Your search keyword '"time-resolved X-ray absorption spectroscopy"' showing total 26 results

1. Time-Resolved X-Ray Absorption Spectroscopy (XAS)

Author

Weckhuysen, Bert M., Wondergem, Caterina Suzanna, Vogt, Charlotte, Merkle, Dieter, Managing Editor, Wachs, Israel E., editor, and Bañares, Miguel A., editor

Published

2023

2. Case Studies: Time-Resolved X-Ray Absorption Spectroscopy (XAS)

Author

Passos, Aline Ribeiro, La Fontaine, Camille, Rochet, Amélie, Briois, Valérie, Merkle, Dieter, Managing Editor, Wachs, Israel E., editor, and Bañares, Miguel A., editor

Published

2023

3. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni

Author

Tobias Lojewski, Mohamed F. Elhanoty, Loïc Le Guyader, Oscar Grånäs, Naman Agarwal, Christine Boeglin, Robert Carley, Andrea Castoldi, Christian David, Carsten Deiter, Florian Döring, RobinY Engel, Florian Erdinger, Hans Fangohr, Carlo Fiorini, Peter Fischer, Natalia Gerasimova, Rafael Gort, Frank deGroot, Karsten Hansen, Steffen Hauf, David Hickin, Manuel Izquierdo, Benjamin E. Van Kuiken, Yaroslav Kvashnin, Charles-Henri Lambert, David Lomidze, Stefano Maffessanti, Laurent Mercadier, Giuseppe Mercurio, Piter S. Miedema, Katharina Ollefs, Matthias Pace, Matteo Porro, Javad Rezvani, Benedikt Rösner, Nico Rothenbach, Andrey Samartsev, Andreas Scherz, Justina Schlappa, Christian Stamm, Martin Teichmann, Patrik Thunström, Monica Turcato, Alexander Yaroslavtsev, Jun Zhu, Martin Beye, Heiko Wende, Uwe Bovensiepen, Olle Eriksson, and Andrea Eschenlohr

Subjects

Ferromagnetism, local correlations, ultrafast dynamics, time-resolved x-ray absorption spectroscopy, time-dependent density functional theory, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The complex electronic structure of metallic ferromagnets is determined by a balance between exchange interaction, electron hopping leading to band formation, and local Coulomb repulsion. By combining high energy and temporal resolution in femtosecond time-resolved X-ray absorption spectroscopy with ab initio time-dependent density functional theory we analyze the electronic structure in fcc Ni on the time scale of these interactions in a pump-probe experiment. We distinguish transient broadening and energy shifts in the absorption spectra, which we demonstrate to be captured by electron repopulation respectively correlation-induced modifications of the electronic structure, requiring to take the local Coulomb interaction into account.

Published

2023

4. Mapping the Ultrafast Mechanistic Pathways of Co Photocatalysts in Pure Water through Time‐Resolved X‐ray Spectroscopy.

Author

Velasco, Lucia, Liu, Cunming, Zhang, Xiaoyi, Grau, Sergi, Gil‐Sepulcre, Marcos, Gimbert‐Suriñach, Carolina, Picón, Antonio, Llobet, Antoni, DeBeer, Serena, and Moonshiram, Dooshaye

Subjects

X-ray spectroscopy, TIME-resolved spectroscopy, ELECTRON donors, PROTON transfer reactions, PHOTOCATALYSTS, LIGHT absorption, CHARGE exchange

Abstract

Nanosecond time‐resolved X‐ray (tr‐XAS) and optical transient absorption spectroscopy (OTA) are applied to study 3 multimolecular photocatalytic systems with [Ru(bpy)3]2+photoabsorber, ascorbic acid electron donor and Co catalysts with methylene (1), hydroxomethylene (2) and methyl (3) amine substituents in pure water. OTA and tr‐XAS of 1 and 2 show that the favored catalytic pathway involves reductive quenching of the excited photosensitizer and electron transfer to the catalyst to form a CoII square pyramidal intermediate with a bonded aqua molecule followed by a CoI square planar derivative that decays within ≈8 μs. By contrast, a CoI square pyramidal intermediate with a longer decay lifetime of ≈35 μs is formed from an analogous CoII geometry for 3 in H2O. These results highlight the protonation of CoI to form the elusive hydride species to be the rate limiting step and show that the catalytic rate can be enhanced through hydrogen containing pendant amines that act as H−H bond formation proton relays. [ABSTRACT FROM AUTHOR]

Published

2023

5. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni.

Author

Lojewski, Tobias, Elhanoty, Mohamed F., Le Guyader, Loïc, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, RobinY, Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, deGroot, Frank, and Hansen, Karsten

Subjects

ELECTRON configuration, X-ray absorption, TIME-dependent density functional theory, COLLISION broadening, ELECTRONIC structure, ABSORPTION spectra, X-ray spectroscopy

Abstract

The complex electronic structure of metallic ferromagnets is determined by a balance between exchange interaction, electron hopping leading to band formation, and local Coulomb repulsion. By combining high energy and temporal resolution in femtosecond time-resolved X-ray absorption spectroscopy with ab initio time-dependent density functional theory we analyze the electronic structure in fcc Ni on the time scale of these interactions in a pump-probe experiment. We distinguish transient broadening and energy shifts in the absorption spectra, which we demonstrate to be captured by electron repopulation respectively correlation-induced modifications of the electronic structure, requiring to take the local Coulomb interaction into account. We demonstrate that local correlations are essential for the transient electronic structure of optically excited Ni; paving the way for analyzing these interactions on their intrinsic timescales in correlated materials. [ABSTRACT FROM AUTHOR]

