Layered P2-Na2/3Co1/2Ti1/2O2 as a high-performance cathode material for sodium-ion batteries

Layered oxides are regarded as promising cathode materials for sodium-ion batteries. We present Na2/3Co1/2Ti1/2O2 as a potential new cathode material for sodium-ion batteries. The crystal features and morphology of the pristine powder were characterized by X-ray diffraction (XRD) and scanning electr...

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Published in:Journal of Power Sources Vol. 342; pp. 998 - 1005
Main Authors: Sabi, Noha, Doubaji, Siham, Hashimoto, Kazuki, Komaba, Shinichi, Amine, Khalil, Solhy, Abderrahim, Manoun, Bouchaib, Bilal, Essaid, Saadoune, Ismael
Format: Journal Article
Language:English
Published: Elsevier B.V 01.02.2017
Elsevier BV
Elsevier
Subjects:
[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering
Cathode material
Chemical and Process Engineering
Energy storage
Engineering Sciences
Na 2/3 Co 1/2 Ti 1/2 O 2
Na-ion batteries
Na2/3Co1/2Ti1/2O2
P2 structure
Cathode material
Na2/3Co1/2Ti1/2O2
P2 structure
Na-ion batteries
Energy storage
ISSN:0378-7753, 1873-2755
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Abstract Layered oxides are regarded as promising cathode materials for sodium-ion batteries. We present Na2/3Co1/2Ti1/2O2 as a potential new cathode material for sodium-ion batteries. The crystal features and morphology of the pristine powder were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The cathode material is evaluated in galvanostatic charge-discharge and galvanostatic intermittent titration tests, as well as ex-situ X-ray diffraction analysis. Synthesized by a high-temperature solid state reaction, Na2/3Co1/2Ti1/2O2 crystallizes in P2-type structure with P63/mmc space group. The material presents reversible electrochemical behavior and delivers a specific discharge capacity of 100 mAh g−1 when tested in Na half cells between 2.0 and 4.2 V (vs. Na+/Na), with capacity retention of 98% after 50 cycles. Furthermore, the electrochemical cycling of this titanium-containing material evidenced a reduction of the potential jumps recorded in the NaxCoO2 parent phase, revealing a positive impact of Ti substitution for Co. The ex-situ XRD measurements confirmed the reversibility and stability of the material. No structural changes were observed in the XRD patterns, and the P2-type structure was stable during the charge/discharge process between 2.0 and 4.2 V vs. Na+/Na. These outcomes will contribute to the progress of developing low cost electrode materials for sodium-ion batteries. [Display omitted] •A positive electrode material based on Co and Ti for Na-ion batteries was prepared.•Na2/3Co1/2Ti1/2O2 crystallizes in P2-type structure with P63/mmc space group.•A specific discharge capacity of 100 mAh g−1 was obtained.•Na2/3Co1/2Ti1/2O2 shows better stability than Na2/3CoO2 (Cap. Ret. 98%).•Ex-situ XRD confirms the structural stability of the studied material upon cycling.
AbstractList Layered oxides are regarded as promising cathode materials for sodium-ion batteries. We present Na2/3Co1/2Ti1/2O2 as a potential new cathode material for sodium-ion batteries. The crystal features and morphology of the pristine powder were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The cathode material is evaluated in galvanostatic charge-discharge and galvanostatic intermittent titration tests, as well as ex-situ X-ray diffraction analysis. Synthesized by a high-temperature solid state reaction, Na2/3Co1/2Ti1/2O2 crystallizes in P2-type structure with P63/mmc space group. The material presents reversible electrochemical behavior and delivers a specific discharge capacity of 100 mAh g−1 when tested in Na half cells between 2.0 and 4.2 V (vs. Na+/Na), with capacity retention of 98% after 50 cycles. Furthermore, the electrochemical cycling of this titanium-containing material evidenced a reduction of the potential jumps recorded in the NaxCoO2 parent phase, revealing a positive impact of Ti substitution for Co. The ex-situ XRD measurements confirmed the reversibility and stability of the material. No structural changes were observed in the XRD patterns, and the P2-type structure was stable during the charge/discharge process between 2.0 and 4.2 V vs. Na+/Na. These outcomes will contribute to the progress of developing low cost electrode materials for sodium-ion batteries. [Display omitted] •A positive electrode material based on Co and Ti for Na-ion batteries was prepared.•Na2/3Co1/2Ti1/2O2 crystallizes in P2-type structure with P63/mmc space group.•A specific discharge capacity of 100 mAh g−1 was obtained.•Na2/3Co1/2Ti1/2O2 shows better stability than Na2/3CoO2 (Cap. Ret. 98%).•Ex-situ XRD confirms the structural stability of the studied material upon cycling.
Layered oxides are regarded as promising cathode materials for sodium-ion batteries. We present Na2/3Co1/2Ti1/2O2 as a potential new cathode material for sodium-ion batteries. The crystal features and morphology of the pristine powder were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The cathode material is evaluated in galvanostatic charge-discharge and galvanostatic intermittent titration tests, as well as ex-situ X-ray diffraction analysis. Synthesized by a high-temperature solid state reaction, Na2/3Co1/2Ti1/2O2crystallizes in P2-type structure with P63/mmc space group. The material presents reversible electrochemical behavior and delivers a specific discharge capacity of 100 mAh g−1 when tested in Na half cells between 2.0 and 4.2 V (vs. Na+/Na), with capacity retention of 98% after 50 cycles. Furthermore, the electrochemical cycling of this titanium-containing material evidenced a reduction of the potential jumps recorded in the NaxCoO2 parent phase, revealing a positive impact of Ti substitution for Co. The ex-situ XRD measurements confirmed the reversibility and stability of the material. No structural changes were observed in the XRD patterns, and the P2-type structure was stable during the charge/discharge process between 2.0 and 4.2 V vs. Na+/Na. These outcomes will contribute to the progress of developing low cost electrode materials for sodium-ion batteries.
Author Hashimoto, Kazuki
Manoun, Bouchaib
Amine, Khalil
Saadoune, Ismael
Doubaji, Siham
Solhy, Abderrahim
Bilal, Essaid
Sabi, Noha
Komaba, Shinichi
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  email: i.saadoune@uca.ma
  organization: LCME, FST Marrakesh, University Cadi Ayyad, Av. A. Khattabi, BP 549, 40000, Marrakech, Morocco
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ISSN 0378-7753
IngestDate Tue Oct 14 06:54:37 EDT 2025
Sat Nov 29 02:55:36 EST 2025
Tue Nov 18 22:13:22 EST 2025
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Fri Feb 23 02:31:01 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Cathode material
Na2/3Co1/2Ti1/2O2
P2 structure
Na-ion batteries
Energy storage
Language English
License Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Snippet Layered oxides are regarded as promising cathode materials for sodium-ion batteries. We present Na2/3Co1/2Ti1/2O2 as a potential new cathode material for...
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SubjectTerms [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering
Cathode material
Chemical and Process Engineering
Energy storage
Engineering Sciences
Na 2/3 Co 1/2 Ti 1/2 O 2
Na-ion batteries
Na2/3Co1/2Ti1/2O2
P2 structure
Title Layered P2-Na2/3Co1/2Ti1/2O2 as a high-performance cathode material for sodium-ion batteries
URI https://dx.doi.org/10.1016/j.jpowsour.2017.01.025
https://cir.nii.ac.jp/crid/1873679867451121792
https://hal.science/hal-01490456
Volume 342
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