Your search keyword '"Tim B. van Driel"' showing total 17 results

1. The Liquid Jet Endstation for Hard X-ray Scattering and Spectroscopy at the Linac Coherent Light Source

Author

Cali Antolini, Victor Sosa Alfaro, Marco Reinhard, Gourab Chatterjee, Ryan Ribson, Dimosthenis Sokaras, Leland Gee, Takahiro Sato, Patrick L. Kramer, Sumana Laxmi Raj, Brandon Hayes, Pamela Schleissner, Angel T. Garcia-Esparza, Jinkyu Lim, Jeffrey T. Babicz, Alec H. Follmer, Silke Nelson, Matthieu Chollet, Roberto Alonso-Mori, and Tim B. van Driel

Subjects

XFEL, X-ray diffraction, X-ray scattering, X-ray absorption spectroscopy, XANES, EXAFS, Organic chemistry, QD241-441

Abstract

The ability to study chemical dynamics on ultrafast timescales has greatly advanced with the introduction of X-ray free electron lasers (XFELs) providing short pulses of intense X-rays tailored to probe atomic structure and electronic configuration. Fully exploiting the full potential of XFELs requires specialized experimental endstations along with the development of techniques and methods to successfully carry out experiments. The liquid jet endstation (LJE) at the Linac Coherent Light Source (LCLS) has been developed to study photochemistry and biochemistry in solution systems using a combination of X-ray solution scattering (XSS), X-ray absorption spectroscopy (XAS), and X-ray emission spectroscopy (XES). The pump–probe setup utilizes an optical laser to excite the sample, which is subsequently probed by a hard X-ray pulse to resolve structural and electronic dynamics at their intrinsic femtosecond timescales. The LJE ensures reliable sample delivery to the X-ray interaction point via various liquid jets, enabling rapid replenishment of thin samples with millimolar concentrations and low sample volumes at the 120 Hz repetition rate of the LCLS beam. This paper provides a detailed description of the LJE design and of the techniques it enables, with an emphasis on the diagnostics required for real-time monitoring of the liquid jet and on the spatiotemporal overlap methods used to optimize the signal. Additionally, various scientific examples are discussed, highlighting the versatility of the LJE.

Published

2024

2. Disentangling the evolution of electrons and holes in photoexcited ZnO nanoparticles

Author

Christopher J. Milne, Natalia Nagornova, Thomas Pope, Hui-Yuan Chen, Thomas Rossi, Jakub Szlachetko, Wojciech Gawelda, Alexander Britz, Tim B. van Driel, Leonardo Sala, Simon Ebner, Tetsuo Katayama, Stephen H. Southworth, Gilles Doumy, Anne Marie March, C. Stefan Lehmann, Melanie Mucke, Denys Iablonskyi, Yoshiaki Kumagai, Gregor Knopp, Koji Motomura, Tadashi Togashi, Shigeki Owada, Makina Yabashi, Martin M. Nielsen, Marek Pajek, Kiyoshi Ueda, Rafael Abela, Thomas J. Penfold, and Majed Chergui

Subjects

Crystallography, QD901-999

Abstract

The evolution of charge carriers in photoexcited room temperature ZnO nanoparticles in solution is investigated using ultrafast ultraviolet photoluminescence spectroscopy, ultrafast Zn K-edge absorption spectroscopy, and ab initio molecular dynamics (MD) simulations. The photoluminescence is excited at 4.66 eV, well above the band edge, and shows that electron cooling in the conduction band and exciton formation occur in

Published

2023

3. Microfluidic liquid sheets as large-area targets for high repetition XFELs

Author

David J. Hoffman, Tim B. Van Driel, Thomas Kroll, Christopher J. Crissman, Elizabeth S. Ryland, Kacie J. Nelson, Amy A. Cordones, Jake D. Koralek, and Daniel P. DePonte

Subjects

microfluidics, x-ray, structural biology, devices, instruments, samples, Biology (General), QH301-705.5