Published

2023

6. Femtosecond Spin-State Switching Dynamics of Fe(II) Complexes Condensed in Thin Films.

Author

Kämmerer L, Kämmerer G, Gruber M, Grunwald J, Lojewski T, Mercadier L, Le Guyader L, Carley R, Carinan C, Gerasimova N, Hickin D, Van Kuiken BE, Mercurio G, Teichmann M, Kuppusamy SK, Scherz A, Ruben M, Sokolowski-Tinten K, Eschenlohr A, Ollefs K, Schmitz-Antoniak C, Tuczek F, Kratzer P, Bovensiepen U, and Wende H

Abstract

The tailoring of spin-crossover films has made significant progress over the past decade, mostly motivated by the prospect in technological applications. In contrast to spin-crossover complexes in solution, the investigation of the ultrafast switching in spin-crossover films has remained scarce. Combining the progress in molecule synthesis and film growth with the opportunities at X-ray free-electron lasers, we study the photoinduced spin-state switching dynamics of a molecular film at room temperature. The subpicosecond switching from the S = 0 low-spin ground state to the S = 2 high-spin state is monitored by analyzing the transient evolution of the Fe L 3 X-ray absorption edge fine structure, i.e. element-specifically at the switching center of the Fe(II) complex. Our measurements show the involvement of an intermediate state in the switching. At large excitation fluences, the fraction of high-spin molecules saturates at ≈50%, which is likely due to molecule-molecule interaction within the film.

Published

2024

7. Investigation of warm dense matter using time-resolved X-ray absorption spectroscopy with third- and fourth- generation light sources.

Author

Kang, Gyeongbo and Cho, Byoung Ick

Published

2021

8. Operando tracking of oxidation-state changes by coupling electrochemistry with time-resolved X-ray absorption spectroscopy demonstrated for water oxidation by a cobalt-based catalyst film.

Author

Pasquini, Chiara, Liu, Si, Chernev, Petko, Gonzalez-Flores, Diego, Mohammadi, Mohammad Reza, Kubella, Paul, Jiang, Shan, Loos, Stefan, Klingan, Katharina, Sikolenko, Vadim, Mebs, Stefan, Haumann, Michael, Beyer, Paul, D'Amario, Luca, Smith, Rodney D. L., Zaharieva, Ivelina, and Dau, Holger

Subjects

*OXIDATION of water, *X-ray absorption, *X-ray spectroscopy, *ELECTROCHEMISTRY, *OXYGEN evolution reactions, *CATALYSTS

Abstract

Transition metal oxides are promising electrocatalysts for water oxidation, i.e., the oxygen evolution reaction (OER), which is critical in electrochemical production of non-fossil fuels. The involvement of oxidation state changes of the metal in OER electrocatalysis is increasingly recognized in the literature. Tracing these oxidation states under operation conditions could provide relevant information for performance optimization and development of durable catalysts, but further methodical developments are needed. Here, we propose a strategy to use single-energy X-ray absorption spectroscopy for monitoring metal oxidation-state changes during OER operation with millisecond time resolution. The procedure to obtain time-resolved oxidation state values, using two calibration curves, is explained in detail. We demonstrate the significance of this approach as well as possible sources of data misinterpretation. We conclude that the combination of X-ray absorption spectroscopy with electrochemical techniques allows us to investigate the kinetics of redox transitions and to distinguish the catalytic current from the redox current. Tracking of the oxidation state changes of Co ions in electrodeposited oxide films during cyclic voltammetry in neutral pH electrolyte serves as a proof of principle. [ABSTRACT FROM AUTHOR]

Published

2021

9. In Situ X-Ray Absorption Spectroscopy to Study Growth of Nanoparticles

Author

Nayak, Chandrani, Jha, S. N., Bhattacharyya, Dibyendu, and Kumar, Challa S.S.R., editor

Published

2018

10. Oxidative Thermal Conversion of Hydrothermal Derived Precursors toward the Mixed-Metal Cobaltite Spinel Oxides (ZnCo2O4 and NiCo2O4): In-Situ Investigation by Synchrotron-Radiation XRD and XAS Techniques

Author

Wanchai Deeloed, Yuranan Hanlumyuang, Wanwisa Limphirat, Songwut Suramitr, Kantapat Chansaenpak, Pongsakorn Kanjanaboos, Suttipong Wannapaiboon, and Worawat Wattanathana

Subjects

cobaltite spinel, in-situ analysis, X-ray diffraction, time-resolved X-ray absorption spectroscopy, Crystallography, QD901-999

Abstract

In-situ investigations of structural transitions during the thermal-oxidative event of mixed-metal spinel oxide precursors, the so-called nickel- (NCO) and zinc-containing (ZCO) cobaltite spinel precursors, were investigated to understand the formations of the derived NiCo2O4 and ZnCo2O4 spinel oxides, respectively. In-situ XRD investigation revealed that emerged temperatures for spinel oxide phase were between 325 and 400 °C, depending on the cationic substituent. It indicated that the emerged temperature correlated with the absolute octahedral site preference energy (OSPE) of those cations that participated in the development of the spinel framework. Moreover, the incorporated nickel and zinc in the precursors was beneficial for inhibiting the occurrence of the undesired CoO phase. Time-resolved X-ray absorption spectroscopic (TRXAS) data suggested the local structure rearrangement of nickel and zinc throughout the calcination process, which differed from the behavior of single-metal cobalt system. The essential information reported herein provides a benefit to control the cationic distribution within spinel materials, leading to the tunable physical and chemical properties.

