Your search keyword '"Leigang Xue"' showing total 7 results

1. Na3MnZr(PO4)3: A High-Voltage Cathode for Sodium Batteries

Author

Sen Xin, Hongcai Gao, Leigang Xue, Graeme Henkelman, John B. Goodenough, and Ieuan D. Seymour

Subjects

Chemistry, Sodium, Analytical chemistry, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Biochemistry, Redox, Catalysis, Cathode, Energy storage, 0104 chemical sciences, Ion, law.invention, Colloid and Surface Chemistry, law, Formula unit, Density functional theory, 0210 nano-technology

Abstract

Sodium batteries have been regarded as promising candidates for large-scale energy storage application, provided cathode hosts with high energy density and long cycle life can be found. Herein, we report NASICON-structured Na3MnZr(PO4)3 as a cathode for sodium batteries that exhibits an electrochemical performance superior to those of other manganese phosphate cathodes reported in the literature. Both the Mn4+/Mn3+ and Mn3+/Mn2+ redox couples are reversibly accessed in Na3MnZr(PO4)3, providing high discharge voltage plateaus at 4.0 and 3.5 V, respectively. A high discharge capacity of 105 mAh g-1 was obtained from Na3MnZr(PO4)3 with a small variation of lattice parameters and a small volume change on extraction of two Na+ ions per formula unit. Moreover, Na3MnZr(PO4)3 exhibits an excellent cycling stability, retaining 91% of the initial capacity after 500 charge/discharge cycles at 0.5 C rate. On the basis of structural analysis and density functional theory calculations, we have proposed a detailed desodiation pathway from Na3MnZr(PO4)3 where Mn and Zr are disordered within the structure. We further show that the cooperative Jahn-Teller distortion of Mn3+ is suppressed in the cathode and that Na2MnZr(PO4)3 is a stable phase.

Published

2018

2. Low-Cost High-Energy Potassium Cathode

Author

Xujie Lü, Yutao Li, Hongcai Gao, Arumugam Manthiram, Watchareeya Kaveevivitchai, Leigang Xue, John B. Goodenough, and Weidong Zhou

Subjects

Battery (electricity), Ionic radius, Chemistry, Precipitation (chemistry), Potassium, Intercalation (chemistry), Inorganic chemistry, chemistry.chemical_element, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Catalysis, Cathode, 0104 chemical sciences, law.invention, Colloid and Surface Chemistry, Transition metal, law, Formula unit, 0210 nano-technology

Abstract

Potassium has as rich an abundance as sodium in the earth, but the development of a K-ion battery is lagging behind because of the higher mass and larger ionic size of K+ than that of Li+ and Na+, which makes it difficult to identify a high-voltage and high-capacity intercalation cathode host. Here we propose a cyanoperovskite KxMnFe(CN)6 (0 ≤ x ≤ 2) as a potassium cathode: high-spin MnIII/MnII and low-spin FeIII/FeII couples have similar energies and exhibit two close plateaus centered at 3.6 V; two active K+ per formula unit enable a theoretical specific capacity of 156 mAh g–1; Mn and Fe are the two most-desired transition metals for electrodes because they are cheap and environmental friendly. As a powder prepared by an inexpensive precipitation method, the cathode delivers a specific capacity of 142 mAh g–1. The observed voltage, capacity, and its low cost make it competitive in large-scale electricity storage applications.

Published

2017

3. Na

Author

Hongcai, Gao, Ieuan D, Seymour, Sen, Xin, Leigang, Xue, Graeme, Henkelman, and John B, Goodenough

Abstract

Sodium batteries have been regarded as promising candidates for large-scale energy storage application, provided cathode hosts with high energy density and long cycle life can be found. Herein, we report NASICON-structured Na

Published

2018

4. Garnet Electrolyte with an Ultralow Interfacial Resistance for Li-Metal Batteries

Author

Sen Xin, Xi Chen, John B. Goodenough, Zhiming Cui, Yutao Li, Henghui Xu, Kyusung Park, Andrei Dolocan, and Leigang Xue

Subjects

Chemistry, chemistry.chemical_element, 02 engineering and technology, General Chemistry, Electrolyte, Conductivity, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Biochemistry, Catalysis, 0104 chemical sciences, Metal, Colloid and Surface Chemistry, Phase (matter), visual_art, visual_art.visual_art_medium, Grain boundary, Composite material, 0210 nano-technology, Carbon, Electrochemical window

Abstract

Garnet-structured Li7La3Zr2O12 is a promising solid Li-ion electrolyte for all-solid-state Li-metal batteries and Li-redox-flow batteries owing to its high Li-ion conductivity at room temperature and good electrochemical stability with Li metal. However, there are still three major challenges unsolved: (1) the controversial electrochemical window of garnet, (2) the impractically large resistance at a garnet/electrode interface and the fast lithium-dendrite growth along the grain boundaries of the garnet pellet, and (3) the fast degradation during storage. We have found that these challenges are closely related to a thick Li2CO3 layer and the Li–Al–O glass phase on the surface of garnet materials. Here we introduce a simple method to remove Li2CO3 and the protons in the garnet framework by reacting garnet with carbon at 700 °C; moreover, the amount of the Li–Al–O glass phase with a low Li-ion conductivity in the grain boundary on the garnet surface was also reduced. The surface of the carbon-treated garnet...

Published

2018

5. Garnet Electrolyte with an Ultralow Interfacial Resistance for Li-Metal Batteries.

Author

Yutao Li, Xi Chen, Dolocan, Andrei, Zhiming Cui, Sen Xin, Leigang Xue, Henghui Xu, Kyusung Park, and Goodenough, John B.

Published

2018

6. Cathode Dependence of Liquid-Alloy Na-K Anodes.

Author

Leigang Xue, Hongcai Gao, Yutao Li, and Goodenough, John B.

Subjects

*CATHODES, *ALLOYS, *ANODES, *ALKALI metals, *POTASSIUM

Abstract

Alkali ions can be plated dendrite-free into a liquid alkali-metal anode. Commercialized Na-S battery technology operates above 300 °C. A low-cost Na-K alloy is liquid at 25 °C from 9.2 to 58.2 wt% of sodium; sodium and/or potassium can be plated dendrite-free in the liquid range at room temperature. The co-existence of two alkali metals in an anode raises a question: whether the liquid Na-K alloy acts as a Na or a K anode. Here we show the alkali-metal that is stripped from the liquid Na-K anode is dependent on the preference of the cathode host. It acts as the anode of a sodium rechargeable cell if the cathode host structure selectively accepts only Na+ ions; as the anode of a potassium rechargeable cell if the cathode accepts K+ ions in preference to Na+ ions. This dual-anode behavior means the liquid Na-K alkali-alloy can be applied as a dendrite-free anode in Na-metal batteries as well as K-metal batteries. [ABSTRACT FROM AUTHOR]

Published

2018

7. Low-Cost High-Energy Potassium Cathode.

Author

Leigang Xue, Yutao Li, Hongcai Gao, Weidong Zhou, Xujie Lü, Kaveevivitchai, Watchareeya, Arumugam Manthiram, and Goodenough, John B.

Published

2017