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Published March 24, 2020 | Published + Supplemental Material
Journal Article Open

High-throughput, combinatorial synthesis of multimetallic nanoclusters

Yao, Yonggang
Huang, Zhennan
Li, Tangyuan
Wang, Hang
Liu, Yifan
Stein, Helge S. ORCID icon
Mao, Yimin
Gao, Jinlong
Jiao, Miaolun
Dong, Qi
Dai, Jiaqi
Xie, Pengfei
Xie, Hua
Lacey, Steven D.
Takeuchi, Ichiro
Gregoire, John M. ORCID icon
Jiang, Rongzhong
Wang, Chao
Taylor, Andre D.
Shahbazian-Yassar, Reza
Hu, Liangbing

Abstract

Multimetallic nanoclusters (MMNCs) offer unique and tailorable surface chemistries that hold great potential for numerous catalytic applications. The efficient exploration of this vast chemical space necessitates an accelerated discovery pipeline that supersedes traditional "trial-and-error" experimentation while guaranteeing uniform microstructures despite compositional complexity. Herein, we report the high-throughput synthesis of an extensive series of ultrafine and homogeneous alloy MMNCs, achieved by 1) a flexible compositional design by formulation in the precursor solution phase and 2) the ultrafast synthesis of alloy MMNCs using thermal shock heating (i.e., ∼1,650 K, ∼500 ms). This approach is remarkably facile and easily accessible compared to conventional vapor-phase deposition, and the particle size and structural uniformity enable comparative studies across compositionally different MMNCs. Rapid electrochemical screening is demonstrated by using a scanning droplet cell, enabling us to discover two promising electrocatalysts, which we subsequently validated using a rotating disk setup. This demonstrated high-throughput material discovery pipeline presents a paradigm for facile and accelerated exploration of MMNCs for a broad range of applications.

Additional Information

© 2020 the Author(s). Published by PNAS. This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND). Edited by Catherine J. Murphy, University of Illinois Urbana–Champaign, Urbana, IL, and approved February 6, 2020 (received for review March 8, 2019). PNAS first published March 10, 2020. This work was supported by the Maryland Nanocenter, its Surface Analysis Center, and the AIMLab. R.S.-Y. was supported by NSF Division of Materials Research Award 1809439. R.J. thanks the Electrochemistry Branch, Combat Capabilities Development Command Army Research Laboratory for helpful collaboration in electrocatalysis. Y.L. and C.W. were supported by the Young Investigator Program of the Army Research Office (Grant W911 NF-15-1-0123). Scanning droplet cell measurements were supported by the Office of Science of the US Department of Energy under Award DE-SC0004993. Y.M. thanks Peter Z. Zavalij for his helpful discussion. This research used resources of the Advanced Photon Source, a US Department of Energy (DOE) Office of Science User Facility operated for the DOE Office of Science by Argonne National Laboratory under Contract DE-AC02-06CH11357. The identification of any commercial product or trade name does not imply endorsement or recommendation by the National Institute of Standards and Technology. Data Availability: All data are available within the main text and SI Appendix. Author contributions: Y.Y. and L.H. designed research; Y.Y., Z.H., T.L., H.W., Y.L., Y.M., J.G., M.J., Q.D., P.X., H.X., S.D.L., and R.J. performed research; Z.H., H.S.S., Y.M., J.D., J.M.G., and R.S.-Y. contributed new reagents/analytic tools; Y.Y., T.L., H.W., Y.L., H.S.S., Y.M., J.G., M.J., Q.D., P.X., I.T., J.M.G., R.J., C.W., A.D.T., R.S.-Y., and L.H. analyzed data; Y.Y. and L.H. wrote the paper; and T.L., I.T., C.W., A.D.T., and R.S.-Y. revised the manuscript. Y.Y., Z.H., T.L., and H.W. contributed equally to this work. The authors declare no competing interest. This article is a PNAS Direct Submission. This article contains supporting information online at https://www.pnas.org/lookup/suppl/doi:10.1073/pnas.1903721117/-/DCSupplemental.

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