Journal of Alloys and Compounds2022,Vol.90210.DOI:10.1016/j.jallcom.2022.163772

Transformation of diffusive to capacitive kinetics in nanoscale modified Co-TiO2@CNTs composites safeguarding steady reversible capacity as sodium-ion battery anode

Kalam A. Iqbal J. Qayyum M.A. Wageh S. Abbas S.M. Bilal M. Zahid M. Ali G. Bashir S. -Rehman A.-U.
Journal of Alloys and Compounds2022,Vol.90210.DOI:10.1016/j.jallcom.2022.163772
  • NSTL
  • Elsevier

Transformation of diffusive to capacitive kinetics in nanoscale modified Co-TiO2@CNTs composites safeguarding steady reversible capacity as sodium-ion battery anode

Kalam A. 1Iqbal J. 2Qayyum M.A. 3Wageh S. 4Abbas S.M. 5Bilal M. 6Zahid M. 6Ali G. 7Bashir S. 8-Rehman A.-U.9
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作者信息

  • 1. Research Center for Advanced Materials Science (RCAMS) King Khalid University
  • 2. Center of Nanotechnology King Abdulaziz University
  • 3. Department of Chemistry Division of Science and Technology University of Education
  • 4. Department of Physics Faculty of Science King Abdulaziz University
  • 5. Nanoscience and Technology Department National Centre for Physics
  • 6. Department of Chemistry Quaid-i-Azam University
  • 7. US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) National University of Science and Technology (NUST)
  • 8. Center for Ionics University of Malaya Department of Physics Faculty of Science University of Malaya
  • 9. Govt. Graduate College Asghar Mall
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Abstract

The effective diffusion-controlled performance of the SIB anode, CoxTi1?xO2/CNTs, presented here offers high reversible sodium uptake. Kinetic studies of the samples conducted through cyclic voltammetry at various scan rates suggest that by increasing the mass ratio of Co atoms in TiO2 lattice the mechanism is shifted from a slow diffusive charge contribution to a fast capacitive charge contribution. Partial amorphization of the crystalline TiO2 diffraction planes revealed by ex-situ XRD along with the attenuation of the crystal lattice reflects the ability of the electrodes for high reversible sodium uptake. The synchronous effect of CNTs and Co loading enhance the porosity with multiple electronic/ionic conducting channels favouring high sodium storage and stability from 109.3 mAh g–1 in TiO2 to 168.5 mAh g–1 in Co0.03Ti0.97O2/CNT electrode after 80 cycles at a current rate of 0.05 C.

Key words

Carbon nanotubes/Diffusion coefficient/Pseudocapacitive/Sodium-ion battery/TiO2

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出版年

2022
Journal of Alloys and Compounds

Journal of Alloys and Compounds

EISCI
ISSN:0925-8388
被引量9
参考文献量62
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