Abstract

The high intensity of X-ray free electron lasers (XFELs) can damage solution-phase samples on every scale, ranging from the molecular or electronic structure of a sample to the macroscopic structure of a liquid microjet. By using a large surface area liquid sheet microjet as a sample target instead of a standard cylindrical microjet, the incident X-ray spot size can be increased such that the incident intensity falls below the damage threshold. This capability is becoming particularly important for high repetition rate XFELs, where destroying a target with each pulse would require prohibitively large volumes of sample. We present here a study of microfluidic liquid sheet dimensions as a function of liquid flow rate. Sheet lengths, widths and thickness gradients are shown for three styles of nozzles fabricated from isotropically etched glass. In-vacuum operation and sample recirculation using these nozzles is demonstrated. The effects of intense XFEL pulses on the structure of a liquid sheet are also briefly examined.

Published

2022

4. Vibrational wavepacket dynamics in Fe carbene photosensitizer determined with femtosecond X-ray emission and scattering

Author

Kristjan Kunnus, Morgane Vacher, Tobias C. B. Harlang, Kasper S. Kjær, Kristoffer Haldrup, Elisa Biasin, Tim B. van Driel, Mátyás Pápai, Pavel Chabera, Yizhu Liu, Hideyuki Tatsuno, Cornelia Timm, Erik Källman, Mickaël Delcey, Robert W. Hartsock, Marco E. Reinhard, Sergey Koroidov, Mads G. Laursen, Frederik B. Hansen, Peter Vester, Morten Christensen, Lise Sandberg, Zoltán Németh, Dorottya Sárosiné Szemes, Éva Bajnóczi, Roberto Alonso-Mori, James M. Glownia, Silke Nelson, Marcin Sikorski, Dimosthenis Sokaras, Henrik T. Lemke, Sophie E. Canton, Klaus B. Møller, Martin M. Nielsen, György Vankó, Kenneth Wärnmark, Villy Sundström, Petter Persson, Marcus Lundberg, Jens Uhlig, and Kelly J. Gaffney

Subjects

Science

Abstract

Photoinduced non-adiabatic intramolecular processes have important applications but their mechanisms are challenging to explore. Here the authors detect and assign vibrational wavepacket dynamics in a Fe carbene complex by ultrafast X-ray emission spectroscopy and X-ray scattering, resolving nuclear and electronic motion.

Published

2020

5. Coherent structural trapping through wave packet dispersion during photoinduced spin state switching

Author

Henrik T. Lemke, Kasper S. Kjær, Robert Hartsock, Tim B. van Driel, Matthieu Chollet, James M. Glownia, Sanghoon Song, Diling Zhu, Elisabetta Pace, Samir F. Matar, Martin M. Nielsen, Maurizio Benfatto, Kelly J. Gaffney, Eric Collet, and Marco Cammarata

Subjects

Science

Abstract

Ultrafast nonadiabatic chemical dynamics during molecular photo-transformations remain challenging to describe since electronic/nuclear configurations are coupled. Here the authors use time-resolved X-ray absorption spectroscopy to probe the light-induced spin-state trapping dynamics of [Fe(bpy)3]2+beyond the Born-Oppenheimer approximation.

Published

2017

6. Atomistic characterization of the active-site solvation dynamics of a model photocatalyst

Author

Tim B. van Driel, Kasper S. Kjær, Robert W. Hartsock, Asmus O. Dohn, Tobias Harlang, Matthieu Chollet, Morten Christensen, Wojciech Gawelda, Niels E. Henriksen, Jong Goo Kim, Kristoffer Haldrup, Kyung Hwan Kim, Hyotcherl Ihee, Jeongho Kim, Henrik Lemke, Zheng Sun, Villy Sundström, Wenkai Zhang, Diling Zhu, Klaus B. Møller, Martin M. Nielsen, and Kelly J. Gaffney

Subjects

Science

Abstract

Interactions between reactive excited states of molecular photocatalysts and surrounding solvent can dictate reaction pathways, but are not readily accessible to conventional spectroscopic methods. Here the authors use diffuse X-ray scattering and theory to study the atomistic solvation dynamics of a photoexcited di-iridium complex in acetonitrile.

