Resolving Nonequilibrium Shape Variations among Millions of Gold Nanoparticles

Shen, Z.; Paulraj, L. X.; Bean, R.; Bielecki, J.; Bergemann, M.; Daurer, B. J.; Ekeberg, T.; Estillore, A. D.; Fangohr, H.; Giewekemeyer, K.; Karnevskiy, M.; Kirian, R. A.; Kirkwood, H.; Kim, Y.; Koliyadu, J. C. P.; Lange, H.; Letrun, R.; Lübke, J.; Mall, A.; Michelat, T.; Morgan, A. J.; Roth, N.; Samanta, A. K.; Sato, T.; Sikorski, M.; Schulz, F.; Vagovic, P.; Wollweber, T.; Worbs, L.; Maia, F.; Horke, D. A.; Küpper, J; Mancuso, A. P.; Chapman, H; Ayyer, K.; Loh, N. D.

doi:10.1021/acsnano.4c00378

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Resolving Nonequilibrium Shape Variations among Millions of Gold Nanoparticles

Shen, Z., Paulraj, L. X., Bean, R., Bielecki, J., Bergemann, M., Daurer, B. J., et al. (2024). Resolving Nonequilibrium Shape Variations among Millions of Gold Nanoparticles. ACS Nano, 18(24), 15576-15589. doi:10.1021/acsnano.4c00378.

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Supporting Information: Section 1 presents examples of 2D EMC (Expand-Maximize-Compress) clusters; Section 2 details the derivation of formulas for finite volume Fourier transformation; Section 3 compiles the characterization results of our nanoparticle samples

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Creators:
Shen, Z.^{1, 2, 3}, Author
Paulraj, L. X.^{4, 5}, Author
Bean, R.⁵, Author
Bielecki, J.⁵, Author
Bergemann, M.⁵, Author
Daurer, B. J.⁵, Author
Ekeberg, T.⁵, Author
Estillore, A. D.⁵, Author
Fangohr, H.^{3, 6, 7}, Author
Giewekemeyer, K.⁵, Author
Karnevskiy, M.⁵, Author
Kirian, R. A.⁵, Author
Kirkwood, H.⁵, Author
Kim, Y.⁵, Author
Koliyadu, J. C. P.⁵, Author
Lange, H.⁵, Author
Letrun, R.⁵, Author
Lübke, J.⁵, Author
Mall, A.^{2, 3, 4}, Author
Michelat, T.⁵, Author
Morgan, A. J.⁵, AuthorRoth, N.⁵, AuthorSamanta, A. K.⁵, AuthorSato, T.⁵, AuthorSikorski, M.⁵, AuthorSchulz, F.⁵, AuthorVagovic, P.⁵, AuthorWollweber, T.^{2, 3, 8}, AuthorWorbs, L.⁵, AuthorMaia, F.⁵, AuthorHorke, D. A.⁵, AuthorKüpper, J⁵, AuthorMancuso, A. P.⁵, AuthorChapman, H⁵, AuthorAyyer, K.^{2, 3, 8}, AuthorLoh, N. D.⁵, Author more..

Affiliations:
1Department of Physics, National University of Singapore, ou_persistent22
2Computational Nanoscale Imaging, Condensed Matter Dynamics Department, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_3012829
3Center for Free-Electron Laser Science, ou_persistent22
4International Max Planck Research School for Ultrafast Imaging & Structural Dynamics (IMPRS-UFAST), Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_2266714
5external, ou_persistent22
6European XFEL, ou_persistent22
7Computational Science, Scientific Service Units, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_3267028
8The Hamburg Center for Ultrafast Imaging, Universität Hamburg, ou_persistent22

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Free keywords: XFEL, gold nanoparticle, Monte Carlo, structural heterogeneity, high-throughput single-particle imaging

Abstract: Nanoparticles, exhibiting functionally relevant structural heterogeneity, are at the forefront of cutting-edge research. Now, high-throughput single-particle imaging (SPI) with X-ray free-electron lasers (XFELs) creates opportunities for recovering the shape distributions of millions of particles that exhibit functionally relevant structural heterogeneity. To realize this potential, three challenges have to be overcome: (1) simultaneous parametrization of structural variability in real and reciprocal spaces; (2) efficiently inferring the latent parameters of each SPI measurement; (3) scaling up comparisons between 10⁵ structural models and 10⁶ XFEL-SPI measurements. Here, we describe how we overcame these three challenges to resolve the nonequilibrium shape distributions within millions of gold nanoparticles imaged at the European XFEL. These shape distributions allowed us to quantify the degree of asymmetry in these particles, discover a relatively stable “shape envelope” among nanoparticles, discern finite-size effects related to shape-controlling surfactants, and extrapolate nanoparticles’ shapes to their idealized thermodynamic limit. Ultimately, these demonstrations show that XFEL SPI can help transform nanoparticle shape characterization from anecdotally interesting to statistically meaningful.

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Language(s): eng - English

Dates: Modified: 2024-04-27Submitted: 2024-01-11Accepted: 2024-05-06Published Online: 2024-05-29Date issued: 2024-06-18

Publication Status: Issued

Pages: 14

Publishing info: -

Table of Contents: -

Rev. Type: Peer

Identifiers: arXiv: 2401.04896
DOI: 10.1021/acsnano.4c00378

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Project name : The authors acknowledge the support of John C.H. Spence, who continues to inspire many of us. N.D.L. would like to thank the support of the Early Career Grant by the National University of Singapore, and the Singapore Ministry of Education AcRF Tier 1 grant. Z.S. thanks the Ph.D. scholarship from the Physics Department at the National University of Singapore. Both N.D.L. and Z.S. are grateful for the support by Bai Chang from the Centre for Bioimaging Sciences at the National University of Singapore for IT infrastructure support. N.D.L. and Z.S. would like to express their gratitude to Dr. Salah Awel, Prof. Anton Barty, Dr. Mark S. Hunter, and Dr. Oleksandr Yefanov for their contributions to this project. Paul Lourdu Xavier acknowledges a fellowship from the Joachim Herz Stiftung, Germany. Paul Lourdu Xavier and Henry N. Chapman acknowledge support from the Human Frontiers Science Program, France (grant No. RGP0010/2017) and Frontiers in Attosecond X-ray Science: Imaging and Spectroscopy (ERC-2013-SyG 609920). Richard A. Kirian would like to thank the support of the National Science Foundation, BioXFEL Science and Technology Center (award #1231306) and the National Science Foundation, Directorate for Biological Sciences (award #1943448). We thank access to electron microscopes at CSSB cryoEM facility, DESY NanoLab, and EuXFEL.

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Title: ACS Nano

Abbreviation : ACS Nano

Source Genre: Journal

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Publ. Info: Washington, DC : American Chemical Society

Pages: - Volume / Issue: 18 (24) Sequence Number: - Start / End Page: 15576 - 15589 Identifier: ISSN: 1936-0851
CoNE: https://pure.mpg.de/cone/journals/resource/1936-0851