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Literature DB >> 22304487

Charge carrier accumulation in lithium fluoride thin films due to Li-ion absorption by titania (100) subsurface.

Chilin Li¹, Lin Gu, Xiangxin Guo, Dominik Samuelis, Kun Tang, Joachim Maier.

Abstract

The thermodynamically required redistribution of ions at given interfaces is being paid increased attention. The present investigation of the contact LiF/TiO(2) offers a highly worthwhile example, as the redistribution processes can be predicted and verified. It consists in Li ion transfer from LiF into the space charge zones of TiO(2). We not only can measure the resulting increase of lithium vacancy conductivity in LiF, we also observe a transition from n- to p-type conductivity in TiO(2) in consistency with the generalized space charge model.

Entities: Chemical Gene

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Year: 2012 PMID： 22304487 DOI： 10.1021/nl203623h

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

3 in total

1. Ionic Conductivity of Nanocrystalline and Amorphous Li₁₀GeP₂S₁₂: The Detrimental Impact of Local Disorder on Ion Transport.

Authors: Lukas Schweiger; Katharina Hogrefe; Bernhard Gadermaier; Jennifer L M Rupp; H Martin R Wilkening
Journal: J Am Chem Soc Date: 2022-05-24 Impact factor: 16.383

2. High-Polarity Fluoroalkyl Ether Electrolyte Enables Solvation-Free Li⁺ Transfer for High-Rate Lithium Metal Batteries.

Authors: Liwei Dong; Yuanpeng Liu; Kechun Wen; Dongjiang Chen; Dewei Rao; Jipeng Liu; Botao Yuan; Yunfa Dong; Ze Wu; Yifang Liang; Mengqiu Yang; Jianyi Ma; Chunhui Yang; Chuan Xia; Baoyu Xia; Jiecai Han; Gongming Wang; Zaiping Guo; Weidong He
Journal: Adv Sci (Weinh) Date: 2021-12-19 Impact factor: 16.806

Review 3. Prospects of halide-based all-solid-state batteries: From material design to practical application.

Authors: Changhong Wang; Jianwen Liang; Jung Tae Kim; Xueliang Sun
Journal: Sci Adv Date: 2022-09-07 Impact factor: 14.957

3 in total

Charge carrier accumulation in lithium fluoride thin films due to Li-ion absorption by titania (100) subsurface.

1. Ionic Conductivity of Nanocrystalline and Amorphous Li10GeP2S12: The Detrimental Impact of Local Disorder on Ion Transport.

2. High-Polarity Fluoroalkyl Ether Electrolyte Enables Solvation-Free Li+ Transfer for High-Rate Lithium Metal Batteries.

Review 3. Prospects of halide-based all-solid-state batteries: From material design to practical application.

1. Ionic Conductivity of Nanocrystalline and Amorphous Li₁₀GeP₂S₁₂: The Detrimental Impact of Local Disorder on Ion Transport.

2. High-Polarity Fluoroalkyl Ether Electrolyte Enables Solvation-Free Li⁺ Transfer for High-Rate Lithium Metal Batteries.