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Your search keyword '"Koziej, Dorota"' showing total 28 results
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28 results on '"Koziej, Dorota"'

1. Exciton-Phonon Coupling in Single Band-Gap Engineered ZnCdSe-Dot/CdS-Rod Nanocrystals

Author

Johst, Florian, Rebmann, Jannik, Werners, Hans, Klemeyer, Lars, Kesavan, Jagadesh Kopula, Koziej, Dorota, Strelow, Christian, Bester, Gabriel, Mews, Alf, and Kipp, Tobias

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

Exciton-phonon coupling limits the homogeneous emission linewidth of nanocrystals. Hence, a full understanding of it is crucial. In this work, we statistically investigate exciton-phonon coupling by performing single-particle spectroscopy on Zn$_{1-x}$Cd$_{x}$Se/CdS dot-in-rod nanocrystals at cryogenic temperatures ($T\approx 10~\rm{K}$). In situ cation exchange enables us to analyze different band alignments and thereby different charge-carrier distributions. We find that the relative intensities of the longitudinal optical S- and Se-type phonon replicas correlate with the charge-carrier distribution. Our experimental findings are complemented with quantum mechanical calculations within the effective mass approximation that hint at the relevance of surface charges., Comment: 21 pages, 6 figures

Published
2024

2. Real space texture and pole figure analysis using the three-dimensional pair distribution function (PDF) on a Platinum thin film

Author

Harouna-Mayer, Sani Y., Tao, Songsheng, Gong, ZiZhou, Zimmermann, Martin v., Koziej, Dorota, Dippel, Ann-Christin, and Billinge, Simon J. L.

Subjects
Condensed Matter - Materials Science
Abstract

An approach is described for studying texture in nanostructured materials. The approach implements the real space texture PDF, txPDF, laid out in [Gong and Billinge (2018) arXiv:1805.10342 [cond-mat]]. It is demonstrated on a fiber textured polycrystalline Pt thin film. The approach uses 3D PDF methods to reconstruct the orientation distribution function (ODF) of the powder crystallites from a set of diffraction patterns taken at different tilt angles of the substrate with respect to the incident beam directly from the 3D PDF of the sample. A real space equivalent of the reciprocal space pole figure is defined in terms of interatomic vectors in the PDF and computed for various interatomic vectors in the Pt film. Further, it is shown how a valid isotropic PDF may be obtained from a weighted average over the tilt series, and the measurement conditions for the best approximant to the isotropic PDF from a single exposure, which for the case of the fiber textured film was in a nearly grazing incidence orientation of around 10 degrees. Finally, we describe an open source Python software package, Fourigui, that may be used to help in studies of texture from 3D reciprocal space data, and indeed for Fourier transforming and visualizing 3D PDF data in general.

Published
2022

4. Utilizing High X‑ray Energy Photon-In Photon-Out Spectroscopies and X‑ray Scattering to Experimentally Assess the Emergence of Electronic and Atomic Structure of ZnS Nanorods.

Author

Klemeyer, Lars, Gröne, Tjark L. R., Zito, Cecilia de Almeida, Vasylieva, Olga, Gumus Akcaalan, Melike, Harouna-Mayer, Sani Y., Caddeo, Francesco, Steenbock, Torben, Hussak, Sarah-Alexandra, Kesavan, Jagadesh Kopula, Dippel, Ann-Christin, Sun, Xiao, Köppen, Andrea, Saveleva, Viktoriia A., Kumar, Surender, Bester, Gabriel, Glatzel, Pieter, and Koziej, Dorota

Published
2024
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8. Enhancing Charge Transport in CuBi2O4 Films: The Role of a Protective TiO2 ALD Coating Probed by Impedance Spectroscopy.

