điện cực tổ hợp Fe3O4/C, pin sắt/khí, vật liệu nano Fe3O4, vật liệu tổ hợp Fe3O4/C.

  • Quang Phong Le
  • Van Hop Nguyen
  • Tuan Anh Trinh
  • Manh Thuan Vu, Ha Thang Doan
  • Thi Hang Bui*
Keywords: Iron oxide materials are abundant on Earth and are widely used in various fields, including iron/air batteries. In this study, iron oxide (Fe3O4) nanomaterials are employed as electrochemically active materials, while acetylene black (AB) carbon nanomaterials serve as electrode additives to fabricate Fe 3O4/AB composites for use as negative electrodes in iron/air batteries. S2- based additives are incorporated into both the electrode and the electrolyte to examine their effects on the charge - discharge performance of Fe 3O4/AB. The electrochemical properties of the Fe3O4/AB composite electrodes are evaluated through the cyclic voltammetry and electrochemical impedance spectroscopy. The results indicate that the S2- additives significantly influence the electrochemical performance of the Fe3O4/AB composite electrode. The presence of S2- in the Fe3O4/AB composite electrode enhances the rate of iron redox reactions, thereby improving the capacity and charge - discharge efficiency of the Fe3O4/AB electrode. The S2- additive in the electrolyte solution plays a crucial role by improving the passivation of the iron electrode, reducing hydrogen evolution, and accelerating iron redox reactions, thereby enhancing the cycleability and capacity of the Fe3O4/AB electrode.

Abstract

Iron oxide materials are abundant on Earth and are widely used in various fields, including iron/air batteries. In this study, iron oxide (Fe3O4) nanomaterials are employed as electrochemically active materials, while acetylene black (AB) carbon nanomaterials serve as electrode additives to fabricate Fe3O4/AB composites for use as negative electrodes in iron/air batteries. S2- based additives are incorporated into both the electrode and the electrolyte to examine their effects on the charge - discharge performance of Fe3O4/AB. The electrochemical properties of the Fe3O4/AB composite electrodes are evaluated through the cyclic voltammetry and electrochemical impedance spectroscopy. The results indicate that the S2- additives significantly influence the electrochemical performance of the Fe3O4/AB composite electrode. The presence of S2- in the Fe3O4/AB composite electrode enhances the rate of iron redox reactions, thereby improving the capacity and charge - discharge efficiency of the Fe3O4/AB electrode. The S2- additive in the electrolyte solution plays a crucial role by improving the passivation of the iron electrode, reducing hydrogen evolution, and accelerating iron redox reactions, thereby enhancing the cycleability and capacity of the Fe3O4/AB electrode.

Tác giả

Quang Phong Le

School of Engineering Physics, Hanoi University of Science and Technology, 1 Dai Co Viet Street, Bach Mai Ward, Hanoi, Vietnam

Van Hop Nguyen

Battery Factory, VinFast Factory Complex, Cat Hai Special Zone, Hai Phong City, Vietnam

Tuan Anh Trinh

Electric Power University, 235 Hoang Quoc Viet Street, Nghia Do Ward, Hanoi, Vietnam

Manh Thuan Vu, Ha Thang Doan

Vietnam Space Committee, Ministry of Science and Technology, 113 Tran Duy Hung Street, Yen Hoa Ward, Hanoi, Vietnam

Thi Hang Bui*

Department of Electronic Materials and Devices, School of Materials Science and Engineering, Hanoi University of Science and Technology, 1 Dai Co Viet Street, Bach Mai Ward, Hanoi, Vietnam

điểm /   đánh giá
Published
2025-11-25
Issue
Vol. 67 No. 11B (2025): VOLUME 67 - NUMBER 11 - NOVEMBER 2025
Section
Bài viết