Published

2021

11. Upgrade of laser pump time‐resolved X‐ray probes in Beijing synchrotron.

Author

Yu, Can, Zhang, Yan, Lei, Ge, Wang, Hao, Wang, Yu-hang, Zhang, Bing-Bing, Sun, Da-Rui, Zhao, Jia-Li, Zhou, Yang-Fan, Li, Qiu-Ju, Gao, Zhen-hua, Zhan, Fei, and Tao, Ye

Subjects

*LASER pumping, *SYNCHROTRON radiation, *X-rays, *X-ray absorption, *SYNCHROTRONS, *FREE electron lasers

Abstract

The upgrade of the laser pump time‐resolved X‐ray probes, namely time‐resolved X‐ray absorption spectroscopy (TR‐XAS) and X‐ray diffraction (TR‐XRD), implemented at the Beijing Synchrotron Radiation Facility, is described. The improvements include a superbunch fill, a high‐efficiency fluorescence collection, an efficient spatial overlap protocol and a new data‐acquisition scheme. After upgrade, the adequate TR‐XAS signal is now obtained in a 0.3 mM solution, compared with a 6 mM solution in our previous report. Furthermore, to extend application in photophysics, the TR‐XAS probe is applied on SrCoO2.5 thin film. And for the first time, TR‐XAS is combined with TR‐XRD to simultaneously detect the kinetic trace of structural changes in thin film. [ABSTRACT FROM AUTHOR]

Published

2019

12. Time‐resolved X‐ray absorption spectroelectrochemistry of redox active species in solution.

Author

Cheaib, Khaled, Maurice, Baptiste, Mateo, Tiphaine, Halime, Zakaria, and Lassalle-Kaiser, Benedikt

Subjects

*X-ray absorption spectra, *CYCLIC voltammetry, *X-ray absorption, *X-ray spectroscopy, *SIGNAL-to-noise ratio, *ELECTROCHEMISTRY

Abstract

Electrochemistry and electrocatalysis have been receiving increased attention recently due to their crucial contribution to electrical‐to‐chemical conversion systems. We describe here the development and operation of a new spectroelectrochemical transmission cell for time‐resolved X‐ray absorption spectroscopy of solutions. X‐ray absorption spectra were recorded on the ROCK beamline of SOLEIL under constant and scanning potentials. Spectra were recorded at a frequency of 2 Hz during a cyclic voltammetry experiment performed on a 20 mM solution of FeIIICl3·6H2O at 20 mV s−1 scanning speed. Spectra with good signal‐to‐noise ratios were obtained when averaging ten spectra over 5 s, corresponding to a 100 mV potential range. A 90% conversion rate from Fe(III) to Fe(II) was spectroscopically demonstrated in cyclic voltammetry mode. [ABSTRACT FROM AUTHOR]

Published

2019

13. Elucidating the Nature of the Excited State of a Heteroleptic Copper Photosensitizer by using Time‐Resolved X‐ray Absorption Spectroscopy.

Author

Moonshiram, Dooshaye, Garrido‐Barros, Pablo, Gimbert‐Suriñach, Carolina, Picón, Antonio, Liu, Cunming, Zhang, Xiaoyi, Karnahl, Michael, and Llobet, Antoni

Subjects

*PHOTOSENSITIZERS, *ABSORPTION, *ELECTRONIC structure, *DIPOLE moments, *CHEMICAL reactions

Abstract

Abstract: We report the light‐induced electronic and geometric changes taking place within a heteroleptic CuI photosensitizer, namely [(xant)Cu(Me2phenPh2)]PF6 (xant=xantphos, Me2phenPh2=bathocuproine), by time‐resolved X‐ray absorption spectroscopy in the ps–μs time regime. Time‐resolved X‐ray absorption near edge structure (XANES) and extended X‐ray absorption fine structure (EXAFS) analysis enabled the elucidation of the electronic and structural configuration of the copper center in the excited state as well as its decay dynamics in different solvent conditions with and without triethylamine acting as a sacrificial electron donor. A three‐fold decrease in the decay lifetime of the excited state is observed in the presence of triethylamine, showing the feasibility of the reductive quenching pathway in the latter case. A prominent pre‐edge feature is observed in the XANES spectrum of the excited state upon metal to charge ligand transfer transition, showing an increased hybridization of the 3d states with the ligand p orbitals in the tetrahedron around the Cu center. EXAFS and density functional theory illustrate a significant shortening of the Cu−N and an elongation of the Cu−P bonds together with a decrease in the torsional angle between the xantphos and bathocuproine ligand. This study provides mechanistic time‐resolved understanding for the development of improved heteroleptic CuI photosensitizers, which can be used for the light‐driven production of hydrogen from water. [ABSTRACT FROM AUTHOR]

Published

2018

14. Towards a dynamic compression facility at the ESRF

Author

Sévelin-Radiguet, N., Torchio, R., Berruyer, G., Gonzalez, H., Pasternak, S., Perrin, F., Occelli, F., Pépin, C., Sollier, A., (0000-0002-6350-4180) Kraus, D., (0000-0001-5489-5952) Schuster, A., (0000-0001-8090-2626) Voigt, K., Zhang, M., Amouretti, A., Boury, A., Fiquet, G., Guyot, F., Harmand, M., Borri, M., Groves, J., Helsby, W., Branly, S., Norby, J., Pascarelli, S., Mathon, O., Sévelin-Radiguet, N., Torchio, R., Berruyer, G., Gonzalez, H., Pasternak, S., Perrin, F., Occelli, F., Pépin, C., Sollier, A., (0000-0002-6350-4180) Kraus, D., (0000-0001-5489-5952) Schuster, A., (0000-0001-8090-2626) Voigt, K., Zhang, M., Amouretti, A., Boury, A., Fiquet, G., Guyot, F., Harmand, M., Borri, M., Groves, J., Helsby, W., Branly, S., Norby, J., Pascarelli, S., and Mathon, O.

