Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/prototype-sodium-ion-batteries-using-an-air-stable-and-co-ni-free-o3-Xk9mjnxCYh
References (55)
-
Changbao Zhu, Kepeng Song, P. Aken, J. Maier, Yan Yu (2014)
Carbon-coated Na3V2(PO4)3 embedded in porous carbon matrix: an ultrafast Na-storage cathode with the potential of outperforming Li cathodes.Nano letters, 14 4
-
K. Mizushima, P. Jones, P. Wiseman, J. Goodenough (1980)
LixCoO2 (0Materials Research Bulletin, 15
-
H. Yoshida, N. Yabuuchi, S. Komaba (2013)
NaFe0.5Co0.5O2 as high energy and power positive electrode for Na-ion batteries☆Electrochemistry Communications, 34
-
Xianfen Wang, Mao Tamaru, M. Okubo, A. Yamada (2013)
Electrode Properties of P2–Na2/3MnyCo1–yO2 as Cathode Materials for Sodium-Ion BatteriesJournal of Physical Chemistry C, 117
-
Jean-Jacques Braconnier, C. Delmas, P. Hagenmuller (1982)
Etude par desintercalation electrochimique des systemes NaxCrO2 et NaxNiO2Materials Research Bulletin, 17
-
N. Yabuuchi, Masataka Kajiyama, J. Iwatate, H. Nishikawa, Shuji Hitomi, R. Okuyama, Ryo Usui, Y. Yamada, S. Komaba (2012)
P2-type Na(x)[Fe(1/2)Mn(1/2)]O2 made from earth-abundant elements for rechargeable Na batteries.Nature materials, 11 6
-
X. Li, Di Wu, Yong-ning Zhou, Lei Liu, Xiao‐Qing Yang, G. Ceder (2014)
O3-type Na(Mn0.25Fe0.25Co0.25Ni0.25)O2: A quaternary layered cathode compound for rechargeable Na ion batteriesElectrochemistry Communications, 49
-
Juliette Billaud, Gurpreet Singh, A. Armstrong, E. Gonzalo, V. Roddatis, M. Armand, T. Rojo, P. Bruce (2014)
Na0.67Mn1−xMgxO2 (0 ≤ x ≤ 0.2): a high capacity cathode for sodium-ion batteriesEnergy and Environmental Science, 7
-
D. Carlier, D. Carlier, J. Cheng, J. Cheng, R. Berthelot, M. Guignard, M. Guignard, M. Yoncheva, M. Yoncheva, R. Stoyanova, R. Stoyanova, B. Hwang, C. Delmas, C. Delmas (2011)
The P2-Na(2/3)Co(2/3)Mn(1/3)O2 phase: structure, physical properties and electrochemical behavior as positive electrode in sodium battery.Dalton transactions, 40 36
-
Donghan Kim, Eungje Lee, Michael Slater, Wenquan Lu, Shawn Rood, Christopher Johnson (2012)
Layered Na[Ni1/3Fe1/3Mn1/3]O2 cathodes for Na-ion battery applicationElectrochemistry Communications, 18
-
Plousia Vassilaras, Alexandra Toumar, G. Ceder (2014)
Electrochemical properties of NaNi1/3Co1/3Fe1/3O2 as a cathode material for Na-ion batteriesElectrochemistry Communications, 38
-
B. Boisse, J. Cheng, D. Carlier, M. Guignard, Chun-Jen Pan, S. Bordère, D. Filimonov, C. Drathen, E. Suard, B. Hwang, A. Wattiaux, C. Delmas (2015)
O3–NaxMn1/3Fe2/3O2 as a positive electrode material for Na-ion batteries: structural evolutions and redox mechanisms upon Na+ (de)intercalationJournal of Materials Chemistry, 3
-
Shaohua Guo, Haijun Yu, Pan Liu, Yang Ren, Tao Zhang, Mingwei Chen, M. Ishida, Haoshen Zhou (2015)
High-performance symmetric sodium-ion batteries using a new, bipolar O3-type material, Na0.8Ni0.4Ti0.6O2Energy and Environmental Science, 8
-
