波谱学杂志 ›› 1993, Vol. 10 ›› Issue (1): 9-16.

• 研究论文 • 上一篇    下一篇

非晶锂离子导体B2O3-Li2O-LiCl一Al2O3中VO2+的电子自旋共振

苏昉1, 侯碧辉3, 金嗣炤2   

  1. 1. 中国科学技术大学基础物理中心 合肥 230026;
    2. 中科院中国科技大学结构分析开放实验室 合肥 230026;
    3. 中国科学技术大学物理系 合肥 230026
  • 收稿日期:1991-07-08 修回日期:1992-08-16 出版日期:1993-03-05 发布日期:2018-01-20

ELECTRON SPIN RESONANCE OF VO2+ IN AMORPHOUS LITHIUM IONIC CONDUCTOR B2O3-Li2O-LiCI-Al2O3

Su Fang1, Hou Bihui3, Jin Sizhao2   

  1. 1. Center of Fundamental Physics, University of Science and Technology of China, Hefei 230026;
    2. Structure Research Laboratory, Univ. of Sci. & Tech. of China;
    3. Dcparment of Physics, Univ. of Sci. and Tech. of China
  • Received:1991-07-08 Revised:1992-08-16 Online:1993-03-05 Published:2018-01-20

摘要: 两种非晶锂离子导体B2O3-0.7Li2O-0.7LiCl-xAl2O3-0.1V2O5(x=0.05和0.15)的电子自旋共振谱研究表明:(i)ESR线型是高斯型,证实V2O5添加量适当;(ii)超精细结构来源于VO2+络离子,具有四角对称性,属C4v群。越精细耦合张量的平行分量平均值A//=0.0175cm-1,垂直分量A=0.0063cm-1。由g//(g)求出其基态2B2g与第一激发态2Eg的能级间距△1=2.46×104 cm-1,基态与第二激发态2B1g的能级间距△2=3.03×104 cm-1;(iii)变温实验证实:Al2O3组分较少(x=0.05)的非晶ESR强度比x=0.15的非晶高3倍至2倍,而Al2O3组分越多则ESR强度随温升下降越小。

关键词: 快离子导体, 超精细结构, 变温电子自旋共振谱

Abstract: Electron spin resonance spectra of amorphous Li+ conductor B2O3-0.7Li2O-0.7LiCl-xAl2O3-0.1V2O5 (x=0.05 and 0.15) have been studied. It is found that (1) The ESR spectra is Gaussian type and the addition of V2O5 is suitable; (2) The hyperfine structure is due to the complex ions VO2+ which possess tetragonal symmetry and belong to group C4v. Parallel and perpendicular principal components of the hyperfine-coupling tensor, A//=0.0175cm-1 and A=0.0063cm-1. Calculation from g// and g shows that the energy difference between the gound state 2B2g and the first excited state 2Eg, △1=2.46×104cm-1,the energy difference between 2B2g and the second state 2B1g,△2=3.03×104cm-1; (3) The ESR spectra from 295°to 440°K show that ESR intensity of the glass with less content of Al2O3 (0.05mol.) is 3-2 times higher than that of the glass with more content of Al2O3 (O.15mol.); The more the content of Al2O3, the less the drop of ESR intensity with increasing temparature.

Key words: Fast ionic conductor, Hyperfine structure, ESR spectra at various temperatures