Published

2016

7. Ligand manipulation of charge transfer excited state relaxation and spin crossover in [Fe(2,2′-bipyridine)2(CN)2]

Author

Kasper S. Kjær, Wenkai Zhang, Roberto Alonso-Mori, Uwe Bergmann, Matthieu Chollet, Ryan G. Hadt, Robert W. Hartsock, Tobias Harlang, Thomas Kroll, Katharina Kubiček, Henrik T. Lemke, Huiyang W. Liang, Yizhu Liu, Martin M. Nielsen, Joseph S. Robinson, Edward I. Solomon, Dimosthenis Sokaras, Tim B. van Driel, Tsu-Chien Weng, Diling Zhu, Petter Persson, Kenneth Wärnmark, Villy Sundström, and Kelly J. Gaffney

Subjects

Crystallography, QD901-999

Abstract

We have used femtosecond resolution UV-visible and Kβ x-ray emission spectroscopy to characterize the electronic excited state dynamics of [Fe(bpy)2(CN)2], where bpy=2,2′-bipyridine, initiated by metal-to-ligand charge transfer (MLCT) excitation. The excited-state absorption in the transient UV-visible spectra, associated with the 2,2′-bipyridine radical anion, provides a robust marker for the MLCT excited state, while the transient Kβ x-ray emission spectra provide a clear measure of intermediate and high spin metal-centered excited states. From these measurements, we conclude that the MLCT state of [Fe(bpy)2(CN)2] undergoes ultrafast spin crossover to a metal-centered quintet excited state through a short lived metal-centered triplet transient species. These measurements of [Fe(bpy)2(CN)2] complement prior measurement performed on [Fe(bpy)3]2+ and [Fe(bpy)(CN)4]2− in dimethylsulfoxide solution and help complete the chemical series [Fe(bpy)N(CN)6–2N]2N-4, where N = 1–3. The measurements confirm that simple ligand modifications can significantly change the relaxation pathways and excited state lifetimes and support the further investigation of light harvesting and photocatalytic applications of 3d transition metal complexes.

Published

2017

8. Revealing Excited‐State Trajectories on Potential Energy Surfaces with Atomic Resolution in Real Time

Author

Denis Leshchev, Andrew J. S. Valentine, Pyosang Kim, Alexis W. Mills, Subhangi Roy, Arnab Chakraborty, Elisa Biasin, Kristoffer Haldrup, Darren J. Hsu, Matthew S. Kirschner, Dolev Rimmerman, Matthieu Chollet, J. Michael Glownia, Tim B. van Driel, Felix N. Castellano, Xiaosong Li, and Lin X. Chen

Subjects

Intersystem Crossing, Ultrafast Spectroscopy, Transition-Metal Complexes, General Medicine, Excited States, General Chemistry, Catalysis, Platinum

Abstract

Photoexcited molecular trajectories on potential energy surfaces (PESs) prior to thermalization are intimately connected to the photochemical reaction outcome. The excited-state trajectories of a diplatinum complex featuring photo-activated metal–metal σ-bond formation and associated Pt−Pt stretching motions were detected in real time using femtosecond wide-angle X-ray solution scattering. The observed motions correspond well with coherent vibrational wavepacket motions detected by femtosecond optical transient absorption. Two key coordinates for intersystem crossing have been identified, the Pt−Pt bond length and the orientation of the ligands coordinated with the platinum centers, along which the excited-state trajectories can be projected onto the calculated PESs of the excited states. This investigation has gleaned novel insight into electronic transitions occurring on the time scales of vibrational motions measured in real time, revealing ultrafast nonadiabatic or non-equilibrium processes along excited-state trajectories involving multiple excited-state PESs.

