Recent progress in the development of carbon‐based materials in lead–carbon batteries

Shivraj Mahadik; Subramani Surendran; Joon Young Kim; Dongkyu Lee; Jihyun Park; Tae‐Hoon Kim; Ho‐Young Jung; Uk Sim

doi:10.1002/cnl2.78

Carbon Neutralization (Jul 2023)

Recent progress in the development of carbon‐based materials in lead–carbon batteries

Shivraj Mahadik,
Subramani Surendran,
Joon Young Kim,
Dongkyu Lee,
Jihyun Park,
Tae‐Hoon Kim,
Ho‐Young Jung,
Uk Sim

Affiliations

Shivraj Mahadik: Department of Materials Science and Engineering Chonnam National University Gwangju Republic of Korea
Subramani Surendran: Hydrogen Energy Technology Laboratory Korea Institute of Energy Technology (KENTECH) Naju Republic of Korea
Joon Young Kim: Hydrogen Energy Technology Laboratory Korea Institute of Energy Technology (KENTECH) Naju Republic of Korea
Dongkyu Lee: Hydrogen Energy Technology Laboratory Korea Institute of Energy Technology (KENTECH) Naju Republic of Korea
Jihyun Park: Hydrogen Energy Technology Laboratory Korea Institute of Energy Technology (KENTECH) Naju Republic of Korea
Tae‐Hoon Kim: Department of Materials Science and Engineering Chonnam National University Gwangju Republic of Korea
Ho‐Young Jung: Research Institute, Center for Energy Storage System Chonnam National University Gwangju Republic of Korea
Uk Sim: Hydrogen Energy Technology Laboratory Korea Institute of Energy Technology (KENTECH) Naju Republic of Korea

DOI: https://doi.org/10.1002/cnl2.78
Journal volume & issue: Vol. 2, no. 4
pp. 510 – 524

Abstract

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Abstract Lead‐acid batteries (LABs) are widely used as a power source in many applications due to their affordability, safety, and recyclability. However, as the demand for better electrochemical energy storage increases in various fields, there is a growing need for more advanced battery technologies. To meet this need, the application of LABs in hybrid electric vehicles and renewable energy storage has been explored, and the development of lead–carbon batteries (LCBs) has garnered significant attention as a promising solution. LCBs incorporate carbon materials in the negative electrode, successfully addressing the negative irreversible sulfation issue that plagues traditional LABs. Composite material additives and Pb–C composite electrodes have also gained popularity as effective ways to enhance negative electrode performance. This review article focuses on the role of carbon additives in the negative electrode of LCBs and discusses potential future additives that may be incorporated into the development of LCBs. Overall, this article provides insights into the potential of LCBs to offer more efficient and reliable energy storage.

Published in Carbon Neutralization

ISSN: 2769-3333 (Print); 2769-3325 (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources; Technology: Electrical engineering. Electronics. Nuclear engineering: Production of electric energy or power. Powerplants. Central stations
Website: https://onlinelibrary.wiley.com/journal/27693325

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