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Literature DB >> 26237237

Nucleation and Growth of Lithium Peroxide in the Li-O2 Battery.

Abstract

We study the relationship between Li2O2 morphology and the electrochemical performance of the Li-O2 battery using a combination of experiment and theory. Experimental Li-O2 battery discharge curves are accurately captured by a theoretical model in which electrode performance is limited by the nucleation and growth of discrete Li2O2 nanostructures in the cathode. We further show that the characteristic sharp voltage drop widely reported at the end of discharge results from the decrease in electrochemical surface area as Li2O2 covers the cathode surface. Preventing surface nucleation is highlighted as a core strategy for increasing Li-O2 battery capacity.

Entities: Chemical

Keywords: Li2O2; Li−O2 battery; Li−air battery; deposition; lithium peroxide; nucleation; overpotential; passivation; phase transormation; precipitation; scanning electron microscopy

Year: 2015 PMID： 26237237 DOI： 10.1021/acs.nanolett.5b02149

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

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Cited

6 in total

1. In situ small-angle X-ray scattering reveals solution phase discharge of Li-O₂ batteries with weakly solvating electrolytes.

Authors: Christian Prehal; Aleksej Samojlov; Manfred Nachtnebel; Ludek Lovicar; Manfred Kriechbaum; Heinz Amenitsch; Stefan A Freunberger
Journal: Proc Natl Acad Sci U S A Date: 2021-04-06 Impact factor: 11.205

6. Operando characterization of cathodic reactions in a liquid-state lithium-oxygen micro-battery by scanning transmission electron microscopy.

Authors: Pan Liu; Jiuhui Han; Xianwei Guo; Yoshikazu Ito; Chuchu Yang; Shoucong Ning; Takeshi Fujita; Akihiko Hirata; Mingwei Chen
Journal: Sci Rep Date: 2018-02-16 Impact factor: 4.379

6 in total

Nucleation and Growth of Lithium Peroxide in the Li-O2 Battery.

1. In situ small-angle X-ray scattering reveals solution phase discharge of Li-O₂ batteries with weakly solvating electrolytes.

2. Understanding the Electrochemical Formation and Decomposition of Li₂O₂ and LiOH with Operando X-ray Diffraction.

3. Exclusive Solution Discharge in Li-O₂ Batteries?

4. On the incompatibility of lithium-O₂ battery technology with CO₂.

5. Designer interphases for the lithium-oxygen electrochemical cell.

6. Operando characterization of cathodic reactions in a liquid-state lithium-oxygen micro-battery by scanning transmission electron microscopy.

Nucleation and Growth of Lithium Peroxide in the Li-O2 Battery.

1. In situ small-angle X-ray scattering reveals solution phase discharge of Li-O2 batteries with weakly solvating electrolytes.

2. Understanding the Electrochemical Formation and Decomposition of Li2O2 and LiOH with Operando X-ray Diffraction.

3. Exclusive Solution Discharge in Li-O2 Batteries?

4. On the incompatibility of lithium-O2 battery technology with CO2.

5. Designer interphases for the lithium-oxygen electrochemical cell.

6. Operando characterization of cathodic reactions in a liquid-state lithium-oxygen micro-battery by scanning transmission electron microscopy.

1. In situ small-angle X-ray scattering reveals solution phase discharge of Li-O₂ batteries with weakly solvating electrolytes.

2. Understanding the Electrochemical Formation and Decomposition of Li₂O₂ and LiOH with Operando X-ray Diffraction.

3. Exclusive Solution Discharge in Li-O₂ Batteries?

4. On the incompatibility of lithium-O₂ battery technology with CO₂.