Orientation-resolved 3d_(5/2) binding energy shift of Rh and Pd surfaces: anisotropy of the skin-depth lattice strain and quantum trapping

Yan Wang; Yan Guang Nie; Ji Sheng Pan

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Orientation-resolved 3d_(5/2) binding energy shift of Rh and Pd surfaces: anisotropy of the skin-depth lattice strain and quantum trapping

机译：Rh和Pd表面的取向分辨3d_（5/2）结合能位移：趋肤深度晶格应变的各向异性和量子阱

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Incorporating the BOLS correlation algorithm [Y. Sun, J. Phys. Chem. C, 2009, 113, 14696] into high-resolution XPS measurements [J. N. Andersen, et al, Phys. Rev. B: Condens. Matter, 1994, 50, 17525; A. Baraldi, et al, New J. Phys., 2007, 9, 143] has produced an effective way of determining the 3d_(5/2) energy levels of isolated Rh(302.163 ± 0.003 eV) and Pd (330.261 ± 0.004 eV eV) atoms and their respective bulk shifts (4.367 and 4.359 eV) with a refinement of the effective atomic coordination numbers of the top (100), (110), and (111) atomic layers (4.00, 3.87, and 4.26, respectively). It is further confirmed that the shorter and stronger bonds between under-coordinated atoms induce local strain and skin-depth charge-and-energy quantum trapping and, hence, dictate globally the positive core level binding energy shifts.

机译：合并BOLS相关算法[Y. Sun，J.Phys。化学C，2009，113，14696]转化为高分辨率XPS测量[J. N.Andersen等，《物理学报》。版本B：冷凝。物质，1994，50，17525; M。 A. Baraldi等人，New J. Phys。，2007，9，143]提供了一种确定孤立的Rh（302.163±0.003 eV）和Pd（330.261±0.004）的3d_（5/2）能级的有效方法。 eV eV）原子及其各自的体积位移（4.367和4.359 eV），分别优化了顶部（100），（110）和（111）原子层（分别为4.00、3.87和4.26）的有效原子配位数）。进一步证实，配位不足的原子之间较短且较强的键会引起局部应变和趋肤深度的电荷与能量量子陷阱，因此总体上决定了正的核心能级结合能移动。

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《Physical chemistry chemical physics: PCCP》 |2010年第9期|共6页
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Yan Wang; Yan Guang Nie; Ji Sheng Pan;
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1. Orientation-resolved 3d_(5/2) binding energy shift of Rh and Pd surfaces: anisotropy of the skin-depth lattice strain and quantum trapping [J] . Yan Wang, Yan Guang Nie, Ji Sheng Pan Physical chemistry chemical physics: PCCP . 2010,第9期

机译：Rh和Pd表面的取向分辨3d_（5/2）结合能位移：趋肤深度晶格应变的各向异性和量子阱
2. Size dependent 2p_(3/2) binding-energy shift of Ni nanoclusters on SiO_2 support: Skin-depth local strain and quantum trapping [J] . Yanguang Nie, rnJisheng Pan, rnZheng Zhang, Applied Surface Science . 2010,第14期

机译：Ni纳米团簇在SiO_2载体上的尺寸依赖性2p_（3/2）结合能位移：趋肤深度局部应变和量子阱
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4. Core Level Binding Energy Shifts in Metal Nanoparticles: The Role of Lattice Strain [C] . Paul S. Bagus, Andrzej Wieckowski ECS meeting . 2006

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5. Determination of strain relaxation in InGaN/GaN nanowalls from quantum confinement and exciton binding energy dependent photoluminescence peak [O] . Sandeep Sankaranarayanan, Shonal Chouksey, Pratim Saha, -1

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6. Charge transfer, lattice distortion, and quantum confinement effects in Pd, Cu, and Pd-Cu nanoparticles; size and alloying induced modifications in binding energy [O] . Sengar Saurabh K., Mehta B. R., Gupta Govind 2011

机译：pd，Cu和pd-Cu纳米粒子中的电荷转移，晶格畸变和量子限制效应;尺寸和合金化诱导结合能的修饰
7. Binding Energy and Effectiveness Mass of Charged Particles Trapped on Surfaces. [R] . Hipolito, O., Kohn, W. 1977

机译：表面捕获的带电粒子的结合能和质量质量。

Orientation-resolved 3d_(5/2) binding energy shift of Rh and Pd surfaces: anisotropy of the skin-depth lattice strain and quantum trapping

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