Characterizing crystalline defects in single nanoparticles from angular correlations of single-shot diffracted X-rays

Niozu, Akinobu; Kumagai, Yoshiaki; Nishiyama, Toshiyuki; Fukuzawa, H.; Motomura, K.; Bucher, Maximilian; Asa, Kazuki; Sato, Yoshibumi; Ito, Yuta; Takanashi, Tsukasa; You, Daehyun; Ono, Tomoshige; Li, Yiwen; Kukk, E.; Miron, Catalin; Neagu, Liviu; Callegari, Carlo; Fraia, Michele Di; Rossi, G.; Galli, D. E.; Pincelli, Tommaso; Colombo, Alessandro; Owada, Shigeki; Tono, Kensuke; Kameshima, Takashi; Joti, Yasumasa; Katayama, Tetsuo; Togashi, Tadashi; Yabashi, Makina; Matsuda, Kazuhiro; Nagaya, K.; Bostedt, Christoph; Ueda, Kiyoshi

doi:10.1107/s205225252000144x

Cited by 6 publications

(7 citation statements)

References 52 publications

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“…The present findings may validate the 'diffraction-beforedestruction' approach of single bio-macromolecules and protein microcrystals, as long as the hydrogen atoms can be neglected, and also suggest the importance of understanding influences of charge dynamics that occur within the X-ray-pulse duration to the X-ray scattering. We have also been conducting spectroscopic experiments using soft-X-ray FEL [49][50][51] and X-ray diffraction experiments [52][53][54][55] at SACLA, though these attempts were not described in the present review article. We believe that electronic and structural dynamics in various forms of matter will be investigated extensively employing XFELs all over the world and we hope that our attempts described in this article will contribute to such investigations.…”

Section: Discussionmentioning

confidence: 99%

X-ray induced ultrafast dynamics in atoms, molecules, and clusters: experimental studies at an X-ray free-electron laser facility SACLA and modelling

Fukuzawa

Ueda

2020

Advances in Physics: X

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X-ray free electron lasers (XFELs) deliver intense, coherent, femtosecond X-ray laser pulses. They are opening new research fields of studying ultrafast electronic and structural dynamics in various forms of matter and interaction of intense and short X-ray pulses with matter. For such studies, atoms, molecules, and atomic clusters in the gas phase may provide us with ideal platforms as various levels of experimental methods and theory are within reach. Developing experimental setups of electron and ion spectroscopies for gas-phase experiments at SACLA, a low-repetition rate X-ray free electron laser facility in Japan, we have studied the interaction of intense, short X-ray pulses with atoms, molecules, and atomic clusters. Via these experimental investigations and modelling efforts, we gain insight into the interaction of these intense pulses with the single-particle targets and extracted the information about how they are modified during the X-ray pulse duration. We summarize these studies in the present review. The information reported here will be important for any XFEL applications as the scattering signal used to image any targets may be strongly influenced by the XFEL-induced dynamics that occur in the target within the pulse duration.

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Section: Discussionmentioning

confidence: 99%

X-ray induced ultrafast dynamics in atoms, molecules, and clusters: experimental studies at an X-ray free-electron laser facility SACLA and modelling

Fukuzawa

Ueda

2020

Advances in Physics: X

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“…Here, we consider the scattered intensity distribution measured by a 2D detector. The conventional AXCCA is based on the analysis of a two-point cross-correlation function (CCF) defined as (Niozu et al, 2020) Cðq 1 ; q 2 ; ÁÞ ¼…”

Section: Axcca Applied To the Intensity Distribution In 3d Reciprocal...mentioning

confidence: 99%

“…Indeed, each pair of momentum transfer vectors taken in 3D reciprocal space lay in a certain 2D hyperplane that can be thought of as a 2D diffraction pattern. If the number of the randomly oriented 2D patterns is big enough, they cover the whole 3D space and the CCFs averaged over such a set of 2D patterns are identical to the CCFs calculated for the 3D pattern (Niozu et al, 2020). The number of randomly oriented 2D scattering patterns required to obtain the same information as from the 3D scattered intensity distribution is discussed in Section 3.3.…”

Section: Axcca Applied To the Intensity Distribution In 3d Reciprocal...mentioning

confidence: 99%

“…AXCCA was shown to be useful to extract additional information from the scattering patterns of crystalline samples (Mendez et al, 2016;Niozu et al, 2020). In this case, the scattered intensity contains well defined Bragg peaks originating from the crystallographic planes of the sample.…”

Section: Ccfs In the Case Of A Crystalline Samplementioning

confidence: 99%

“…To explore the symmetries of a 3D sample, one typically collects many 2D patterns from randomly oriented identical samples, for example, injected bioparticles (Kurta et al, 2017;Pande et al, 2018) or nanocrystals (Mendez et al, 2016;Niozu et al, 2020;Ayyer et al, 2021) as shown in Fig. 1(a).…”

Section: Introductionmentioning

confidence: 99%

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Angular X-ray cross-correlation analysis applied to the scattering data in 3D reciprocal space from a single crystal

Lapkin¹,

Shabalin²,

Meijer³

et al. 2022

Int Union Crystallogr J

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An application of angular X-ray cross-correlation analysis (AXCCA) to the scattered intensity distribution measured in 3D reciprocal space from a single-crystalline sample is proposed in this work. Contrary to the conventional application of AXCCA, when averaging over many 2D diffraction patterns collected from different randomly oriented samples is required, the proposed approach provides an insight into the structure of a single specimen. This is particularly useful in studies of defect-rich samples that are unlikely to have the same structure. The application of the method is shown on an example of a qualitative structure determination of a colloidal crystal from simulated as well as experimentally measured 3D scattered intensity distributions.

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Crystallization kinetics of atomic crystals revealed by a single-shot and single-particle X-ray diffraction experiment

Niozu

Kumagai

Hiraki

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Crystallization is a fundamental natural phenomenon and the ubiquitous physical process in materials science for the design of new materials. So far, experimental observations of the structural dynamics in crystallization have been mostly restricted to slow dynamics. We present here an exclusive way to explore the dynamics of crystallization in highly controlled conditions (i.e., in the absence of impurities acting as seeds of the crystallites) as it occurs in vacuum. We have measured the early formation stage of solid Xe nanoparticles nucleated in an expanding supercooled Xe jet by means of an X-ray diffraction experiment with 10-fs X-ray free-electron laser (XFEL) pulses. We found that the structure of Xe nanoparticles is not pure face-centered cubic (fcc), the expected stable phase, but a mixture of fcc and randomly stacked hexagonal close-packed (rhcp) structures. Furthermore, we identified the instantaneous coexistence of the comparably sized fcc and rhcp domains in single Xe nanoparticles. The observations are explained by the scenario of structural aging, in which the nanoparticles initially crystallize in the highly stacking-disordered rhcp phase and the structure later forms the stable fcc phase. The results are reminiscent of analogous observations in hard-sphere systems, indicating the universal role of the stacking-disordered phase in nucleation.

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Characterizing crystalline defects in single nanoparticles from angular correlations of single-shot diffracted X-rays

Cited by 6 publications

References 52 publications

X-ray induced ultrafast dynamics in atoms, molecules, and clusters: experimental studies at an X-ray free-electron laser facility SACLA and modelling

X-ray induced ultrafast dynamics in atoms, molecules, and clusters: experimental studies at an X-ray free-electron laser facility SACLA and modelling

Angular X-ray cross-correlation analysis applied to the scattering data in 3D reciprocal space from a single crystal

Crystallization kinetics of atomic crystals revealed by a single-shot and single-particle X-ray diffraction experiment

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