Abstract

Results of the 2018 commissioning and experimental campaigns of the new High Power Laser Facility on the Energy-dispersive X-ray Absorption Spectroscopy (ED-XAS) beamline ID24 at the ESRF are presented. The front-end of the future laser, delivering 15 J in 10 ns, was interfaced to the beamline. Laser-driven dynamic compression experiments were performed on iron oxides, iron alloys and bismuth probed by online time-resolved XAS.

Published

2022

15. The interplay of local electron correlations and ultrafast spin dynamics in fcc Ni

Author

Lojewski, Tobias, Elhanoty, Mohamed F., Guyader, Loïc Le, Grånäs, Oscar, Agarwal, Naman, Boeglin, Christine, Carley, Robert, Castoldi, Andrea, David, Christian, Deiter, Carsten, Döring, Florian, Engel, Robin Y., Erdinger, Florian, Fangohr, Hans, Fiorini, Carlo, Fischer, Peter, Gerasimova, Natalia, Gort, Rafael, de Groot, Frank, Hansen, Karsten, Hauf, Steffen, Hickin, David, Izquierdo, Manuel, Van Kuiken, Benjamin E., Kvashnin, Yaroslav, Lambert, Charles-Henri, Lomidze, David, Maffessanti, Stefano, Mercadier, Laurent, Mercurio, Giuseppe, Miedema, Piter S., Ollefs, Katharina, Pace, Matthias, Porro, Matteo, Rezvani, Javad, Rösner, Benedikt, Rothenbach, Nico, Samartsev, Andrey, Scherz, Andreas, Schlappa, Justina, Stamm, Christian, Teichmann, Martin, Thunstrom, Patrik, Turcato, Monica, Yaroslavtsev, Alexander, Zhu, Jun, Beye, Martin, Wende, Heiko, Bovensiepen, Uwe, Eriksson, Olle, and Eschenlohr, Andrea

Subjects

Condensed Matter - Materials Science, time-resolved x-ray absorption spectroscopy, Atom and Molecular Physics and Optics, local correlations, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Physik (inkl. Astronomie), Condensed Matter Physics, ultrafast dynamics, time-dependent density functional theory, Ferromagnetism, Atom- och molekylfysik och optik, General Materials Science, Den kondenserade materiens fysik

Abstract

The complex electronic structure of metallic ferromagnets is determined by a balance between exchange interaction, electron hopping leading to band formation, and local Coulomb repulsion. By combining high energy and temporal resolution in femtosecond time-resolved X-ray absorption spectroscopy with ab initio time-dependent density functional theory we analyze the electronic structure in fcc Ni on the time scale of these interactions in a pump-probe experiment. We distinguish transient broadening and energy shifts in the absorption spectra, which we demonstrate to be captured by electron repopulation respectively correlation-induced modifications of the electronic structure, requiring to take the local Coulomb interaction into account., MATERIALS RESEARCH LETTERS, 11 (8)

Published

2022

16. Towards a dynamic compression facility at the ESRF

Author

Nicolas Sévelin-Radiguet, Raffaella Torchio, Gilles Berruyer, Hervé Gonzalez, Sébastien Pasternak, Florian Perrin, Florent Occelli, Charles Pépin, Arnaud Sollier, Dominik Kraus, Anja Schuster, Katja Voigt, Min Zhang, Alexis Amouretti, Antoine Boury, Guillaume Fiquet, François Guyot, Marion Harmand, Marcello Borri, Janet Groves, William Helsby, Stéphane Branly, James Norby, Sakura Pascarelli, Olivier Mathon, European Synchrotron Radiation Facility (ESRF), DAM Île-de-France (DAM/DIF), Direction des Applications Militaires (DAM), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Helmholtz-Zentrum Dresden-Rossendorf (HZDR), Universität Rostock, Technische Universität Dresden = Dresden University of Technology (TU Dresden), Institute of Physical Science and Information Technology, Anhui University, Anhui University [Hefei], Institut de minéralogie, de physique des matériaux et de cosmochimie (IMPMC), Muséum national d'Histoire naturelle (MNHN)-Institut de recherche pour le développement [IRD] : UR206-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Science and Technology Facilities Council (STFC), and Amplitude Technologies

Subjects

laser-shock compression, time-resolved XAS, [PHYS]Physics [physics], time-resolved X-ray absorption spectroscopy, Nuclear and High Energy Physics, Radiation, laser shock, 02 engineering and technology, 021001 nanoscience & nanotechnology, 7. Clean energy, 01 natural sciences, Research Papers, dynamic com­pression, 0103 physical sciences, 010306 general physics, 0210 nano-technology, Instrumentation, dynamic compression

Abstract

The results of the 2018 commissioning and experimental campaigns of the new High Power Laser Facility on the Energy-dispersive X-ray Absorption Spectroscopy (ED-XAS) beamline ID24 at the ESRF are presented., Results of the 2018 commissioning and experimental campaigns of the new High Power Laser Facility on the Energy-dispersive X-ray Absorption Spectroscopy (ED-XAS) beamline ID24 at the ESRF are presented. The front-end of the future laser, delivering 15 J in 10 ns, was interfaced to the beamline. Laser-driven dynamic com­pression experiments were performed on iron oxides, iron alloys and bismuth probed by online time-resolved XAS.

