Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation
The melting mechanisms of Pt-based multimetallic nanoparticles (NPs) are important to help determine their optimal melting processes. To understand the melting and coalescence behaviors of heterogeneous NPs (Pd–Pt NPs) with various sizes and compositions, molecular dynamics (MD) simulation was emplo...
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sg-ntu-dr.10356-1638672023-07-14T16:06:59Z Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation Cheng, Chunyu Guo, Yuanyuan Zou, Yiming Ong, Amanda Jiamin Tok, Alfred Iing Yoong Li, Shuzhou School of Materials Science and Engineering Engineering::Materials::Nanostructured materials Molecular Dynamics Melting Mechanism The melting mechanisms of Pt-based multimetallic nanoparticles (NPs) are important to help determine their optimal melting processes. To understand the melting and coalescence behaviors of heterogeneous NPs (Pd–Pt NPs) with various sizes and compositions, molecular dynamics (MD) simulation was employed. The MD results for larger Pd–Pt NPs with an effective diameter of 4.6–7.8 nm show that PtPd alloy can form at Pd/Pt interface before Pd NP melted completely, while for Pt-core/Pd-shell NP and Pd-core/Pt-shell NP, PtPd alloy formed only after Pd portion melted completely. For smaller Pd–Pt NPs with an effective diameter of 2.5–4.0 nm, PdPt alloy is not formed until both Pd and Pt NPs melted completely. Besides, the coalescence process of Pd–Pt NPs depends on the melting temperature of Pt NP when Pt composition is higher than 20 at%. Furthermore, the melting mechanisms of Pd/Pt/Ir trimetallic NPs are investigated. A two-step melting process occurs in Pd–Pt–Ir NPs and Ir-core/Pt-shell/Pd-shell NP, and the melting sequence of Pd-core/Pt-shell/Ir-shell NP and Pt-core/Pd-shell/Ir-shell NP is different from Pd/Pt bimetallic NPs. Graphical abstract: [Figure not available: see fulltext.]. Agency for Science, Technology and Research (A*STAR) Submitted/Accepted version The authors would like to acknowledge funding support from the Agency for Science, Technology and Research (A*STAR, No. SERC A1983c0032), AME Individual Research Grant (IRG), and the computing resources from National Supercomputing Centre Singapore. 2022-12-21T06:09:17Z 2022-12-21T06:09:17Z 2022 Journal Article Cheng, C., Guo, Y., Zou, Y., Ong, A. J., Tok, A. I. Y. & Li, S. (2022). Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation. Rare Metals. https://dx.doi.org/10.1007/s12598-022-02160-5 1001-0521 https://hdl.handle.net/10356/163867 10.1007/s12598-022-02160-5 2-s2.0-85142433228 en SERC A1983c0032 Rare Metals © 2022 Youke Publishing Co., Ltd. All rights reserved. This paper was published in Rare Metals and is made available with permission of Youke Publishing Co., Ltd. application/pdf |
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Engineering::Materials::Nanostructured materials Molecular Dynamics Melting Mechanism Cheng, Chunyu Guo, Yuanyuan Zou, Yiming Ong, Amanda Jiamin Tok, Alfred Iing Yoong Li, Shuzhou Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| description |
The melting mechanisms of Pt-based multimetallic nanoparticles (NPs) are important to help determine their optimal melting processes. To understand the melting and coalescence behaviors of heterogeneous NPs (Pd–Pt NPs) with various sizes and compositions, molecular dynamics (MD) simulation was employed. The MD results for larger Pd–Pt NPs with an effective diameter of 4.6–7.8 nm show that PtPd alloy can form at Pd/Pt interface before Pd NP melted completely, while for Pt-core/Pd-shell NP and Pd-core/Pt-shell NP, PtPd alloy formed only after Pd portion melted completely. For smaller Pd–Pt NPs with an effective diameter of 2.5–4.0 nm, PdPt alloy is not formed until both Pd and Pt NPs melted completely. Besides, the coalescence process of Pd–Pt NPs depends on the melting temperature of Pt NP when Pt composition is higher than 20 at%. Furthermore, the melting mechanisms of Pd/Pt/Ir trimetallic NPs are investigated. A two-step melting process occurs in Pd–Pt–Ir NPs and Ir-core/Pt-shell/Pd-shell NP, and the melting sequence of Pd-core/Pt-shell/Ir-shell NP and Pt-core/Pd-shell/Ir-shell NP is different from Pd/Pt bimetallic NPs. Graphical abstract: [Figure not available: see fulltext.]. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Cheng, Chunyu Guo, Yuanyuan Zou, Yiming Ong, Amanda Jiamin Tok, Alfred Iing Yoong Li, Shuzhou |
| format |
Article |
| author |
Cheng, Chunyu Guo, Yuanyuan Zou, Yiming Ong, Amanda Jiamin Tok, Alfred Iing Yoong Li, Shuzhou |
| author_sort |
Cheng, Chunyu |
| title |
Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| title_short |
Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| title_full |
Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| title_fullStr |
Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| title_full_unstemmed |
Melting mechanisms of Pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| title_sort |
melting mechanisms of pt-based multimetallic spherical nanoparticles by molecular dynamics simulation |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163867 |
| _version_ |
1773551321723437056 |