Structure and shape transformation from multiply twinned particles to epitaxial nanocrystals: Importance of interface on the structure of Ag nanoparticles

B. Q. Li; J. M. Zuo

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Structure and shape transformation from multiply twinned particles to epitaxial nanocrystals: Importance of interface on the structure of Ag nanoparticles

机译：从多重孪晶颗粒到外延纳米晶体的结构和形状转变：界面对银纳米颗粒结构的重要性

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The effect of a substrate on the structure of nanometer-sized metal particles was investigated for Ag on silicon surfaces by using high-resolution transmission electron microscope and electron diffraction. The nanometer-sized Ag particles, formed by the vapor deposition of Ag on (001) hydrogen-terminated Si (H-Si) surfaces at room temperature, adopt multiply twinned structures. Upon annealing, the multiply twinned Ag nanoparticles on H-Si (001) transform into fcc nanocrystals. The fcc Ag takes up the cube-on-cube epitaxy, with the orientation relationship of Ag(001)//Si(001) and Ag [110]//Si [110]. An energetic model is developed to account for the structure and shape transition of supported multiply twinned particles to fcc epitaxial nanocrystals. Possible transition mechanisms are discussed.

机译：通过高分辨率透射电子显微镜和电子衍射研究了基底对纳米尺寸金属颗粒结构在硅表面上银的影响。通过在室温下将Ag气相沉积在（001）氢封端的Si（H-Si）表面上形成的纳米级Ag颗粒采用多重孪晶结构。退火后，H-Si（001）上的多晶Ag纳米颗粒转变为fcc纳米晶体。 fcc Ag以Ag（001）// Si（001）和Ag [110] // Si [110]的取向关系占据了立方体对立方体的外延。开发了一种能量模型来说明支撑的多孪晶颗粒向fcc外延纳米晶体的结构和形状转变。讨论了可能的过渡机制。

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《Physical review. B, Condensed Matter And Materials Physics》 |2005年第8期|p.085434.1-085434.7|共7页
作者
B. Q. Li; J. M. Zuo;
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作者单位

Department of Materials Science and Engineering and Frederick Seitz Materials Research Laboratory, University of Illinois, Urbana, Illinois 61801, USA;

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正文语种 eng
中图分类固体物理学;
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nanoscale materials: clusters; nanoparticles; nanotubes; and nanocrystals; solid surfaces and solid-solid interfaces: structure and energetics; structure and morphology; thickness; crystalline orientation and texture;

机译：纳米级材料：簇;纳米粒子纳米管纳米晶体;固体表面和固体-固体界面：结构和能量学;结构和形态;厚度;晶体取向和织构;

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Structure and shape transformation from multiply twinned particles to epitaxial nanocrystals: Importance of interface on the structure of Ag nanoparticles

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