Published

2022

17. A multi-MHz single-shot data acquisition scheme with high dynamic range: pump-probe X-ray experiments at synchrotrons.

Author

Britz, Alexander, Assefa, Tadesse A., Galler, Andreas, Gawelda, Wojciech, Diez, Michael, Zalden, Peter, Khakhulin, Dmitry, Fernandes, Bruno, Gessler, Patrick, Sotoudi Namin, Hamed, Beckmann, Andreas, Harder, Manuel, Yavaş, Hasan, and Bressler, Christian

Subjects

*X-rays, *SYNCHROTRONS, *RADIATION, *PHOTODIODES, *SIGNAL-to-noise ratio

Abstract

The technical implementation of a multi-MHz data acquisition scheme for laser-X-ray pump-probe experiments with pulse limited temporal resolution (100 ps) is presented. Such techniques are very attractive to benefit from the high-repetition rates of X-ray pulses delivered from advanced synchrotron radiation sources. Exploiting a synchronized 3.9 MHz laser excitation source, experiments in 60-bunch mode (7.8 MHz) at beamline P01 of the PETRA III storage ring are performed. Hereby molecular systems in liquid solutions are excited by the pulsed laser source and the total X-ray fluorescence yield (TFY) from the sample is recorded using silicon avalanche photodiode detectors (APDs). The subsequent digitizer card samples the APD signal traces in 0.5 ns steps with 12-bit resolution. These traces are then processed to deliver an integrated value for each recorded single X-ray pulse intensity and sorted into bins according to whether the laser excited the sample or not. For each subgroup the recorded single-shot values are averaged over ∼107 pulses to deliver a mean TFY value with its standard error for each data point, e.g. at a given X-ray probe energy. The sensitivity reaches down to the shot-noise limit, and signal-to-noise ratios approaching 1000 are achievable in only a few seconds collection time per data point. The dynamic range covers 100 photons pulse−1 and is only technically limited by the utilized APD. [ABSTRACT FROM AUTHOR]

Published

2016

18. Single-shot XAS on laser shock compressed Fe-rich alloys: Fe-Ni, Fe-Si and Fe oxides

Author

(0000-0001-8090-2626) Voigt, K., Amouretti, A., Sévelin-Radiguet, N., Torchio, R., Berruyer, G., Gonzalez, H., Pasternak, S., Perrin, F., Occelli, F., Pépin, C., Sollier, A., (0000-0001-5489-5952) Schuster, A., Zhang, M., Boury, A., Fiquet, G., Guyot, F., Harmand, M., Borri, M., Groves, J., Helsby, W., Pascarelli, S., Mathon, O., (0000-0002-6350-4180) Kraus, D., (0000-0001-8090-2626) Voigt, K., Amouretti, A., Sévelin-Radiguet, N., Torchio, R., Berruyer, G., Gonzalez, H., Pasternak, S., Perrin, F., Occelli, F., Pépin, C., Sollier, A., (0000-0001-5489-5952) Schuster, A., Zhang, M., Boury, A., Fiquet, G., Guyot, F., Harmand, M., Borri, M., Groves, J., Helsby, W., Pascarelli, S., Mathon, O., and (0000-0002-6350-4180) Kraus, D.

Abstract

Deep inside planets extreme material states can be found: pressures up to hundreds of GPa and temperatures up to thousands and ten thousands of K are common. From all planets, the Earth is most investigated, but open questions e.g. regarding the crystallographic structure and composition of the core material remain. The Earth’s core consists mostly of iron, supposedly in an alloy with a substantial amount of nickel. However, results from seismological studies suggest the presence of lighter elements (like H, C, O ,Si and S), too. Not only for geophysics but also for modelling terrestrial planets found in extrasolar systems, the study of the high-pressure high-temperature phase diagram of iron and its alloys is of importance. Bright X-ray sources in combination with high-power optical laser provide unique possibilities for creating and probing such extreme material states and their properties in the laboratory. In 2018, the High Power Laser Facility (HPLF) at the European Synchrotron Radiation Facility (ESRF) has started to be established. High quality X-ray absorption spectroscopy of dynamically compressed matter together with additional shock diagnostics will give insight into structural and electronic changes of the material as well as will give information about generated temperatures and pressures. This talk presents results from first commissioning experiments at this new outstanding facility, where laser shock compressed high-energy-density states of iron and its alloys with nickel and silicon have been investigated via single-shot X-ray absorption spectroscopy at the iron K edge.

Published

2021

19. Molecular Structural Dynamics of Photoactive Transition Metal Complexes in Solar Energy Conversion Studied by Ultrafast Optical Spectroscopy and LITR-XAS.