C. Delmas, J. Braconnier, C. Fouassier, P. Hagenmuller (1981)
Electrochemical intercalation of sodium in NaxCoO2 bronzesSolid State Ionics
-
Yuan‐Li Ding, Yuren Wen, Chao Wu, P. Aken, J. Maier, Yan Yu (2015)
3D V₆O₁₃ nanotextiles assembled from interconnected nanogrooves as cathode materials for high-energy lithium ion batteries.Nano letters, 15 2
-
Z. Yang, Jianlu Zhang, M. Kintner-Meyer, Xiaochuan Lu, D. Choi, J. Lemmon, Jun Liu (2011)
Electrochemical energy storage for green grid.Chemical reviews, 111 5
-
K. Kubota, N. Yabuuchi, H. Yoshida, M. Dahbi, S. Komaba (2014)
Layered oxides as positive electrode materials for Na-ion batteriesMRS Bulletin, 39
-
Jun Liu, Kepeng Song, Changbao Zhu, Chia-Chin Chen, P. Aken, J. Maier, Yan Yu (2014)
Ge/C nanowires as high-capacity and long-life anode materials for Li-ion batteries.ACS nano, 8 7
-
A. Mendiboure, C. Delmas, P. Hagenmuller (1985)
Electrochemical intercalation and deintercalation of NaxMnO2 bronzesJournal of Solid State Chemistry, 57
-
S. Komaba, N. Yabuuchi, T. Nakayama, A. Ogata, T. Ishikawa, I. Nakai (2012)
Study on the reversible electrode reaction of Na(1-x)Ni(0.5)Mn(0.5)O2 for a rechargeable sodium-ion battery.Inorganic chemistry, 51 11
-
M. Yoncheva, R. Stoyanova, E. Zhecheva, E. Kuzmanova, M. Sendova-Vassileva, D. Nihtianova, D. Carlier, M. Guignard, C. Delmas (2012)
Structure and reversible lithium intercalation in a new P′3-phase: Na2/3Mn1−yFeyO2 (y = 0, 1/3, 2/3)Journal of Materials Chemistry, 22
-
Plousia Vassilaras, Xiaohua Ma, X. Li, G. Ceder (2011)
Electrochemical Properties of Monoclinic NaNiO2Journal of The Electrochemical Society, 160
-
Yunming Li, Shuyin Xu, Xiaoyan Wu, Juezhi Yu, Yuesheng Wang, Yong‐Sheng Hu, Hong Li, Liquan Chen, Xuejie Huang (2015)
Amorphous monodispersed hard carbon micro-spherules derived from biomass as a high performance negative electrode material for sodium-ion batteriesJournal of Materials Chemistry, 3
-
B. Boisse, D. Carlier, M. Guignard, C. Delmas (2013)
Structural and Electrochemical Characterizations of P2 and New O3-NaxMn1-yFeyO2 Phases Prepared by Auto-Combustion Synthesis for Na-Ion BatteriesJournal of The Electrochemical Society, 160
-
Shuyin Xu, Xiaoyan Wu, Yunming Li, Yong‐Sheng Hu, Liquan Chen (2014)
Novel copper redox-based cathode materials for room-temperature sodium-ion batteriesChinese Physics B, 23
-
V. Palomares, M. Casas‐Cabanas, E. Castillo‐Martínez, M. Han, T. Rojo (2013)
Update on Na-based battery materials. A growing research pathEnergy and Environmental Science, 6
-
Xin Sun, Yi-Chun Jin, Chenyu Zhang, J. Wen, Yu Shao, Y. Zang, Chun-hua Chen (2014)
Na[Ni0.4Fe0.2Mn0.4−xTix]O2: a cathode of high capacity and superior cyclability for Na-ion batteriesJournal of Materials Chemistry, 2
-
M. Sathiya, K. Hemalatha, K. Ramesha, J. Tarascon, A. Prakash (2012)
Synthesis, Structure, and Electrochemical Properties of the Layered Sodium Insertion Cathode Material: NaNi1/3Mn1/3Co1/3O2Chemistry of Materials, 24
-