Published

2023

9. Solvent-Dependent Structural Dynamics in the Ultrafast Photodissociation Reaction of Triiodide Observed with Time-Resolved X-ray Solution Scattering

Author

Amke Nimmrich, Matthijs R. Panman, Oskar Berntsson, Elisa Biasin, Stephan Niebling, Jonas Petersson, Maria Hoernke, Alexander Björling, Emil Gustavsson, Tim B. van Driel, Asmus O. Dohn, Mads Laursen, Diana B. Zederkof, Kensuke Tono, Tetsuo Katayama, Shigeki Owada, Martin M. Nielsen, Jan Davidsson, Jens Uhlig, Jochen S. Hub, Kristoffer Haldrup, and Sebastian Westenhoff

Subjects

Colloid and Surface Chemistry, General Chemistry, Biochemistry, Catalysis

Published

2023

10. Tracking structural solvent reorganization and recombination dynamics following e

Author

Peter, Vester, Katharina, Kubicek, Roberto, Alonso-Mori, Tadesse, Assefa, Elisa, Biasin, Morten, Christensen, Asmus O, Dohn, Tim B, van Driel, Andreas, Galler, Wojciech, Gawelda, Tobias C B, Harlang, Niels E, Henriksen, Kasper S, Kjær, Thomas S, Kuhlman, Zoltán, Németh, Zhangatay, Nurekeyev, Mátyás, Pápai, Jochen, Rittman, György, Vankó, Hasan, Yavas, Diana B, Zederkof, Uwe, Bergmann, Martin M, Nielsen, Klaus B, Møller, Kristoffer, Haldrup, and Christian, Bressler

Abstract

We present a sub-picosecond resolved investigation of the structural solvent reorganization and geminate recombination dynamics following 400 nm two-photon excitation and photodetachment of a valence p electron from the aqueous atomic solute, I

Published

2022

11. Publisher’s Note: 'Tracking structural solvent reorganization and recombination dynamics following e− photoabstraction from aqueous I− with femtosecond x-ray spectroscopy and scattering' [J. Chem. Phys. 157, 224201 (2022)]

Author

Peter Vester, Katharina Kubicek, Roberto Alonso-Mori, Tadesse Assefa, Elisa Biasin, Morten Christensen, Asmus O. Dohn, Tim B. van Driel, Andreas Galler, Wojciech Gawelda, Tobias C. B. Harlang, Niels E. Henriksen, Kasper S. Kjær, Thomas S. Kuhlman, Zoltán Németh, Zhangatay Nurekeyev, Mátyás Pápai, Jochen Rittman, György Vankó, Hasan Yavas, Diana B. Zederkof, Uwe Bergmann, Martin M. Nielsen, Klaus B. Møller, Kristoffer Haldrup, and Christian Bressler

Subjects

General Physics and Astronomy, Physical and Theoretical Chemistry

Published

2023

12. Optically induced anisotropy in time-resolved scattering: Imaging molecular scale structure and dynamics in disordered media with experiment and theory

Author

Andrés Montoya-Castillo, Michael S. Chen, Sumana L. Raj, Kenneth A. Jung, Kasper S. Kjaer, Tobias Morawietz, Kelly J. Gaffney, Tim B. van Driel, and Thomas E. Markland

Subjects

Chemical Physics (physics.chem-ph), Statistical Mechanics (cond-mat.stat-mech), Physics - Chemical Physics, General Physics and Astronomy, FOS: Physical sciences, Disordered Systems and Neural Networks (cond-mat.dis-nn), Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics, Optics (physics.optics), Physics - Optics

Abstract

Time-resolved scattering experiments enable imaging of materials at the molecular scale with femtosecond time resolution. However, in disordered media they provide access to just one radial dimension thus limiting the study of orientational structure and dynamics. Here we introduce a rigorous and practical theoretical framework for predicting and interpreting experiments combining optically induced anisotropy and time-resolved scattering. Using impulsive nuclear Raman and ultrafast X-ray scattering experiments of chloroform and simulations, we demonstrate that this framework can accurately predict and elucidate both the spatial and temporal features of these experiments.