Author

Chen, L. X., Shaw, G. B., Wasinger, E. C., Zhang, X., Attenkofer, K., and Jennings, Guy

Subjects

*TRANSITION metal complexes, *MOLECULAR structure, *STRUCTURAL dynamics, *SOLAR energy, *OPTICAL spectroscopy

Abstract

Transition metal complexes play important roles in solar energy conversion due to their intense absorption within the solar spectrum, their capability of transferring electron and energy through the metal to ligand charge transfer (MLCT) or ligand to metal charge transfer (LMCT) excited state, and their capability of binding substrates through coordination geometry changes. Hence, structural dynamics of these complexes in their excited states need to be understood in order to gain knowledge of controlling solar energy conversion processes. We will present our recent studies on structural dynamics of two metal complexes using both ultrafast optical Spectroscopy and laser initiated time-resolved x-ray absorption Spectroscopy (LITR-XAS). In order to fully understand the roles of transition metal complexes in solar energy conversion, structural dynamics of these molecules in their excited states on ultrafast time scales are needed. We will discuss mainly two different transition metal complex systems, 1) ultrafast structural dynamics in the MLCT state of [Cu(I)(dmp)2]+ in different solvents, and 2) excited state structural dynamics of metalloporphyrins in solution. In the first system, a structural dynamics study using ultrafast up-conversion revealed time scale of the internal structural changes in the MLCT state, which provides guidance in future ultrafast structural determination using fs x-ray sources, such as LCLS. In the second system, a few examples of excited state metalloporphyrin structures obtained by LITR-XAS will be discussed with potential applications in photocatalysis and solar energy conversion. © 2007 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2007

20. Synchrotron ultrafast techniques for photoactive transition metal complexes.

Author

Borfecchia, Elisa, Garino, Claudio, Salassa, Luca, and Lamberti, Carlo

Subjects

*TRANSITION metal complexes, *PHOTOCHEMICAL research, *X-ray scattering, *X-ray absorption, *SYNCHROTRONS

Abstract

In the last decade, the use of time-resolved X-ray techniques has revealed the structure of light-generated transient species for a wide range of samples, from small organic molecules to proteins. Time resolutions of the order of 100 ps are typically reached, allowing one to monitor thermally equilibrated excited states and capture their structure as a function of time. This review aims at providing a general overview of the application of time-resolved X-ray solution scattering (TR-XSS) and time-resolved X-ray absorption spectroscopy (TRXAS), the two techniques prevalently employed in the investigation of light-triggered structural changes of transition metal complexes. In particular, we herein describe the fundamental physical principles for static XSS and XAS and illustrate the theory of time-resolved XSS and XAS together with data acquisition and analysis strategies. Selected pioneering examples of photoactive transition metal complexes studied by TR-XSS and TR-XAS are discussed in depth. [ABSTRACT FROM AUTHOR]

Published

2013

21. Oxidative Thermal Conversion of Hydrothermal Derived Precursors toward the Mixed-Metal Cobaltite Spinel Oxides (ZnCo 2 O 4 and NiCo 2 O 4): In-Situ Investigation by Synchrotron-Radiation XRD and XAS Techniques.

Author

Deeloed, Wanchai, Hanlumyuang, Yuranan, Limphirat, Wanwisa, Suramitr, Songwut, Chansaenpak, Kantapat, Kanjanaboos, Pongsakorn, Wannapaiboon, Suttipong, and Wattanathana, Worawat

Subjects

SPINEL, X-ray absorption, CHEMICAL properties, SPINEL group, COBALT, ZINC

Abstract

In-situ investigations of structural transitions during the thermal-oxidative event of mixed-metal spinel oxide precursors, the so-called nickel- (NCO) and zinc-containing (ZCO) cobaltite spinel precursors, were investigated to understand the formations of the derived NiCo2O4 and ZnCo2O4 spinel oxides, respectively. In-situ XRD investigation revealed that emerged temperatures for spinel oxide phase were between 325 and 400 °C, depending on the cationic substituent. It indicated that the emerged temperature correlated with the absolute octahedral site preference energy (OSPE) of those cations that participated in the development of the spinel framework. Moreover, the incorporated nickel and zinc in the precursors was beneficial for inhibiting the occurrence of the undesired CoO phase. Time-resolved X-ray absorption spectroscopic (TRXAS) data suggested the local structure rearrangement of nickel and zinc throughout the calcination process, which differed from the behavior of single-metal cobalt system. The essential information reported herein provides a benefit to control the cationic distribution within spinel materials, leading to the tunable physical and chemical properties. [ABSTRACT FROM AUTHOR]

Published

2021

22. Spectroscopic Characterization of Bio-inspired Ni-based Proton Reduction Catalyst Bearing Pentadentate N2S3 Ligand with Improved Photocatalytic Activity

Author

Winfried Leibl, Annamaria Quaranta, Dooshaye Moonshiram, Ally Aukauloo, Cunming Liu, Xiaoyi Zhang, Régis Guillot, Zakaria Halime, Philipp Gotico, Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Laboratoire Bioénergétique Membranaire et Stress (LBMS), Département Biochimie, Biophysique et Biologie Structurale (B3S), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and Photocatalyse et Biohydrogène (LPB)

Subjects

X-ray absorption spectroscopy, Absorption spectroscopy, 010405 organic chemistry, Chemistry, Ligand, [SDV]Life Sciences [q-bio], Organic Chemistry, Electron donor, General Chemistry, 010402 general chemistry, Photochemistry, Ascorbic acid, 01 natural sciences, Catalysis, 0104 chemical sciences, Bipyridine, chemistry.chemical_compound, Photocatalysis, Optical Transient Absorption, Time-Resolved X-ray Absorption Spectroscopy, Bio-inspired Catalysts, Hydrogen

Abstract

International audience; Inspired by the sulphur-rich environment found in active hydrogenase enzymes, a novel Ni-based proton reduction catalyst with pentadentate N 2 S 3 ligand was synthesized. When coupled with a [Ru(bpy) 3 ] 2+ photosensitiser and ascorbate as electron donor in a 1:1 mixture of dimethylacetamide and aqueous ascorbic acid/ascorbate buffer, the catalyst showed improved photocatalytic activity compared to a homologous counterpart with a tetradentate N 2 S 2 ligand. The mechanistic pathway of photo-induced hydrogen evolution was comprehensively analysed through optical transient absorption (OTA) and time-resolved X-ray absorption spectroscopy (tr-XAS) revealing important electronic and structural changes in the catalytic system during photo-irradiation. It was found that the Ni (II) catalyst undergoes a photo-induced metal-centred reduction to form a Ni (I) intermediate bearing a distorted square bipyramidal geometry. Further kinetic analyses pointed out differences in charge separation dynamics between the pentadentate and tetradentate homologues.

