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Single-shot 3D coherent diffractive imaging of core-shell nanoparticles with elemental specificity.
- Pryor, Alan;
- Rana, Arjun;
- Xu, Rui;
- Rodriguez, Jose A;
- Yang, Yongsoo;
- Gallagher-Jones, Marcus;
- Jiang, Huaidong;
- Kanhaiya, Krishan;
- Nathanson, Michael;
- Park, Jaehyun;
- Kim, Sunam;
- Kim, Sangsoo;
- Nam, Daewoong;
- Yue, Yu;
- Fan, Jiadong;
- Sun, Zhibin;
- Zhang, Bosheng;
- Gardner, Dennis F;
- Dias, Carlos Sato Baraldi;
- Joti, Yasumasa;
- Hatsui, Takaki;
- Kameshima, Takashi;
- Inubushi, Yuichi;
- Tono, Kensuke;
- Lee, Jim Yang;
- Yabashi, Makina;
- Song, Changyong;
- Ishikawa, Tetsuya;
- Kapteyn, Henry C;
- Murnane, Margaret M;
- Heinz, Hendrik;
- Miao, Jianwei
- et al.
Published Web Location
https://doi.org/10.1038/s41598-018-26182-1Abstract
We report 3D coherent diffractive imaging (CDI) of Au/Pd core-shell nanoparticles with 6.1 nm spatial resolution with elemental specificity. We measured single-shot diffraction patterns of the nanoparticles using intense x-ray free electron laser pulses. By exploiting the curvature of the Ewald sphere and the symmetry of the nanoparticle, we reconstructed the 3D electron density of 34 core-shell structures from these diffraction patterns. To extract 3D structural information beyond the diffraction signal, we implemented a super-resolution technique by taking advantage of CDI's quantitative reconstruction capabilities. We used high-resolution model fitting to determine the Au core size and the Pd shell thickness to be 65.0 ± 1.0 nm and 4.0 ± 0.5 nm, respectively. We also identified the 3D elemental distribution inside the nanoparticles with an accuracy of 3%. To further examine the model fitting procedure, we simulated noisy diffraction patterns from a Au/Pd core-shell model and a solid Au model and confirmed the validity of the method. We anticipate this super-resolution CDI method can be generally used for quantitative 3D imaging of symmetrical nanostructures with elemental specificity.
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