Author

Caddeo, Francesco, Medicus, Sophie, Hedrich, Carina, Krüger, Marco, Harouna‐Mayer, Sani Y., Blick, Robert H., Zierold, Robert, and Koziej, Dorota

Subjects
ATOMIC layer deposition, ELECTRODE performance, CONDUCTION bands, IMPEDANCE spectroscopy, BISMUTH trioxide, PHOTOCATHODES
Abstract

The common solution for protecting p‐type semiconductors against photocorrosion in a photo‐electrochemical (PEC) cell is by applying a TiO2 over‐layer via atomic layer deposition (ALD). However, for the case of CuBi2O4 (CBO), this approach leads to a significant decline in electrode performance, despite the small conduction band offset between CBO and TiO2. Here, electrochemical impedance spectroscopy (EIS) under light illumination is used to study how to enhance charge transport in CuBi2O4/TiO2 photocathodes. A 15 nm TiO2 overlayer enables a small charge transfer resistance to the electrolyte while preserving the performance and stability of the CBO film. When increasing the TiO2 thickness from 15 to 20 nm, the photogenerated currents decrease by 74%. The EIS data are fit with an equivalent circuit model that enabled to extract the charge transfer resistances, capacitances, and time constants that influence the PEC performance of the electrode as a function of the TiO2 layer thickness, together with the flat‐band potentials and doping densities of both the CBO and TiO2 layers under light illumination. The decline in performance is attributed to accumulation and recombination of photogenerated carriers at the CBO‐TiO2 interface, due to a band mismatch between the two semiconductors. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Photodegradation of CuBi2O4 Films Evidenced by Fast Formation of Metallic Bi using Operando Surface‐sensitive X‐ray Scattering**

Author

Derelli, Davide, primary, Caddeo, Francesco, additional, Frank, Kilian, additional, Krötzsch, Kilian, additional, Ewerhardt, Patrick, additional, Krüger, Marco, additional, Medicus, Sophie, additional, Klemeyer, Lars, additional, Skiba, Marvin, additional, Ruhmlieb, Charlotte, additional, Gutowski, Olof, additional, Dippel, Ann‐Christin, additional, Parak, Wolfgang J., additional, Nickel, Bert, additional, and Koziej, Dorota, additional

Published
2023
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14. Operando X-ray scattering elucidates the photocorrosion mechanism of CuBi2O4 films

Author

Derelli, Davide, primary, Caddeo, Francesco, additional, Frank, Kilian, additional, Krötzsch, Kilian, additional, Ewerhardt, Patrick, additional, Krüger, Marco, additional, Medicus, Sophie, additional, Klemeyer, Lars, additional, Skiba, Marvin, additional, Gutowski, Olof, additional, Dippel, Ann-Christin, additional, Parak, Wolfgang J., additional, Nickel, Bert, additional, and Koziej, Dorota, additional

Published
2023
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16. Structural Analysis and Intrinsic Enzyme Mimicking Activities of Ligand‐Free PtAg Nanoalloys (Small 19/2023)

Author

Chen, Lizhen, primary, Klemeyer, Lars, additional, Ruan, Mingbo, additional, Liu, Xin, additional, Werner, Stefan, additional, Xu, Weilin, additional, Koeppen, Andrea, additional, Bücker, Robert, additional, Gonzalez, Marta Gallego, additional, Koziej, Dorota, additional, Parak, Wolfgang J., additional, and Chakraborty, Indranath, additional

Published
2023
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17. Photodegradation of CuBi2O4 Films Evidenced by Fast Formation of Metallic Bi using Operando Surface‐sensitive X‐ray Scattering**.

Author

Derelli, Davide, Caddeo, Francesco, Frank, Kilian, Krötzsch, Kilian, Ewerhardt, Patrick, Krüger, Marco, Medicus, Sophie, Klemeyer, Lars, Skiba, Marvin, Ruhmlieb, Charlotte, Gutowski, Olof, Dippel, Ann‐Christin, Parak, Wolfgang J., Nickel, Bert, and Koziej, Dorota

Subjects
PHOTOCATHODES, X-ray scattering, PHOTODEGRADATION, COPPER, X-rays, PHOTOCURRENTS
Abstract

CuBi2O4 has recently emerged as a promising photocathode for photo‐electrochemical (PEC) water splitting. However, its fast degradation under operation currently poses a limit to its application. Here, we report a novel method to study operando the semiconductor‐electrolyte interface during PEC operation by surface‐sensitive high‐energy X‐ray scattering. We find that a fast decrease in the generated photocurrents correlates directly with the formation of a metallic Bi phase. We further show that the slower formation of metallic Cu, as well as the dissolution of the electrode in contact with the electrolyte, further affect the CuBi2O4 activity and morphology. Our study provides a comprehensive picture of the degradation mechanisms affecting CuBi2O4 electrodes under operation and poses the methodological basis to investigate the photocorrosion processes affecting a wide range of PEC materials. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Flow cell for operandoX-ray photon-in-photon-out studies on photo-electrochemical thin film devices

