Super Charge Separation and High Voltage Phase in NaxMnO2

Xi Chen; Yichao Wang; Kamila Wiaderek; Xiahan Sang; Olaf Borkiewicz; Karena Chapman; James LeBeau; Jeffrey Lynn; Xin Li

doi:10.1002/adfm.201805105

Super Charge Separation and High Voltage Phase in Na_xMnO₂

Xi Chen
, Yichao Wang
, Kamila Wiaderek
, Xiahan Sang
, Olaf Borkiewicz
, Karena Chapman
, James LeBeau
, Jeffrey Lynn
, Xin Li

Chemistry

Harvard University
United States Department of Energy
North Carolina State University
National Institute of Standards and Technology

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

Na_xMnO₂ shows Mn³⁺ and Mn⁴⁺ charge separation with the charge stripe ordering upon Na deintercalation at x = 5/8. In this paper it is shown that, surprisingly, at lower Na compositions of 5/8 > x ≥ 1/18 the phase evolution pathway of Na_xMnO₂ upon Na deintercalation shows a unique phenomenon of super charge separation, where the Mn³⁺ and Mn⁴⁺ ions fully charge-separate into charge superplanes formed by succession of charge stripes in the third dimension. The Mn³⁺ superplanes attract Na ions electronically, and dominate the antiferromagnetic interactions in NaMnO₂. Na ions in Mn³⁺ superplanes also naturally pillar the MnO₂ layers to form the unusual O1 phases with large interlayer distances at x < 1/3, which dominates the unique electrochemical behavior of NaMnO₂.

Original language	English
Article number	1805105
Journal	Advanced Functional Materials
Volume	28
Issue number	50
DOIs	https://doi.org/10.1002/adfm.201805105
State	Published - Dec 12 2018

Keywords

magnetic properties of sodium manganese oxides
Na ion batteries
novel high-voltage phases
reversible asymmetric structural evolutions
super charge-separations

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10.1002/adfm.201805105

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title = "Super Charge Separation and High Voltage Phase in NaxMnO2 ",

abstract = "NaxMnO2 shows Mn3+ and Mn4+ charge separation with the charge stripe ordering upon Na deintercalation at x = 5/8. In this paper it is shown that, surprisingly, at lower Na compositions of 5/8 > x ≥ 1/18 the phase evolution pathway of NaxMnO2 upon Na deintercalation shows a unique phenomenon of super charge separation, where the Mn3+ and Mn4+ ions fully charge-separate into charge superplanes formed by succession of charge stripes in the third dimension. The Mn3+ superplanes attract Na ions electronically, and dominate the antiferromagnetic interactions in NaMnO2. Na ions in Mn3+ superplanes also naturally pillar the MnO2 layers to form the unusual O1 phases with large interlayer distances at x < 1/3, which dominates the unique electrochemical behavior of NaMnO2.",

keywords = "magnetic properties of sodium manganese oxides, Na ion batteries, novel high-voltage phases, reversible asymmetric structural evolutions, super charge-separations",

author = "Xi Chen and Yichao Wang and Kamila Wiaderek and Xiahan Sang and Olaf Borkiewicz and Karena Chapman and James LeBeau and Jeffrey Lynn and Xin Li",

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doi = "10.1002/adfm.201805105",

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T1 - Super Charge Separation and High Voltage Phase in NaxMnO2

AU - Chen, Xi

AU - Wang, Yichao

AU - Wiaderek, Kamila

AU - Sang, Xiahan

AU - Borkiewicz, Olaf

AU - Chapman, Karena

AU - LeBeau, James

AU - Lynn, Jeffrey

AU - Li, Xin

PY - 2018/12/12

Y1 - 2018/12/12

N2 - NaxMnO2 shows Mn3+ and Mn4+ charge separation with the charge stripe ordering upon Na deintercalation at x = 5/8. In this paper it is shown that, surprisingly, at lower Na compositions of 5/8 > x ≥ 1/18 the phase evolution pathway of NaxMnO2 upon Na deintercalation shows a unique phenomenon of super charge separation, where the Mn3+ and Mn4+ ions fully charge-separate into charge superplanes formed by succession of charge stripes in the third dimension. The Mn3+ superplanes attract Na ions electronically, and dominate the antiferromagnetic interactions in NaMnO2. Na ions in Mn3+ superplanes also naturally pillar the MnO2 layers to form the unusual O1 phases with large interlayer distances at x < 1/3, which dominates the unique electrochemical behavior of NaMnO2.

AB - NaxMnO2 shows Mn3+ and Mn4+ charge separation with the charge stripe ordering upon Na deintercalation at x = 5/8. In this paper it is shown that, surprisingly, at lower Na compositions of 5/8 > x ≥ 1/18 the phase evolution pathway of NaxMnO2 upon Na deintercalation shows a unique phenomenon of super charge separation, where the Mn3+ and Mn4+ ions fully charge-separate into charge superplanes formed by succession of charge stripes in the third dimension. The Mn3+ superplanes attract Na ions electronically, and dominate the antiferromagnetic interactions in NaMnO2. Na ions in Mn3+ superplanes also naturally pillar the MnO2 layers to form the unusual O1 phases with large interlayer distances at x < 1/3, which dominates the unique electrochemical behavior of NaMnO2.

KW - magnetic properties of sodium manganese oxides

KW - Na ion batteries

KW - novel high-voltage phases

KW - reversible asymmetric structural evolutions

KW - super charge-separations

UR - https://www.scopus.com/pages/publications/85055684252

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DO - 10.1002/adfm.201805105

M3 - Article

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JO - Advanced Functional Materials

JF - Advanced Functional Materials

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ER -

Super Charge Separation and High Voltage Phase in Na_xMnO₂

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Keywords

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