Dongwook Han, J. Ku, Ryounghee Kim, D. Yun, Seok-Soo Lee, S. Doo (2014)
Aluminum manganese oxides with mixed crystal structure: high-energy-density cathodes for rechargeable sodium batteries.ChemSusChem, 7 7
-
N. Yabuuchi, Masaya Yano, H. Yoshida, Satoru Kuze, S. Komaba (2013)
Synthesis and Electrode Performance of O3-Type NaFeO2-NaNi1/2Mn1/2O2 Solid Solution for Rechargeable Sodium BatteriesJournal of The Electrochemical Society, 160
-
M. Guignard, C. Didier, J. Darriet, P. Bordet, E. Elkaïm, C. Delmas (2013)
P2-Na(x)VO2 system as electrodes for batteries and electron-correlated materials.Nature materials, 12 1
-
S. Komaba, Chikara Takei, T. Nakayama, A. Ogata, N. Yabuuchi (2010)
Electrochemical intercalation activity of layered NaCrO2 vs. LiCrO2Electrochemistry Communications, 12
-
Jie Zhao, Jing Xu, D. Lee, N. Dimov, Y. Meng, S. Okada (2014)
Electrochemical and thermal properties of P2-type Na2/3Fe1/3Mn2/3O2 for Na-ion batteriesJournal of Power Sources, 264
-
B. Dunn, H. Kamath, J. Tarascon (2011)
Electrical Energy Storage for the Grid: A Battery of ChoicesScience, 334
-
Jing Xu, D. Lee, Xiqian Yu, M. Leskes, A. Pell, G. Pintacuda, Xiao‐Qing Yang, C. Grey, Y. Meng (2014)
Identifying the Critical Role of Li Substitution in P2− Na x (Li y Ni z Mn 1−y−z )O 2 (0 < x, y, z < 1) Intercalation Cathode Materials for High-Energy Na-Ion Batteries -
Donghan Kim, Sun‐Ho Kang, Michael Slater, Shawn Rood, J. Vaughey, N. Karan, M. Balasubramanian, C. Johnson (2011)
Enabling Sodium Batteries Using Lithium‐Substituted Sodium Layered Transition Metal Oxide CathodesAdvanced Energy Materials, 1
-
N. Yabuuchi, Ryo Hara, Masataka Kajiyama, K. Kubota, T. Ishigaki, A. Hoshikawa, S. Komaba (2014)
New O2/P2‐type Li‐Excess Layered Manganese Oxides as Promising Multi‐Functional Electrode Materials for Rechargeable Li/Na BatteriesAdvanced Energy Materials, 4
-
Michael Slater, Donghan Kim, Eungje Lee, C. Johnson (2013)
Sodium‐Ion BatteriesAdvanced Functional Materials, 23
-
Haijun Yu, Shaohua Guo, Yanbei Zhu, M. Ishida, Haoshen Zhou (2014)
Novel titanium-based O3-type NaTi(0.5)Ni(0.5)O2 as a cathode material for sodium ion batteries.Chemical communications, 50 4
-
Huilin Pan, Yong‐Sheng Hu, Liquan Chen (2013)
Room-temperature stationary sodium-ion batteries for large-scale electric energy storageEnergy and Environmental Science, 6
-
Seung Oh, Seung‐Taek Myung, Jang‐Yeon Hwang, B. Scrosati, K. Amine, Yang‐Kook Sun (2014)
High Capacity O3-Type Na[Li0.05(Ni0.25Fe0.25Mn0.5)0.95]O2 Cathode for Sodium Ion BatteriesChemistry of Materials, 26
-
D. Buchholz, C. Vaalma, Luciana Chagas, S. Passerini (2015)
Mg-doping for improved long-term cyclability of layered Na-ion cathode materials - The example of P2-type Na x Mg 0.11 Mn 0.89 O 2Journal of Power Sources, 282
-
Eungje Lee, Jun Lu, Yang Ren, Xiangyi Luo, Xiaoyi Zhang, J. Wen, Dean Miller, Aaron DeWahl, S. Hackney, B. Key, Donghan Kim, Michael Slater, C. Johnson (2014)