Published

2022

13. Tracking structural solvent reorganization and recombination dynamics following e-photoabstraction from aqueous I-with femtosecond x-ray spectroscopy and scattering

Author

Peter Vester, Katharina Kubicek, Roberto Alonso-Mori, Tadesse Assefa, Elisa Biasin, Morten Christensen, Asmus O. Dohn, Tim B. van Driel, Andreas Galler, Wojciech Gawelda, Tobias C. B. Harlang, Niels E. Henriksen, Kasper S. Kjær, Thomas S. Kuhlman, Zoltán Németh, Zhangatay Nurekeyev, Mátyás Pápai, Jochen Rittman, György Vankó, Hasan Yavas, Diana B. Zederkof, Uwe Bergmann, Martin M. Nielsen, Klaus B. Møller, Kristoffer Haldrup, and Christian Bressler

Subjects

General Physics and Astronomy, Physical and Theoretical Chemistry

Abstract

We present a sub-picosecond resolved investigation of the structural solvent reorganization and geminate recombination dynamics following 400 nm two-photon excitation and photodetachment of a valence p electron from the aqueous atomic solute, I−(aq). The measurements utilized time-resolved X-ray Absorption Near Edge Structure (TR-XANES) spectroscopy and X-ray Solution Scattering (TR-XSS) at the Linac Coherent Light Source x-ray free electron laser in a laser pump/x-ray probe experiment. The XANES measurements around the L1-edge of the generated nascent iodine atoms (I0) yield an average electron ejection distance from the iodine parent of 7.4 ± 1.5 Å with an excitation yield of about 1/3 of the 0.1M NaI aqueous solution. The kinetic traces of the XANES measurement are in agreement with a purely diffusion-driven geminate iodine–electron recombination model without the need for a long-lived (I0:e−) contact pair. Nonequilibrium classical molecular dynamics simulations indicate a delayed response of the caging H2O solvent shell and this is supported by the structural analysis of the XSS data: We identify a two-step process exhibiting a 0.1 ps delayed solvent shell reorganization time within the tight H-bond network and a 0.3 ps time constant for the mean iodine–oxygen distance changes. The results indicate that most of the reorganization can be explained classically by a transition from a hydrophilic cavity with a well-ordered first solvation shell (hydrogens pointing toward I−) to an expanded cavity around I0 with a more random orientation of the H2O molecules in a broadened first solvation shell.

Published

2022

14. The Photoactive Excited State of the B

Author

Nicholas A, Miller, April K, Kaneshiro, Arkaprabha, Konar, Roberto, Alonso-Mori, Alexander, Britz, Aniruddha, Deb, James M, Glownia, Jake D, Koralek, Leena, Mallik, Joseph H, Meadows, Lindsay B, Michocki, Tim B, van Driel, Markos, Koutmos, S, Padmanabhan, Montserrat, Elías-Arnanz, Kevin J, Kubarych, E Neil G, Marsh, James E, Penner-Hahn, and Roseanne J, Sension

Subjects

Cobalt

Abstract

We have used transient absorption spectroscopy in the UV-visible and X-ray regions to characterize the excited state of CarH, a protein photoreceptor that uses a form of B

Published

2020

15. Antivitamins B

Author

Nicholas A, Miller, Lindsay B, Michocki, Roberto, Alonso-Mori, Alexander, Britz, Aniruddha, Deb, Daniel P, DePonte, James M, Glownia, April K, Kaneshiro, Christoph, Kieninger, Jake, Koralek, Joseph H, Meadows, Tim B, van Driel, Bernhard, Kräutler, Kevin J, Kubarych, James E, Penner-Hahn, and Roseanne J, Sension

