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Compositional Tuning of Structural Stability of Lithiated Cubic Titania via a Vacancy-Filling Mechanism under High Pressure

机译：高压空位填充机制对立方化二氧化钛结构稳定性的组成调整

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Experimental and theoretical studies on the compositional dependence of stability and compressibility in lithiated cubic titania are presented. The crystalline-to-amorphous phase transition pressure increases monotonically with Li concentration (from ∼17.5 GPa for delithiated to no phase transition for fully lithiated cubic titania up to 60 GPa). The associated enhancement in structural stability is postulated to arise from a vacancy filling mechanism in which an applied pressure drives interstitial Li ions to vacancy sites in the oxide interior. The results are of significance for understanding mechanisms of structural response of metal oxide electrode materials at high pressures as well as emerging energy storage technologies utilizing such materials.

机译：提出了对锂化立方二氧化钛中稳定性和可压缩性的成分依赖性的实验和理论研究。晶态到非晶态的相变压力随Li浓度的增加而单调增加（从去锂化的〜17.5 GPa到完全锂化的立方二氧化钛直至60 GPa的无相变）。据推测，结构稳定性的相关增强是由空位填充机制引起的，在空位填充机制中，所施加的压力将间隙性锂离子驱动到氧化物内部的空位。该结果对于理解高压下金属氧化物电极材料的结构响应机理以及利用这种材料的新兴储能技术具有重要意义。

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Xiong Hui;
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1. Compositional Tuning of Structural Stability of Lithiated Cubic Titania via a Vacancy-Filling Mechanism under High Pressure [J] . Hui Xiong, Handan Yildirim, Paul Podskdlo, Physical review letters . 2013,第7期

机译：高压空位填充机制对立方化二氧化钛结构稳定性的组成调整
2. COMPOSITIONAL TUNING OF STRUCTURAL STABILITY OF LITHIATED CUBIC TITANIA NANOTUBES VIA VACANCY FILLING MECHANISM UNDER HIGH PRESSURE [J] . Hui Xiong, Handan Yildirim, Vitali B. Prakapenka, American Chemical Society, Division of Fuel Chemistry, Preprints . 2013,第1期

机译：高压空位充填机理对锂化立方钛白粉结构稳定性的组成调整
3. Enhanced asymmetrical transport of carriers induced by local structural distortion in chemically tuned titania: A possible mechanism for enhancing thermoelectric properties [J] . C. Liu, L. Miao, D. Hu, Physical review . 2013,第20期

机译：在化学调谐的二氧化钛中，由于局部结构变形引起的载流子的不对称增强传输：增强热电性能的可能机制
4. COMPOSITIONAL TUNING OF STRUCTURAL STABILITY OF LITHIATED CUBIC TITANIA NANOTUBES VIA VACANCY FILLING MECHANISM UNDER HIGH PRESSURE [C] . Hui Xiong, Handan Yildirim, Vitali B. Prakapenka ACS National Meeting and Exhibition . 2013

机译：高压下空位填充机制的锂化立方二氧化钛纳米管结构稳定性的组成调整
5. Microstructural investigations of the mechanisms of anisotropic grain growth in titania-doped alpha-alumina. [D] . Kebbede, Anteneh. 1999

机译：掺杂二氧化钛的α-氧化铝中各向异性晶粒生长机理的微观结构研究。
6. Computational Approach To Reveal the Structural Stabilityand Electronic Properties of Lithiated M/CNT (M = Si Ge) Nanocompositesas Anodes for Lithium-Ion Batteries [O] . T. K. Bijoy, Karthikeyan J, §, 2019

机译：揭示结构稳定性的计算方法锂化的M / CNT（M = SiGe）纳米复合材料的电子性能作为锂离子电池的阳极
7. Elastic and structural instability of cubic Sn3N4 and C3N4 under pressure [O] . Pradhan, Gopal K., Kumar, Anil, Waghmare, Umesh V., 2010

机译：立方sn3N4和C3N4的弹性和结构不稳定性压力

Compositional Tuning of Structural Stability of Lithiated Cubic Titania via a Vacancy-Filling Mechanism under High Pressure

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