Published

2019

23. Charge-carrier Dynamics in Metal Oxides and Hybrid Lead Perovskites investigated by Time-Resolved UV and X-ray Spectroscopy

Author

Rossi, Thomas Charles Henry and Chergui, Majed

Subjects

Lead Halide Perovskite, Charge Injection, Charge-Transfer Insulator, Ultrafast Optical Spectroscopy, Time-Resolved X-ray Absorption Spectroscopy

Abstract

In modern ultrafast optoelectronic technologies based on wide band gap insulators, the non-equilibrium dynamics of photogenerated charges plays a major role. Unravelling the mechanisms of interaction between these charge carriers and their environment is crucial to support the design of more efficient devices. Especially, the absorption of photons with more energy than the optical band gap generates electrons-hole pairs (EHP) whose transport and dissociation as excitons or free charge carriers is of pivotal importance for the charge separa- tion at photovoltaic interfaces. The advent of ultrafast pump-probe optical spectroscopy in the deep-UV provides access to the dynamics of EHP through a variety of transient modifications of the optical spectrum. In this Thesis, the cooling of electrons in ZnO and methylammonium lead bromide perovskite (MAPbBr3), two broadly used direct band gap semiconductors, is tracked as they end up and accumulate at the bottom of the conduction band. ZnO has a fast cooling time of the order of 100 fs which efficiently converts photon excess energy into lattice heat while MAPbBr3 has a rather slow electron cooling time of the order of 400 fs, favorable for charge separation at interfaces as it drives the injection of hot carriers. Additionally, the high energy carried by the UV probe photons provides access to the photodynamics at different high symmetry points in the Brillouin zone. In a second step, these two semiconductors have been associated to other materials to form prototypical photovoltaic assemblies such as dye-sensitized (ZnO/N719) and solid-state lead perovskite sensitized (TiO2/MAPbBr3) interfaces. Upon electron injection into the transition metal oxide (ZnO or TiO2), dramatic changes are observed in the absorption close to the optical band gap from which the timescale of electron injection is obtained. It highlights how slight screening length and chemical potential changes can generate large modifications in the optical properties through many-body effects. At both interfaces, a delayed appearance of the electron at the bottom of the conduction band is observed which is due the formation of a bound state. This Thesis extends beyond the band insulators to the photodynamics of NiO, a strongly correlated charge-transfer insulator. Excitation above the optical band gap generates a large photoinduced absorption below the optical band gap which is characteristic of the interplay between electronic and low energy bosonic excitations. The dressing of electronic excitations with bosonic modes generates low energy excitation modes on ultrafast timescales which generate a competition between itinerant and localized resonances with a high degree of tunability. The progress made in resonant X-ray based time-resolved spectroscopies allows the investigation of the degree of charge localization around specific atoms in a system. Photogenerated electron localization in NiO is studied by time-resolved X-ray absorption spectroscopy, causing bond elongations and the formation of an electron-polaron in less than 100 ps. In a last part, the linear dichroism of the steady-state X-ray absorption spectrum of anatase TiO2 at the K-edge is studied which provides an unambiguous assignment of the pre-edge transitions as their orbital composition is strongly anisotropic and sensitive to the crystal orientation.

Published

2018

24. Ultrafast X-ray and Optical Spectroscopy of Binuclear Molecular Complexes

Author

Van der Veen, Renske Marjan and Chergui, Majed

Subjects

ultrafast spectroscopy, wave packet dynamics, time-resolved X-ray absorption spectroscopy, synchrotron radiation, structural dynamics, photocatalysis, transition metal complexes