Author

Jäker, Philipp, Aegerter, Dino, Kyburz, Till, Städler, Roman, Fonjallaz, Rea, Detlefs, Blanka, and Koziej, Dorota

Subjects
thin films, photoelectrochemical water splitting, metal oxides, X-ray absorption spectroscopy, Operando, measurement cell, photoelectrochemical, operando instrumentation, HERFD-XAS
Abstract

Background: Photo-electro-chemical (PEC) water splitting represents a promising technology towards an artificial photosynthetic device but many fundamental electronic processes, which govern long-term stability and energetics, are not yet fully understood. X-ray absorption spectroscopy (XAS), and particularly its high energy resolution fluorescence-detected (HERFD) mode, emerges as a powerful tool to study photo-excited charge carrier behavior under operating conditions. The established thin film device architecture of PEC cells provides a well-defined measurement geometry, but it puts many constraints on conducting operando XAS experiments. It remains a challenge to establish a standardized thin film exchange procedure and concurrently record high-quality photoelectrochemical and X‑ray absorption spectroscopy data that is unperturbed by bubble formation. Here we address and overcome these instrumental limitations for photoelectrochemical operando HERFD-XAS. Methods: We constructed a novel operando photo-electro-chemical cell by computer numerical control milling, guided by the materials' X‑ray and visible light absorption properties to optimize signal detection. To test the cell's functionality, semiconducting thin film photoelectrodes have been fabricated via solution deposition and their photoelectrochemical responses under simulated solar light were studied using a commercial potentiostat in a three-electrode configuration during HERFD-XAS experiments at a synchrotron. Results: We demonstrate the cell's capabilities to measure and control potentiostatically and in open‑circuit, to detect X‑ray signals unperturbed by bubbles and to fluently exchange different thin film samples by collecting high-resolution Fe K-edge spectra of hematite ( α -Fe 2O 3) and ferrite thin film ( MFe 2O 4, M= Zn, Ni) photoelectrodes during water oxidation. Conclusions: Our cell establishes a measurement routine that will provide experimental access of photo-electro-chemical operando HERFD-XAS experiments to a broader scientific community, particularly due to the ease of sample exchange. We believe to enable a broad range of experiments which acquired fundamental insights will spur further photoelectrochemical research and commercialization of water splitting technologies

Published
2022

20. Raw data for 'Imaging Cu2O nanocube hollowing in solution by quantitative in situ X-ray ptychography'

Author

Grote, Lukas, Seyrich, Martin, Döhrmann, Ralph, Harouna-Mayer, Sani Y., Mancini, Federica, Kaziukenas, Emilis, Fernandez-Cuesta, Irene, Zito, Cecilia A., Vasylieva, Olga, Wittwer, Felix, Kronenberg, Michal, Mogos, Natnael, Landmann, Mirko, Schroer, Christian G., and Koziej, Dorota

Subjects
cSAXS, hollow, ptychography, in situ, multi-slice, nanoparticles, P06, PSI, PETRA III, nanocubes
Abstract

