Modulating fcc and hcp Ruthenium on the Surface of Palladium-Copper Alloy through Tunable Lattice Mismatch

Yao Yancai; He Dong Sheng; Lin Yue; Feng Xiaoqian; Wang Xin; Yin Peiqun; Hong Xun; Zhou Gang; Wu Yuen; Li Yadong

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Modulating fcc and hcp Ruthenium on the Surface of Palladium-Copper Alloy through Tunable Lattice Mismatch

机译：通过可调谐晶格失配调制钯铜合金表面的fcc和hcp钌

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Herein, we report an epitaxial-growth-mediated method to grow face-centered cubic (fcc) Ru, which is thermodynamically unfavorable in the bulk form, on the surface of Pd-Cu alloy. Induced by the galvanic replacement between Ru and Pd-Cu alloy, a shape transformation from a Pd-Cu@Ru core-shell to a yolk-shell structure was observed during the epitaxial growth. The successful coating of the unconventional crystallographic structure is critically dependent on the moderate lattice mismatch between the fcc Ru overlayer and PdCu3 alloy substrate. Further, both fcc and hexagonal close packed (hcp) Ru can be selectively grown through varying the lattice spacing of the Pd-Cu substrate. The presented findings provide a new synthetic pathway to control the crystallographic structure of metal nanomaterials.

机译：本文中，我们报道了一种外延生长介导的方法，可在Pd-Cu合金表面上生长以面心为中心的立方（fcc）Ru，这在体积上对热力学不利。在外延生长过程中，由于Ru和Pd-Cu合金之间的电流置换，导致了从Pd-Cu @ Ru核-壳结构向卵黄-壳结构的转变。非常规晶体结构的成功涂覆关键取决于fcc Ru覆盖层和PdCu3合金基底之间的适度晶格失配。此外，可以通过改变Pd-Cu衬底的晶格间距来选择性地生长fcc和六方密堆积（hcp）Ru。提出的发现为控制金属纳米材料的晶体结构提供了新的合成途径。

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《Angewandte Chemie》 |2016年第18期|共5页
作者
Yao Yancai; He Dong Sheng; Lin Yue; Feng Xiaoqian; Wang Xin; Yin Peiqun; Hong Xun; Zhou Gang; Wu Yuen; Li Yadong;
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正文语种 eng
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crystallographic control; epitaxial growth; fcc ruthenium; lattice mismatch; nanoparticles;

机译：晶体学控制;外延生长;fcc钌;晶格失配;纳米粒子;

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1. Modulating fcc and hcp Ruthenium on the Surface of Palladium-Copper Alloy through Tunable Lattice Mismatch [J] . Yao Yancai, He Dong Sheng, Lin Yue, Angewandte Chemie . 2016,第18期

机译：通过可调谐晶格失配调制钯铜合金表面的fcc和hcp钌
2. Stacking sequence coherency in hcp/fcc transition metal alloys - Magnetocrystalline anisotropy for hcp Co based alloys and fcc non-ferromagnetic materials for designed pseudo-hcp structure [J] . Shin Saito, Migaku Takahashi 日本磁気学会学術講演概要集 . 2012,第36期

机译：hcp / fcc过渡金属合金中的堆叠序列相干性-用于拟态hcp结构的hcp Co基合金和fcc非铁磁材料的磁晶各向异性
3. Formation of Co–Ni Alloy Superlattices Composed of Face-centered Cubic (FCC) and Hexagonal Close Packed (HCP) Atomic Layers Using a Rectangular Pulse Voltage [J] . M. Saitou International Journal of Electrochemical Science . 2019,第4期

机译：使用矩形脉冲电压形成由面心立方（FCC）和六方密堆积（HCP）原子层组成的Co-Ni合金超晶格
4. Characteristics of the Martensitic Transformation Fcc(gamma)-HCP(epsilon) Associated with SME in Fe-Si based Alloys and a Novel Shape Memory Alloy Fe-Mn-Si-Re [C] . T.Y. Hsu China-Japan bilateral symposium on shape memory alloys . 1998

机译：与SME在Fe-Si基合金中的马氏体转化FCC（伽马）-HCP（epsilon）的特征及新颖的形状记忆合金Fe-Mn-Si-Re
5. The O-lattice modeling of bcc:hcp interfacial structure and the structure of massive:matrix interfaces in silver-26 at% aluminum alloy. [D] . Mou, Yiwen. 1992

机译：银-26 at％铝合金中bcc：hcp界面结构和块：基质界面的O晶格建模。
6. Selective control of fcc and hcp crystal structures in Au–Ru solid-solution alloy nanoparticles [O] . Quan Zhang, Kohei Kusada, Dongshuang Wu, -1

机译：Au-Ru固溶合金纳米颗粒中fcc和hcp晶体结构的选择性控制
7. Effect of Alloying Elements on fcc/hcp Martensitic Transformation and Shape Memory Properties in Co-Al Alloys [O] . Keisuke Ando, Toshihiro Omori, Jun Sato, 2006

机译：合金元素对CO-AL合金FCC / HCP马氏体转化和形状记忆性质的影响
8. Thermodynamic Properties of Hcp Iron and Iron Ruthenium Alloys [R] . Stepakoff, G. L., Kaufman, L. 1967

机译：Hcp铁，钌合金的热力学性质

Modulating fcc and hcp Ruthenium on the Surface of Palladium-Copper Alloy through Tunable Lattice Mismatch

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