Abstract

In this thesis we followed the synergetic approach of combining ultrafast optical and X-ray spectroscopies to unravel the electronic and geometric structural dynamics of the solvated binuclear transition metal complex [Pt2(P2O5H2)4] 4- (PtPOP). This molecule belongs to a broader class of d8 – d8 compounds that are known for their interesting photophysical properties and rich photochemical and photocatalytic reactivity. Broadband femtosecond fluorescence up-conversion and transient absorption spectroscopy have revealed the ultrafast vibrational-electronic relaxation pathways following excitation into the 1A2u (σ*dz2 → σpz) excited state for different solvents and excitation wavelengths. Both sets of data exhibit clear signatures of vibrational cooling (∼2 ps) and wave packet oscillations of the Pt-Pt stretch vibration in the 1A2u state with a period of 224 fs, that decay on a 1-2 ps time scale, and of intersystem crossing into the 3A2u state within 10-30 ps. The vibrational relaxation and intersystem crossing times exhibit a clear solvent dependence. We also extract from the transient absorption measurements the spectral distribution of the wave packet at given time delays, which reflects the distribution of Pt-Pt bond distances as a function of time, i.e. the structural dynamics of the system. We clearly establish the vibrational relaxation and coherence decay processes and we demonstrate that PtPOP represents a clear example of an harmonic oscillator that does not comply with the optical Bloch description due to very efficient coherence transfer between vibronic levels. We conclude that a direct Pt-solvent energy dissipation channel accounts for the vibrational cooling in the singlet state. Intersystem crossing from the 1A2u to the 3A2u state is induced by spin-vibronic coupling with a higher-lying triplet state and/or (transient) symmetry breaking in the 1A2u excited state. The particular structure, energetics and symmetry of the molecule play a decisive role in determining the relatively slow rate of intersystem crossing, despite the large spin-orbit coupling strength of the Pt atoms. Ultrafast X-ray absorption spectroscopy (XAS) is a powerful tool to observe electronic and geometric structures of short-lived reaction intermediates. We have measured the photoinduced changes in the Pt LIII X-ray absorption spectrum of PtPOP with picosecondix nanosecond resolution. A rigorous analysis of the time-resolved EXAFS results allowed us to establish the structure of the lowest triplet 3A2u excited state. We found that the Pt atoms contract by as much as 0.31(5) Å due to the formation of a new intermetallic bond. In addition, a significant, though minute, elongation of 0.010(6) Å of the coordination bonds could be derived from the transient X-ray absorption spectrum for the first time. Using state-of-the-art theoretical XAS codes, we were also able to assign photoinduced changes in the XANES spectrum, to changes in Pt d-electron density, ligand field splitting and orbital hybridization in the excited state. Spectral changes in the XANES multiplescattering features were used to derive a semi-quantitative value for the Pt-Pt contraction of ∼0.3 Å, which is in excellent agreement with the time-resolved EXAFS results. Application of ultrafast XAS and the data analysis methods to other chemical and biological systems in liquids offers an exciting perspective; in particular, in view of the recent development of intense free electron laser sources delivering ∼100 fs X-ray pulses, opening new venues in X-ray science that scientists could hitherto only dream of.

Published

2010

25. The fate of charge carriers in solar materials investigated by time resolved X-ray and optical spectroscopy

Author

Santomauro, Fabio Giacomo and Chergui, Majed

Subjects

photovoltaics, transient absorption spectroscopy, time-resolved x-ray absorption spectroscopy, Lead halide perovskites, Titanium dioxide, photocatalysis, Ultrafast spectroscopy

Abstract

This thesis investigates the photoinduced charge carrier dynamics of TiO2 nanoparticles and CsPbX3 (X = Cl, Br) nanocrystals, by means of ultrafast x-ray absorption spectroscopy (XAS) and transient absorption spectroscopy (TAS). TiO2 is among the most promising transition metal oxides for applications such as photocatalysis and photovoltaics. In the latter, TiO2 has been used over the years in dye-sensitized solar cells (DSSCs) as electron transport material. CsPbX3 belongs to the class of lead halide perovskites and is currently one of the most investigated materials for solar energy applications, due to the high conversion efficiencies and ease of preparation. These materials are commonly used in solar cells with an all-solid-state DSSC architecture as light absorbers. Solar energy conversion is governed by the generation of charge carriers, their subsequent evolution as excitons or free charge carriers, and eventually their localization. Ultrafast spectroscopy can gain insights into the evolution of charge carriers by following their dynamics in real time. For this reason, ultrafast XAS was the main technique used in this work, as it combines elemental and structural sensitivity to study the fate of charge carriers and their evolution under operating conditions. The early stages of electron localization in TiO2 anatase nanoparticles upon photoexcitation at 3.5 eV, are investigated by fs-XAS at the Ti K-edge using the synchrotron slicing technique. The results show that localization of electrons at Ti atoms occurs in < 300 fs, forming Ti3+ centres, in or near the unit cell where the electron is excited. Moreover, electron localization is due to its trapping at pentacoordinated sites, mostly present in the surface shell region. Similar conclusions are drawn for another polymorph of TiO2, rutile, from ps-XAS at the Ti K-edge. Here electrons are trapped next to oxygen vacancies at 100 ps after photoexcitation. Electrons in rutile though, show a weaker tendency to localization than in anatase and this could explain the differences in photocatalytic performances between these two polymorphs. In the second part of this thesis, the ultrafast charge carrier dynamics of CsPb(ClBr)3 nanocrystals is investigated using fs-TAS in the visible region (~1.8-3.1 eV) upon photoexcitation at 3.1 eV. This material represents an ideal system to study the ultrafast physics of lead halide perovskite in general, because ultrafast TA studies suggest that the charge carrier dynamics are similar to the organic-inorganic materials but do not suffer from the same stability issues. Here, the ultrafast transition from free charge carriers to excitons is observed in a fluence dependent study, which sheds light on the interpretation of a long lived spectral feature rising from a transient electroabsorption effect. Finally, the charge carrier dynamics of CsPbX3 (X = Cl, Br) is investigated using ps-XAS at the Br K-edge, the Pb L3-edge and Cs L2-edge upon photoexcitation at 3.5 eV. The Br K-edge transients at 100 ps delay show evidence for a full electron charge being withdrawn from the Br atoms, i.e. the hole is localized due to formation of a small polaron. The transients at the Pb L3-edge point to the opposite, i.e. the electrons are fully delocalized as conduction band electrons and there is no hint of trapping. Lastly, the Cs L2-edge shows no transient signal, in agreement with predictions based on the partial density of states in the material.

26. Picosecond X-ray Absorption Studies of Electron Dynamics in Titania Nanoparticles and Ruthenium Dye Sensitizer Complexes

Author

Rittmann-Frank, Mercedes Hannelore and Chergui, Majed

Subjects

time-resolved X-ray absorption spectroscopy, synchrotron radiation, Ruthenium-based dye molecules N719, dye-sensitized solar cells, photocatalysis, colloidal Titanium dioxide nanoparticles