Raw data for "Imaging Cu2O nanocube hollowing in solution by quantitative in situ X-ray ptychography" Ptychographic data sets The file "raw_data_ptychography.zip" contains one HDF5 archive for each ptychographic scan. The archives are structured as follows: section experiment: identifiers of the lightsource, beamline, beamtime, session number, and scan number section measured: N diffraction patterns of size 512x512 px N scan positions in mm one detector mask of size 512x512 px slice separation in mm for multi slice reconstruction section parameters: distance between sample and detector in mm pixel size of detector in mm photon energy in keV cropping of diffraction patterns in px used during reconstruction The following list shows the scan numbers with their corresponding reaction times and slice separations for the in situ series measured at beamline P06 at 15.25 keV. scan number slice distance, mm reaction time, h 232 1 0.20 233 1 0.56 234 1 0.92 235 1 1.27 236 1 1.63 237 1 2.01 238 0.98 2.36 239 0.96 2.72 240 0.94 3.08 241 0.9 3.43 242 0.88 3.83 243 0.86 4.19 244 0.84 4.54 245 0.82 4.90 246 0.82 5.26 247 0.82 5.63 248 0.8 5.98 249 0.8 6.34 250 0.8 6.70 251 0.78 7.05 252 0.78 7.43 253 0.78 7.79 254 0.76 8.15 255 0.76 8.50 256 0.76 8.86 257 0.74 9.23 258 0.74 9.58 259 0.72 9.94 260 0.72 10.30 261 0.7 10.65 262 0.68 11.07 263 0.66 11.42 264 0.64 11.78 266 0.62 12.17 267 0.6 12.53 268 0.58 12.89 269 0.56 13.24 270 0.54 13.60 271 0.52 13.99 272 0.5 14.37 273 0.46 14.72 274 0.42 15.08 275 0.4 15.44 277 0.4 15.87 278 0.4 16.22 279 0.36 16.58 280 0.3 16.93 281 0.25 17.29 282 0.25 17.68 283 0.25 18.04 289 0.2 20.45 290 0.2 21.47 Ptychographic reconstructions The file "ptychographic_reconstructions.zip" contains the ptychographic reconstructions shown in the article and supplementary information in tiff format. Stacks of images corresponding to time series: P06_15.25_keV_scans_00232-00283_entrance_window_aligned.tif P06_15.25_keV_scans_00232-00283_exit_window_aligned.tif cSAXS_8.98_keV_scans_00200-00324_aligned.tif Single images (the file name indicates the respective figure): P06_15.25_keV_scan_00289_Figure_6_a.tif P06_15.25_keV_scan_00290_Supplementary_Figure_11.tif cSAXS_8.98_keV_scan_00347_Supplementary_Figure_13_d.tif cSAXS_8.98_keV_scan_00586_Supplementary_Figure_14_a.tif SEM images The file "SEM_images.zip" contains the SEM images shown in the article and supplementary information in tiff format. The file names indicate the respective figure: Figure_5_h.tif Figure_5_i.tif Figure_6_b.tif Supplementary_Figure_14_b.tif, Acknowledgements: This work was supported by the Bundesministerium für Bildung und Forschung (BMBF) within the Röntgen-Ångström-Cluster via the project 05K2020 - 2019-06104 XStereoVision (grant no. 05K20GUA), by the European Research Council within the project LINCHPIN (grant no. 818941), and by the Cluster of Excellence "CUI: Advanced Imaging of Matter" of the Deutsche Forschungsgemeinschaft (DFG) – EXC 2056 – project ID 390715994.

Published
2022
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25. Multimodal imaging of cubic Cu2O@Au nanocage formation via galvanic replacement using X-ray ptychography and nano diffraction.

Author

Grote, Lukas, Hussak, Sarah-Alexandra, Albers, Leif, Stachnik, Karolina, Mancini, Federica, Seyrich, Martin, Vasylieva, Olga, Brückner, Dennis, Lyubomirskiy, Mikhail, Schroer, Christian G., and Koziej, Dorota

Subjects
X-rays, RADIATION damage, NANOPARTICLES, CRYSTAL structure, NANOSTRUCTURED materials
Abstract

Being able to observe the formation of multi-material nanostructures in situ, simultaneously from a morphological and crystallographic perspective, is a challenging task. Yet, this is essential for the fabrication of nanomaterials with well-controlled composition exposing the most active crystallographic surfaces, as required for highly active catalysts in energy applications. To demonstrate how X-ray ptychography can be combined with scanning nanoprobe diffraction to realize multimodal imaging, we study growing Cu2O nanocubes and their transformation into Au nanocages. During the growth of nanocubes at a temperature of 138 °C, we measure the crystal structure of an individual nanoparticle and determine the presence of (100) crystallographic facets at its surface. We subsequently visualize the transformation of Cu2O into Au nanocages by galvanic replacement. The nanocubes interior homogeneously dissolves while smaller Au particles grow on their surface and later coalesce to form porous nanocages. We finally determine the amount of radiation damage making use of the quantitative phase images. We find that both the total surface dose as well as the dose rate imparted by the X-ray beam trigger additional deposition of Au onto the nanocages. Our multimodal approach can benefit in-solution imaging of multi-material nanostructures in many related fields. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Imaging Cu2O nanocube hollowing in solution by quantitative in situ X-ray ptychography.

