demonstrate experimentally that photoconductivity in a model organic optoelectronic device can be controlled by the selective excitation of molecular vibrations. Using an ultrafast infrared laser source to create a coherent superposition of vibrational motions in a pentacene/C60 photoresistor, we observe that excitation of certain modes in the 1500-1700 cm$^{-1}$ region leads to photocurrent enhancement. Excited vibrations affect predominantly trapped carriers. The effect depends on the nature of the vibration and its mode-specific character can be well described by the vibrational modulation of intermolecular electronic couplings. Vibrational control thus presents a new tool for studying electron-phonon coupling and charge dynamics in (bio)molecular materials.

Published
2015

14. Quantifying the Composition of Methylammonium Lead Iodide Perovskite Thin Films with Infrared Spectroscopy

Author

Huang, Xiaokun, Sendner, Michael, Müller, Christian, Sessolo, Michele, Gil-Escrig, Lidón, Kowalsky, Wolfgang, Pucci, Annemarie, Beck, Sebastian, and Lovrinčić, Robert

Abstract

Lead halide perovskites are generally formed from a reaction of the lead halide salt with the halide salt of the A cation. The effects of varying film compositions as result of nonstoichiometric precursor ratios on electronic properties of halide perovskites are currently under debate. It is imperative, but experimentally challenging, to determine the chemical composition of thin films as a function of precursor ratio for a full understanding of the effect. Herein we report a precise quantification of the methylammonium (MA) content in differently fabricated films of MAPbI3via infrared spectroscopy. We compare the thin film data to the first high-quality dielectric function obtained from single crystals with IR ellipsometry. For spin-coated samples, we find that the MAI/PbI2ratio in solution has an effect on the MA content in the resulting thin films, which is in the range of 77–106% compared to single crystals. For coevaporated samples, we show that a very similar range of MA content variation is accessible. Interestingly, coevaporated films prepared like those for high-efficiency solar cells have a significantly lower MA content than that of single crystals.

Published
2024
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16. Water Infiltration in Methylammonium Lead Iodide Perovskite: Fast and Inconspicuous

Author

Müller, Christian, primary, Glaser, Tobias, additional, Plogmeyer, Marcel, additional, Sendner, Michael, additional, Döring, Sebastian, additional, Bakulin, Artem A., additional, Brzuska, Carlo, additional, Scheer, Roland, additional, Pshenichnikov, Maxim S., additional, Kowalsky, Wolfgang, additional, Pucci, Annemarie, additional, and Lovrinčić, Robert, additional

Published
2015
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22. Unraveling the Nanoscale Morphologies of Mesoporous Perovskite Solar Cells and Their Correlation to Device Performance

Author

Nanova, Diana, primary, Kast, Anne Katrin, additional, Pfannmöller, Martin, additional, Müller, Christian, additional, Veith, Lisa, additional, Wacker, Irene, additional, Agari, Michaela, additional, Hermes, Wilfried, additional, Erk, Peter, additional, Kowalsky, Wolfgang, additional, Schröder, Rasmus R., additional, and Lovrinčić, Robert, additional

Published
2014
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30. Impact of Bi 3+ Heterovalent Doping in Organic-Inorganic Metal Halide Perovskite Crystals.

Author

Nayak PK, Sendner M, Wenger B, Wang Z, Sharma K, Ramadan AJ, Lovrinčić R, Pucci A, Madhu PK, and Snaith HJ

Abstract

Intrinsic organic-inorganic metal halide perovskites (OIHP) based semiconductors have shown wide applications in optoelectronic devices. There have been several attempts to incorporate heterovalent metal (e.g., Bi 3+ ) ions in the perovskites in an attempt to induce electronic doping and increase the charge carrier density in the semiconductor. It has been reported that inclusion of Bi 3+ decreases the band gap of the material considerably. However, contrary to the earlier conclusions, despite a clear change in the appearance of the crystal as observed by eye, here we show that the band gap of MAPbBr 3 crystals does not change due the presence of Bi 3+ in the growth solution. An increased density of states in the band gap and use of very thick samples for transmission measurements, erroneously give the impression of a band gap shift. These sub band gap states also act as nonradiative recombination centers in the crystals.

Published
2018
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