Layered P2/O3 Intergrowth Cathode: Toward High Power Na‐Ion BatteriesAdvanced Energy Materials, 4
-
J. Thorne, R. Dunlap, M. Obrovac (2013)
Structure and Electrochemistry of NaxFexMn1-xO2 (1.0 -
Sung-Wook Kim, D. Seo, Xiaohua Ma, G. Ceder, K. Kang (2012)
Electrode Materials for Rechargeable Sodium‐Ion Batteries: Potential Alternatives to Current Lithium‐Ion BatteriesAdvanced Energy Materials, 2
-
D. Yuan, Xiaohong Hu, Jiangfeng Qian, Feng Pei, Fayuan Wu, Rongjun Mao, X. Ai, Hanxi Yang, Yuliang Cao (2014)
P2-type Na0.67Mn0.65Fe0.2Ni0.15O2 Cathode Material with High-capacity for Sodium-ion BatteryElectrochimica Acta, 116
-
D. Buchholz, Luciana Chagas, C. Vaalma, Liming Wu, S. Passerini (2014)
Water sensitivity of layered P2/P3-NaxNi0.22Co0.11Mn0.66O2 cathode materialJournal of Materials Chemistry, 2
-
D. Yuan, Wei He, Feng Pei, Fayuan Wu, Yue Wu, Jiangfeng Qian, Yuliang Cao, X. Ai, Hanxi Yang (2013)
Synthesis and electrochemical behaviors of layered Na0.67[Mn0.65Co0.2Ni0.15]O2 microflakes as a stable cathode material for sodium-ion batteriesJournal of Materials Chemistry, 1
-
N. Yabuuchi, H. Yoshida, S. Komaba (2012)
Crystal Structures and Electrode Performance of Alpha-NaFeO2 for Rechargeable Sodium BatteriesElectrochemistry, 80
-
Yunming Li, Zhenzhong Yang, Shuyin Xu, Linqin Mu, L. Gu, Yong‐Sheng Hu, Hong Li, Liquan Chen (2015)
Air‐Stable Copper‐Based P2‐Na7/9Cu2/9Fe1/9Mn2/3O2 as a New Positive Electrode Material for Sodium‐Ion BatteriesAdvanced Science, 2
-
Yuechuan Lei, X. Li, Lei Liu, G. Ceder (2014)
Synthesis and Stoichiometry of Different Layered Sodium Cobalt OxidesChemistry of Materials, 26
-
Yang Wen, K. He, Yujie Zhu, Fudong Han, Yunhua Xu, I. Matsuda, Y. Ishii, J. Cumings, Chunsheng Wang (2014)
Expanded graphite as superior anode for sodium-ion batteriesNature Communications, 5
-
N. Yabuuchi, Ryo Hara, K. Kubota, J. Paulsen, S. Kumakura, S. Komaba (2014)
A new electrode material for rechargeable sodium batteries: P2-type Na2/3[Mg0.28Mn0.72]O2 with anomalously high reversible capacityJournal of Materials Chemistry, 2
-
R. Kataoka, T. Mukai, A. Yoshizawa, T. Sakai (2013)
Development of High Capacity Cathode Material for Sodium Ion Batteries Na0.95Li0.15(Ni0.15Mn0.55Co0.1)O2Journal of The Electrochemical Society, 160
-
C. Delmas, C. Fouassier, P. Hagenmuller (1980)
Structural classification and properties of the layered oxidesPhysica B-condensed Matter, 99
- Publisher
- Wiley
- Copyright
- Copyright © 2015 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
- ISSN
- 0935-9648
- eISSN
- 1521-4095
- DOI
- 10.1002/adma.201502449
- pmid
- 26436288
- Publisher site
- See Article on Publisher Site
Abstract
A prototype rechargeable sodium‐ion battery using an O3‐Na0.90(Cu0.22Fe0.30Mn0.48)O2 cathode and a hard carbon anode is demonstrated to show an energy density of 210 W h kg−1, a round‐trip energy efficiency of 90%, a high rate capability (up to 6C rate), and excellent cycling stability.
Journal
Advanced Materials – Wiley
Published: Nov 1, 2015
Keywords: ; ; ; ;