Li~+ ion conductivities in boro-tellurite glasses

M HARISH BHAT; M KANDAVEL; MUNIA GANGULI

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Li~+ ion conductivities in boro-tellurite glasses

机译：硼铁矿玻璃中的Li〜+离子电导率

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Lithium Ion conductivity has been investigated in a boro-tellurite glass system, LiCl.LiBO_2.TeO_2. In the absence of LiCl, the conductivity increases with increasing non-bridging oxygen (NBO) concentration. LiCl addition has little influence on total conductivity although the observed barriers are low. Formation of LiCl clusters appears evident. In the a.c. conductivity and dielectric studies, it is observed that the conductivity mechanism remains the same in all compositions and at all temperatures. A suggestion is made that Li~+ ion transport may be driven by bridging oxygen reversible non-bridging oxygen (BO reversible NBO) switching, which is why the two different types of Li~+ ions in the clusters and in the neighbourhood of NBOs, do not manifest in the conductivity studies.

机译：锂离子电导率已在硼酸锂玻璃系统LiCl.LiBO_2.TeO_2中进行了研究。在不存在LiCl的情况下，电导率随非桥连氧（NBO）浓度的增加而增加。尽管观察到的势垒很低，但添加LiCl对总电导率影响很小。 LiCl簇的形成是明显的。在交流中电导率和介电研究表明，在所有成分和所有温度下，电导率机理均相同。有人建议通过桥接氧可逆非桥接氧（BO可逆NBO）转换来驱动Li〜+离子的迁移，这就是为什么簇中和NBO附近存在两种不同类型的Li〜+离子的原因，在电导率研究中没有体现。

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《Bulletin of Materials Science》 |2004年第2期|共10页
作者
M HARISH BHAT; M KANDAVEL; MUNIA GANGULI;
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正文语种 eng
中图分类工程材料学;
关键词
Tellurite glasses; Li~+ ion transport;

机译：碲酸盐玻璃;Li〜+离子迁移;

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1. Li~+ ion conductivities in boro-tellurite glasses [J] . M HARISH BHAT, M KANDAVEL, MUNIA GANGULI Bulletin of Materials Science . 2004,第2期

机译：硼铁矿玻璃中的Li〜+离子电导率
2. EPR studies of Gd3+ ions in lithium tetra boro-tellurite and lithium lead tetra boro-tellurite glasses [J] . Murali A, Chakradhar RPS, Rao JL Physica, B. Condensed Matter . 2005,第1a4期

机译：四硼锂铁锂玻璃和锂铅四硼铁锂玻璃中Gd3 +离子的EPR研究
3. AC conductivity and impedance measurements in alkali boro-tellurite glasses [J] . Suresh S., Prasad M., Chandra Mouli V. Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2010,第31a32期

机译：碱金属硼铁矿玻璃的交流电导率和阻抗测量
4. Effect of Li_2O on electron paramagnetic resonance and optical absorption studies of Cu~(2+) ion in arsenate boro-tellurite glasses [C] . Navaneetha Pujari, B. Kalyani, Potharaju Krishna, International Conference on Multifunctional Materials . 2020

机译：LI_2O对Cu〜（2+）离子在砷酸盐碲酸盐玻璃中Cu〜（2+）离子的电子顺磁共振和光学吸收研究的影响
5. Nuclear spin lattice relaxation and conductivity studies of the non-Arrhenius conductivity behavior in lithium fast ion conducting sulfide glasses. [D] . Meyer, Benjamin Michael. 2003

机译：锂快速离子传导硫化物玻璃中非阿伦尼乌斯电导率行为的核自旋晶格弛豫和电导率研究。
6. DC and AC Conductivity Biosolubility and Thermal Properties of Mg-Doped Na2O–CaO–P2O5 Glasses [O] . Natalia Anna Wójcik, Sharafat Ali, Jakub Lech Karczewski, 2021

机译：DC和AC电导率生物溶解度和Mg掺杂Na2O-CaO-P2O5眼镜的热性能
7. $Li^{+}$ ion conductivities in boro-tellurite glasses [O] . Bhat Harish M, Kandavel M, Ganguli Munia, 2004

机译：硼铁锂玻璃中的$ Li ^ {+} $离子电导率
8. Nuclear Spin Lattice Relaxation and Conductivity Studies of the non-Arrhenius Conductivity Behavior in Lithium Fast Ion Conducting Sulfide Glasses [R] . Meyer, B. M. 2003

机译：锂自旋离子导电硫化物玻璃中非arrhenius电导率行为的核自旋晶格弛豫和电导率研究

Li~+ ion conductivities in boro-tellurite glasses

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