Formation of Li+ superionic crystals from the Li2S-P2S5 melt-quenched glasses

Hayashi A; Minami K; Mizuno F; Tatsumisago M

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Formation of Li+ superionic crystals from the Li2S-P2S5 melt-quenched glasses

机译：由Li2S-P2S5熔融淬火玻璃形成Li +超离子晶体

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The 70Li(2)S center dot 30P(2)S(5) (mol%) glass was prepared by the melt quenching method and the glass-ceramic electrolytes were obtained by heating the prepared glass over crystallization temperatures. The superionic metastable Li7P3S11 crystal was formed by heating the glass in the temperature range from 280 and 360 degrees C. The conductivity of the glass-ceramics was enhanced by the precipitation and growth of the Li7P3S11 crystal, and the highest conductivity of 4.1 x 10(-3) S cm(-1) at room temperature was achieved in the glass-ceramic heated at 360 degrees C for 1 h. The Li7P3S11 crystal changed into the thermodynamically stable phase such as the Li4P2S6 crystal with further increasing heat treatment temperature and holding time, resulting in lowering conductivities of the glass-ceramics.

机译：通过熔融淬火法制备70Li（2）S中心点30P（2）S（5）（摩尔％）玻璃，并且通过在结晶温度下加热所制备的玻璃来获得玻璃陶瓷电解质。通过在280至360摄氏度的温度范围内加热玻璃来形成超离子亚稳态Li7P3S11晶体.Li7P3S11晶体的沉淀和生长增强了玻璃陶瓷的电导率，最高电导率为4.1 x 10（ -3）在360度加热1小时的玻璃陶瓷中达到室温S cm（-1）。随着热处理温度和保持时间的进一步增加，Li7P3S11晶体变为Li4P2S6晶体等热力学稳定相，导致玻璃陶瓷的电导率降低。

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《Journal of Materials Science》 |2008年第6期|共5页
作者
Hayashi A; Minami K; Mizuno F; Tatsumisago M;
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正文语种 eng
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LITHIUM ION CONDUCTIVITY; SULFIDE;

机译：锂离子电导率;硫化物;

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1. Formation of Li+ superionic crystals from the Li2S-P2S5 melt-quenched glasses [J] . Hayashi A, Minami K, Mizuno F, Journal of Materials Science . 2008,第6期

机译：由Li2S-P2S5熔融淬火玻璃形成Li +超离子晶体
2. Lithium ion conductivity in Li2S-P2S5 glasses - building units and local structure evolution during the crystallization of superionic conductors Li3PS4, Li7P3S11 and Li4P2S7 [J] . Dietrich Christian, Weber Dominik A., Sedlmaier Stefan J., Journal of Materials Chemistry, A. Materials for energy and sustainability . 2017,第34期

机译：Li2S-P2S5眼镜锂离子电导率 - 构建单位和局部结构演化在外膜导体中的结晶Li3PS4，Li7P3S11和Li4P2S7
3. Formation of superionic crystals from mechanically milled Li_2S-P_2S_5 glasses [J] . Akitoshi Hayashi, Shigenori Hama, Tsutomu Minami, Electrochemistry communications . 2003,第2期

机译：机械研磨的Li_2S-P_2S_5玻璃形成超离子晶体
4. Formation of Color Centers in Superionic Crystals RbAg_4l_5 [C] . A. Boris, N. Kovaleva, T. Awano . 1997

机译：超离子晶体RbAg_4l_5中色心的形成
5. Preparation, glass forming ability, crystallization and deformation of (zirconium, hafnium)-copper-nickel-aluminum-titanium-based bulk metallic glasses. [D] . Gu, Xiaofeng. 2003

机译：（锆，ha）-铜-镍-铝-钛基大块金属玻璃的制备，玻璃形成能力，结晶和变形。
6. On the Formation of Nanocrystalline Grains in Metallic Glasses by Means of In-Situ Nuclear Forward Scattering of Synchrotron Radiation [O] . David Smrčka, Vít Procházka, Vlastimil Vrba, 2019

机译：同步辐射原位核正向散射在金属玻璃中形成纳米晶粒的研究
7. Role of Hydrodynamics, Li+ Addition and Transformation Kinetics on the Formation of Plate-Like {001} Calcite Crystals [O] . Nives Matijaković Mlinarić, Jasminka Kontrec, Branka Njegić Džakula, 2021

机译：流体动力学，Li +添加和转化动力学对板状{001}方解石晶体形成的作用
8. Evidence for the Formation of a Metastable Crystalline Phase During Crystallization of Zr-Ni Metallic Glasses of Approximately 57 to 63.2 at. % Zr [R] . McKamey, C. G., Easton, D. S., Kroeger, D. M. 1985

机译：Zr-Ni金属玻璃结晶过程中形成亚稳结晶相的证据约为57~63.2 at。％Zr

Formation of Li+ superionic crystals from the Li2S-P2S5 melt-quenched glasses

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