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Literature DB >> 29468824

Towards High-Performance Aqueous Sodium-Ion Batteries: Stabilizing the Solid/Liquid Interface for NASICON-Type Na₂ VTi(PO₄ )₃ using Concentrated Electrolytes.

Huang Zhang^1,2, Sangsik Jeong^1,2, Bingsheng Qin^1,2, Diogo Vieira Carvalho^1,2, Daniel Buchholz^1,2, Stefano Passerini^1,2.

Abstract

Aqueous Na-ion batteries may offer a solution to the cost and safety issues of high-energy batteries. However, substantial challenges remain in the development of electrode materials and electrolytes enabling high performance and long cycle life. Herein, we report the characterization of a symmetric Na-ion battery with a NASICON-type Na2 VTi(PO4 )3 electrode material in conventional aqueous and "water-in-salt" electrolytes. Extremely stable cycling performance for 1000 cycles at a high rate (20 C) is found with the highly concentrated aqueous electrolytes owing to the formation of a resistive but protective interphase between the electrode and electrolyte. These results provide important insight for the development of aqueous Na-ion batteries with stable long-term cycling performance for large-scale energy storage.

Entities: Chemical

Keywords: batteries; electrolytes; energy storage; interphase stability; sodium

Year: 2018 PMID： 29468824 DOI： 10.1002/cssc.201800194

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

3 in total

1. Anion effects on the solvation structure and properties of imide lithium salt-based electrolytes.

Authors: Li Wang; Zhen Luo; Hong Xu; Nan Piao; Zonghai Chen; Guangyu Tian; Xiangming He
Journal: RSC Adv Date: 2019-12-17 Impact factor: 4.036

2. Peculiarities of Phase Formation in Mn-Based Na SuperIonic Conductor (NaSICon) Systems: The Case of Na_1+2x Mn _x Ti_2-x (PO₄)₃ (0.0 ≤ x ≤ 1.5).

Authors: Gustautas Snarskis; Jurgis Pilipavičius; Denis Gryaznov; Lina Mikoliu Naitė; Linas Vilčiauskas
Journal: Chem Mater Date: 2021-10-21 Impact factor: 9.811

Review 3. Challenges and Strategies for High-Energy Aqueous Electrolyte Rechargeable Batteries.

Authors: Huang Zhang; Xu Liu; Huihua Li; Ivana Hasa; Stefano Passerini
Journal: Angew Chem Int Ed Engl Date: 2020-07-16 Impact factor: 16.823

3 in total

Towards High-Performance Aqueous Sodium-Ion Batteries: Stabilizing the Solid/Liquid Interface for NASICON-Type Na2 VTi(PO4 )3 using Concentrated Electrolytes.

1. Anion effects on the solvation structure and properties of imide lithium salt-based electrolytes.

2. Peculiarities of Phase Formation in Mn-Based Na SuperIonic Conductor (NaSICon) Systems: The Case of Na1+2x Mn x Ti2-x (PO4)3 (0.0 ≤ x ≤ 1.5).

Review 3. Challenges and Strategies for High-Energy Aqueous Electrolyte Rechargeable Batteries.

Towards High-Performance Aqueous Sodium-Ion Batteries: Stabilizing the Solid/Liquid Interface for NASICON-Type Na₂ VTi(PO₄ )₃ using Concentrated Electrolytes.

2. Peculiarities of Phase Formation in Mn-Based Na SuperIonic Conductor (NaSICon) Systems: The Case of Na_1+2x Mn _x Ti_2-x (PO₄)₃ (0.0 ≤ x ≤ 1.5).