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Literature DB >> 25132213

Li-rich anti-perovskite Li3OCl films with enhanced ionic conductivity.

Xujie Lü¹, Gang Wu, John W Howard, Aiping Chen, Yusheng Zhao, Luke L Daemen, Quanxi Jia.

Abstract

Anti-perovskite solid electrolyte films were prepared by pulsed laser deposition, and their room-temperature ionic conductivity can be improved by more than an order of magnitude in comparison with its bulk counterpart. The cyclability of Li3OCl films in contact with lithium was evaluated using a Li/Li3OCl/Li symmetric cell, showing self-stabilization during cycling test.

Entities: Chemical

Year: 2014 PMID： 25132213 DOI： 10.1039/c4cc05372a

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

9 in total

1. Mastering the interface for advanced all-solid-state lithium rechargeable batteries.

Authors: Yutao Li; Weidong Zhou; Xi Chen; Xujie Lü; Zhiming Cui; Sen Xin; Leigang Xue; Quanxi Jia; John B Goodenough
Journal: Proc Natl Acad Sci U S A Date: 2016-11-07 Impact factor: 11.205

2. Li-rich antiperovskite superionic conductors based on cluster ions.

Authors: Hong Fang; Puru Jena
Journal: Proc Natl Acad Sci U S A Date: 2017-10-02 Impact factor: 11.205

Review 3. Building Better Batteries in the Solid State: A Review.

Authors: Alain Mauger; Christian M Julien; Andrea Paolella; Michel Armand; Karim Zaghib
Journal: Materials (Basel) Date: 2019-11-25 Impact factor: 3.623

4. Unravelling the alkali transport properties in nanocrystalline A₃OX (A = Li, Na, X = Cl, Br) solid state electrolytes. A theoretical prediction.

Authors: Long Van Duong; Minh Tho Nguyen; Yohandys A Zulueta
Journal: RSC Adv Date: 2022-07-11 Impact factor: 4.036

Li-rich anti-perovskite Li3OCl films with enhanced ionic conductivity.

1. Mastering the interface for advanced all-solid-state lithium rechargeable batteries.

2. Li-rich antiperovskite superionic conductors based on cluster ions.

Review 3. Building Better Batteries in the Solid State: A Review.

4. Unravelling the alkali transport properties in nanocrystalline A₃OX (A = Li, Na, X = Cl, Br) solid state electrolytes. A theoretical prediction.

5. Ruddlesden-Popper phases of lithium-hydroxide-halide antiperovskites: two dimensional Li-ion conductors.

6. Antiperovskite Li₃OCl Superionic Conductor Films for Solid-State Li-Ion Batteries.

7. Mechanocaloric effects in superionic thin films from atomistic simulations.

8. Chemistry Design Towards a Stable Sulfide-Based Superionic Conductor Li₄ Cu₈ Ge₃ S₁₂.

9. Antiperovskite Chalco-Halides Ba3(FeS4)Cl, Ba3(FeS4)Br, and Ba3(FeSe4)Br with Spin Super-Super Exchange.