High Voltage Asymmetric Supercapacitors Using Tungsten‐Doped Mn‐Co Spinel Ferrite Electrodes-Reference-Cited by-同舟云学术

High Voltage Asymmetric Supercapacitors Using Tungsten‐Doped Mn‐Co Spinel Ferrite Electrodes

Published:2024-05-23 Issue:20 Volume:9 Page:
ISSN:2365-6549
Container-title:ChemistrySelect
language:en
Short-container-title:ChemistrySelect

Author:

Alqarni Ameerah N.¹²,Cevik Emre³,Almessiere M. A.⁴⁵,Baykal A.⁶,Gondal M. A.⁷⁸,Bozkurt Ayhan³,Iqbal Arfa⁹,Asiri Sarah M.³,Slimani Y.⁴,Gunday Seyda T.³

Affiliation:

1. Physics Department College of Science and Humanities Imam Abdulrahman Bin Faisal University Jubail Saudi Arabia

2. Postgraduate program at Institute for Research and medical consultation (IRMC) - Biotechnology Program Imam Abdulrahman Bin Faisal University Main Campus, P.O. Box 1982 Dammam 31441 Saudi Arabia

3. Bioenergy Research Unit Department of Biophysics Institute for Research and Medical Consultations Imam Abdulrahman Bin Faisal University P.O. Box 1982 Dammam 31441 Saudi Arabia

4. Department of Biophysics, Institute for Research and Medical Consultations (IRMC) Imam Abdulrahman Bin Faisal University PO Box:1982 Dammam 31441 Saudi Arabia

5. Department of Physics College of Science Imam Abdulrahman Bin Faisal University P.O. Box 1982 Dammam 31441 Saudi Arabia

6. Food Engineering Department Faculty of Engineering Istanbul Aydin University 34295 Istanbul Turkey

7. Laser Research Group Physics Department & IRC-Hydrogen and Energy Storage King Fahd University of Petroleum & Minerals (KFUPM) Mailbox 5047 Dhahran 31261 Saudi Arabia

8. K.A.CARE Energy Research and Innovation Center King Fahd University of Petroleum & Minerals Dhahran 31261 Saudi Arabia

9. Institute of Environmental Engineering and Research University of Engineering and Technology PO Box: 54890 Lahore 54000 Pakistan

Abstract

AbstractPhysicochemical properties emerging nanomaterials possessing tungsten (W) are unique and the applications could be extended over a wide spectrum as nanocomposite electrodes for effective high voltage energy storage applications. Herewith, W doped spinel ferrite nanostructures was synthesized with facile hydrothermal strategy to get MnCo1.98W0.02O4 (MnCoW). The spectroscopic characterization studies proved spherical subunits embedded onto nanosheets formed by W doped bimetallic oxide with a crystalline phase. The resistance due to charge transfer of the electrodes was reduced which led to enhanced transfer of charge across interface of electrode and electrolyte was addressed upon W doping. Carbon based nanocomposite electrodes endowed by their unique structures and the electrochemical performance with various aqueous electrolytes were tested in an asymmetric supercapacitor application. Excellent capacitance development from 141.2 F g−1 to 203.7 F g−1 was achieved by W doping possessing an energy density of 17.9 Wh kg−1. A superior capacitance retention of 91 % was obtained from MnCoW‐based device right after 10000 cycles (charging/discharging) at 1 A g−1. The designed supercapacitor device employing MnCoW electrode exhibited better lifetime performance during lighting a LED under various angles.

Publisher

Wiley

Reference41 articles.

1. Development of Energy Storage Systems for Power Network Reliability: A Review

2. T. M. Masaud K. Lee P. K. Sen inNorth American Power Symposium 2010 IEEE Arlington TX USA 2010 pp. 1–6.

3. Recent advancements in supercapacitor technology

4. Synthesis of hybrid nanowire arrays and their application as high power supercapacitor electrodes

5. Department of Electrical and Electronics Engineering SRM University Kattankulathur India 603203. Z. S. Iro Int. J. Electrochem. Sci.2016 10628–10643.