物理化学学报 >> 2001, Vol. 17 >> Issue (04): 310-313.doi: 10.3866/PKU.WHXB20010406

研究论文 上一篇    下一篇

LnCu2O4(Ln=Gd,Nd)电子结构的XPS研究

赵良仲;刘芬;张琳   

  1. 中国科学院化学研究所,北京 100080
  • 收稿日期:2000-09-15 修回日期:2000-11-21 发布日期:2001-04-15
  • 通讯作者: 赵良仲

XPS Study on Electronic Structure for LnCu2O4(Ln=Gd, Nd)

Zhao Liang-Zhong;Liu Fen;Zhang Lin   

  1. Institute of Chemistry, Chinese Academy of Sciences, Beijing 100080
  • Received:2000-09-15 Revised:2000-11-21 Published:2001-04-15
  • Contact: Zhao Liang-Zhong

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摘要: 用XPS测定了LnCu2O4(Ln=Gd, Nd)的内层和价层电子能谱,观察到LnCu2O4中稀土金属的3d电子结合能比相应的稀土金属简单氧化物的3d结合能低0.8~0.9 eV,而Cu的2p电子结合能比CuO的高0.4~0.5 eV,因此推断在LnCu2O4的Ln-O-Cu链中存在Cu→O→Ln电荷转移.XPS分析还表明LnCu2O4的Cu原子上有较低的电荷密度,但不存在混合价态.此外,通过比较价电子能谱,发现NdCu2O4的Ln 4fCu 3dO 2p价带中心比GdCu2O4的价带中心向Fermi能级移近了3.4 eV,而且NdCu2O4的价带谱更窄.

关键词: LnCu2O4(Ln=Gd, Nd), 复合氧化物, 电子结构, X射线光电子能谱

Abstract: The core levels and valence band spectra of LnCu2O4(Ln=Gd, Nd) were recorded by XPS. It has been observed that the Ln 3d binding energies of LnCu2O4 are 0.8-0.9 eV lower than that of the corresponding rare earth oxide. On the other hand, the Cu 2p binding energies of LnCu2O4 are 0.4-0.5 eV higher than that of CuO. This has been explained by the Cu→O→Ln charge transfer in Ln-O-Cu linkage of LnCu2O4. The XPS results also show that there is no mixed valence of Cu in LnCu2O4. The Xray induced valence bands reveal that the center of Ln 4fCu 3dO 2p valence band for Nd0.97Cu2O4 has a 3.4 eV lower binding energy compared to the center for Gd0.98Cu2O4. Besides, the width of valence band for Nd0.97Cu2O4 is narrower than that of Gd0.98Cu2O4.

Key words: LnCu2O4(Ln=Gd, Nd), Complex oxides, Electronic structure, XPS