Subjects

Models, Molecular, Kinetics, Vitamin B 12, Coordination Complexes, X-Rays, Molecular Conformation, Quantum Theory, Thermodynamics, Cobalt, Photochemical Processes, Carbon

Abstract

Polarized transient X-ray absorption near-edge structure (XANES) was used to probe the excited-state structure of a photostable B

Published

2019

16. Solvent control of charge transfer excited state relaxation pathways in [Fe(2,2'-bipyridine)(CN)

Author

Kasper S, Kjær, Kristjan, Kunnus, Tobias C B, Harlang, Tim B, Van Driel, Kathryn, Ledbetter, Robert W, Hartsock, Marco E, Reinhard, Sergey, Koroidov, Lin, Li, Mads G, Laursen, Elisa, Biasin, Frederik B, Hansen, Peter, Vester, Morten, Christensen, Kristoffer, Haldrup, Martin M, Nielsen, Pavel, Chabera, Yizhu, Liu, Hideyuki, Tatsuno, Cornelia, Timm, Jens, Uhlig, Villy, Sundstöm, Zoltán, Németh, Dorottya Sárosiné, Szemes, Éva, Bajnóczi, György, Vankó, Roberto, Alonso-Mori, James M, Glownia, Silke, Nelson, Marcin, Sikorski, Dimosthenis, Sokaras, Henrik T, Lemke, Sophie E, Canton, Kenneth, Wärnmark, Petter, Persson, Amy A, Cordones, and Kelly J, Gaffney

Abstract

The excited state dynamics of solvated [Fe(bpy)(CN)

Published

2018

17. Detailed Characterization of a Nanosecond-Lived Excited State: X-ray and Theoretical Investigation of the Quintet State in Photoexcited [Fe(terpy)

Author

György, Vankó, Amélie, Bordage, Mátyás, Pápai, Kristoffer, Haldrup, Pieter, Glatzel, Anne Marie, March, Gilles, Doumy, Alexander, Britz, Andreas, Galler, Tadesse, Assefa, Delphine, Cabaret, Amélie, Juhin, Tim B, van Driel, Kasper S, Kjær, Asmus, Dohn, Klaus B, Møller, Henrik T, Lemke, Erik, Gallo, Mauro, Rovezzi, Zoltán, Németh, Emese, Rozsályi, Tamás, Rozgonyi, Jens, Uhlig, Villy, Sundström, Martin M, Nielsen, Linda, Young, Stephen H, Southworth, Christian, Bressler, and Wojciech, Gawelda

Subjects

Article

Abstract

Theoretical predictions show that depending on the populations of the Fe 3dxy, 3dxz, and 3dyz orbitals two possible quintet states can exist for the high-spin state of the photoswitchable model system [Fe(terpy)2]2+. The differences in the structure and molecular properties of these 5B2 and 5E quintets are very small and pose a substantial challenge for experiments to resolve them. Yet for a better understanding of the physics of this system, which can lead to the design of novel molecules with enhanced photoswitching performance, it is vital to determine which high-spin state is reached in the transitions that follow the light excitation. The quintet state can be prepared with a short laser pulse and can be studied with cutting-edge time-resolved X-ray techniques. Here we report on the application of an extended set of X-ray spectroscopy and scattering techniques applied to investigate the quintet state of [Fe(terpy)2]2+ 80 ps after light excitation. High-quality X-ray absorption, nonresonant emission, and resonant emission spectra as well as X-ray diffuse scattering data clearly reflect the formation of the high-spin state of the [Fe(terpy)2]2+ molecule; moreover, extended X-ray absorption fine structure spectroscopy resolves the Fe–ligand bond-length variations with unprecedented bond-length accuracy in time-resolved experiments. With ab initio calculations we determine why, in contrast to most related systems, one configurational mode is insufficient for the description of the low-spin (LS)–high-spin (HS) transition. We identify the electronic structure origin of the differences between the two possible quintet modes, and finally, we unambiguously identify the formed quintet state as 5E, in agreement with our theoretical expectations.

Published

2015