Author

Grote, Lukas, Seyrich, Martin, Döhrmann, Ralph, Harouna-Mayer, Sani Y., Mancini, Federica, Kaziukenas, Emilis, Fernandez-Cuesta, Irene, A. Zito, Cecilia, Vasylieva, Olga, Wittwer, Felix, Odstrčzil, Michal, Mogos, Natnael, Landmann, Mirko, Schroer, Christian G., and Koziej, Dorota

Subjects
X-rays, ENERGY storage, X-ray imaging, ENERGY consumption, SPATIAL resolution, X-ray scattering
Abstract

Understanding morphological changes of nanoparticles in solution is essential to tailor the functionality of devices used in energy generation and storage. However, we lack experimental methods that can visualize these processes in solution, or in electrolyte, and provide three-dimensional information. Here, we show how X-ray ptychography enables in situ nano-imaging of the formation and hollowing of nanoparticles in solution at 155 °C. We simultaneously image the growth of about 100 nanocubes with a spatial resolution of 66 nm. The quantitative phase images give access to the third dimension, allowing to additionally study particle thickness. We reveal that the substrate hinders their out-of-plane growth, thus the nanocubes are in fact nanocuboids. Moreover, we observe that the reduction of Cu2O to Cu triggers the hollowing of the nanocuboids. We critically assess the interaction of X-rays with the liquid sample. Our method enables detailed in-solution imaging for a wide range of reaction conditions. Observing morphological changes of nanoparticles in solution requires advanced in-situ imaging methods. Here, the authors use X-ray ptychography to image the growth and hollowing of Cu2O nanocubes in 3D. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Light and Mass Transport Computations Guide the Fabrication of 3D-Structured TiO2and Au/TiO2Aerogel Photocatalysts for Efficient Hydrogen Production in the Gas Phase

Author

Rebber, Matthias, Sannemüller, Hendrik, Jaruszewski, Michael, Pfannkuche, Daniela, Urakawa, Atsushi, and Koziej, Dorota

Abstract

Efficient mass transfer and light utilization are essential for high photocatalytic production rates. Here, we present a hierarchical three-dimensional (3D)-printed aerogel photocatalyst that unites both aspects by taking inspiration from the light scattering in clouds during photochemical processes and from mass transfer in plants during photosynthesis. We combine the geometric freedom of additive manufacturing with computational fluid dynamics and Monte Carlo simulations to guide the implementation of a self-supported aerogel in a continuous gas flow reactor. Here, 3D microstructuring reduced the pressure drop of a monolithic aerogel by 5 orders of magnitude without compromising the gas permeation and the light-harvesting efficiency of the intrinsic nanoporous material. We match the macroscopic thickness with the ultraviolet (UV) light penetration depth and show that the 3D aerogel of 1.1 mm thickness improves photocatalytic hydrogen production rates relative to the nanoparticle powder by a factor of five from 1.3 to 6.6 μmol g–1h–1for TiO2and from 30.0 to 141.8 μmol g–1h–1for Au/TiO2, respectively. Ultimately, our approach can be applied for other nanomaterials to boost the overall performance of a variety of photochemical processes and reactor designs.

Published
2023
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28. Photodegradation of CuBi 2 O 4 Films Evidenced by Fast Formation of Metallic Bi using Operando Surface-sensitive X-ray Scattering.

Author

Derelli D, Caddeo F, Frank K, Krötzsch K, Ewerhardt P, Krüger M, Medicus S, Klemeyer L, Skiba M, Ruhmlieb C, Gutowski O, Dippel AC, Parak WJ, Nickel B, and Koziej D

Abstract

CuBi 2 O 4 has recently emerged as a promising photocathode for photo-electrochemical (PEC) water splitting. However, its fast degradation under operation currently poses a limit to its application. Here, we report a novel method to study operando the semiconductor-electrolyte interface during PEC operation by surface-sensitive high-energy X-ray scattering. We find that a fast decrease in the generated photocurrents correlates directly with the formation of a metallic Bi phase. We further show that the slower formation of metallic Cu, as well as the dissolution of the electrode in contact with the electrolyte, further affect the CuBi 2 O 4 activity and morphology. Our study provides a comprehensive picture of the degradation mechanisms affecting CuBi 2 O 4 electrodes under operation and poses the methodological basis to investigate the photocorrosion processes affecting a wide range of PEC materials., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2023
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