Cobalt‐Based Materials in Supercapacitors and Batteries: A Review
Energy demand has become a persistent concern and high‐performance energy storage systems have increasingly undergone development. Supercapacitors and batteries pose great impact on energy storage and garner a great deal of attention from technologies and researchers alike. The performance of energy...
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| Format: | Article |
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Wiley-VCH
2025-02-01
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| Series: | Advanced Energy & Sustainability Research |
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| Online Access: | https://doi.org/10.1002/aesr.202400271 |
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| author | Jyothi A. Goudar Thrinethra S. N. Sharanappa Chapi Murugendrappa M. V. Mohammad Reza Saeb Mehdi Salami‐Kalajahi |
| author_facet | Jyothi A. Goudar Thrinethra S. N. Sharanappa Chapi Murugendrappa M. V. Mohammad Reza Saeb Mehdi Salami‐Kalajahi |
| author_sort | Jyothi A. Goudar |
| collection | DOAJ |
| description | Energy demand has become a persistent concern and high‐performance energy storage systems have increasingly undergone development. Supercapacitors and batteries pose great impact on energy storage and garner a great deal of attention from technologies and researchers alike. The performance of energy saving devices is primarily determined by the electrode material in terms of high specific capacitance, excellent conductivity, remarkable natural abundance, and unique electrochemical qualities, also large surface area. Cobalt (Co)‐based materials are unique electrode materials widely used in energy storage devices. Nevertheless, a combination of Co and ferrite materials such as nickel, zinc, and copper, or Co/nonferrite materials like metal–organic frameworks and layered double hydroxides has improved their ultimate efficiency. This review deals with energy storage applications of Co‐based materials, categorizing ferrites, their electrochemical characterization, performance, also design and manufacturing intended to supercapacitors and batteries applications. Summarizing the main outcomes of the literature on batteries and supercapacitors, energy storage systems comprising Co‐based materials combined with carbon nanotubes, graphene, silica, copper, zinc, nickel, cadmium, ferrous, and lanthanum are reviewed and discussed. Lithium‐ion batteries are investigated specifically, and perspectives on Co‐based ferrite development for future generations of supercapacitors and batteries are outlined. |
| format | Article |
| id | doaj-art-45bf78226ab849679b945f1d00673e56 |
| institution | Kabale University |
| issn | 2699-9412 |
| language | English |
| publishDate | 2025-02-01 |
| publisher | Wiley-VCH |
| record_format | Article |
| series | Advanced Energy & Sustainability Research |
| spelling | doaj-art-45bf78226ab849679b945f1d00673e562025-02-06T18:50:31ZengWiley-VCHAdvanced Energy & Sustainability Research2699-94122025-02-0162n/an/a10.1002/aesr.202400271Cobalt‐Based Materials in Supercapacitors and Batteries: A ReviewJyothi A. Goudar0Thrinethra S. N.1Sharanappa Chapi2Murugendrappa M. V.3Mohammad Reza Saeb4Mehdi Salami‐Kalajahi5Department of Physics B.M.S. College of Engineering Bengaluru 560019 Karnataka IndiaDepartment of Physics B.M.S. College of Engineering Bengaluru 560019 Karnataka IndiaDepartment of Physics B.M.S. College of Engineering Bengaluru 560019 Karnataka IndiaDepartment of Physics B.M.S. College of Engineering Bengaluru 560019 Karnataka IndiaDepartment of Pharmaceutical Chemistry Medical University of Gdańsk J. Hallera 107 80‐416 Gdańsk PolandFaculty of Polymer Engineering Sahand University of Technology P.O. Box 51335‐1996 Tabriz IranEnergy demand has become a persistent concern and high‐performance energy storage systems have increasingly undergone development. Supercapacitors and batteries pose great impact on energy storage and garner a great deal of attention from technologies and researchers alike. The performance of energy saving devices is primarily determined by the electrode material in terms of high specific capacitance, excellent conductivity, remarkable natural abundance, and unique electrochemical qualities, also large surface area. Cobalt (Co)‐based materials are unique electrode materials widely used in energy storage devices. Nevertheless, a combination of Co and ferrite materials such as nickel, zinc, and copper, or Co/nonferrite materials like metal–organic frameworks and layered double hydroxides has improved their ultimate efficiency. This review deals with energy storage applications of Co‐based materials, categorizing ferrites, their electrochemical characterization, performance, also design and manufacturing intended to supercapacitors and batteries applications. Summarizing the main outcomes of the literature on batteries and supercapacitors, energy storage systems comprising Co‐based materials combined with carbon nanotubes, graphene, silica, copper, zinc, nickel, cadmium, ferrous, and lanthanum are reviewed and discussed. Lithium‐ion batteries are investigated specifically, and perspectives on Co‐based ferrite development for future generations of supercapacitors and batteries are outlined.https://doi.org/10.1002/aesr.202400271cobalt ferritescobalt‐based materialsenergy storagelithium‐ion batteriessupercapacitors |
| spellingShingle | Jyothi A. Goudar Thrinethra S. N. Sharanappa Chapi Murugendrappa M. V. Mohammad Reza Saeb Mehdi Salami‐Kalajahi Cobalt‐Based Materials in Supercapacitors and Batteries: A Review Advanced Energy & Sustainability Research cobalt ferrites cobalt‐based materials energy storage lithium‐ion batteries supercapacitors |
| title | Cobalt‐Based Materials in Supercapacitors and Batteries: A Review |
| title_full | Cobalt‐Based Materials in Supercapacitors and Batteries: A Review |
| title_fullStr | Cobalt‐Based Materials in Supercapacitors and Batteries: A Review |
| title_full_unstemmed | Cobalt‐Based Materials in Supercapacitors and Batteries: A Review |
| title_short | Cobalt‐Based Materials in Supercapacitors and Batteries: A Review |
| title_sort | cobalt based materials in supercapacitors and batteries a review |
| topic | cobalt ferrites cobalt‐based materials energy storage lithium‐ion batteries supercapacitors |
| url | https://doi.org/10.1002/aesr.202400271 |
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