Developing new energy devices based on electrochemistry is of great significance for alleviating environmental pollution and solving energy crises. It is of great scientific and practical significance to design high performance electrode materials. Due to the fact that the internal electronic structure and composition of electrode materials can determine the reaction rate and transfer process, the electrochemical properties can be changed by adjusting the structure of electrode materials. The reasonable design of electrode materials plays an important role in promoting the development of renewable energy technology. It is crucial to design and prepare various advanced electrode materials to promote the rapid development of energy storage and conversion. The in-depth study of new methods and technologies for preparing electrode materials, material modification strategies, and reaction mechanisms is of great significance for promoting the rapid development of the materials field.
Transition metal based nanomaterials have become important candidates in the field of energy storage and conversion due to their unique physical properties. Transition metal based electrode materials have the advantages of abundant reserves, diverse types, high energy density, and high reactivity, and have been widely studied by researchers. However, the poor electrical conductivity, unstable cycle life, and delayed reaction kinetics of transition metal based electrode materials limit their further application. To address these issues, it is crucial to rationally design and prepare high-performance electrode materials. Given the significant importance of advanced electrode material structure design in improving energy storage and conversion performance, this Research Topic aims to publish new methods and technologies for designing and preparing various transition metal based electrode materials, as well as in-depth research on the mechanism of transition metal based electrode materials.
This Research Topic focuses on promoting continuous innovation and development in areas such as green and clean energy storage and conversion. This Research Topic welcomes high-quality and innovative Original Research articles and Review articles in related fields. Our goal is to provide readers with cutting-edge knowledge in the design and preparation of transition metal based electrode materials. The scope of this collection includes (but is not limited to) the following topics:
• Design and preparation of metal based electrodes (Sn, Fe, Ge, Co, Zn, ect) and their applications in energy storage and conversion.
• Design and preparation of metal based oxide electrodes (SnO2, MnO2, Co3O4, Fe3O4, ect) and their applications in energy storage and conversion.
• Design and preparation of metal based sulfide electrodes (SnS2, MoS2, Ni3S2, Bi2S3, ect) and their applications in energy storage and conversion.
Keywords:
Advanced electrode materials, New materials, New methods, Mechanism research, Material design, Material modification, Energy storage and conversion
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Developing new energy devices based on electrochemistry is of great significance for alleviating environmental pollution and solving energy crises. It is of great scientific and practical significance to design high performance electrode materials. Due to the fact that the internal electronic structure and composition of electrode materials can determine the reaction rate and transfer process, the electrochemical properties can be changed by adjusting the structure of electrode materials. The reasonable design of electrode materials plays an important role in promoting the development of renewable energy technology. It is crucial to design and prepare various advanced electrode materials to promote the rapid development of energy storage and conversion. The in-depth study of new methods and technologies for preparing electrode materials, material modification strategies, and reaction mechanisms is of great significance for promoting the rapid development of the materials field.
Transition metal based nanomaterials have become important candidates in the field of energy storage and conversion due to their unique physical properties. Transition metal based electrode materials have the advantages of abundant reserves, diverse types, high energy density, and high reactivity, and have been widely studied by researchers. However, the poor electrical conductivity, unstable cycle life, and delayed reaction kinetics of transition metal based electrode materials limit their further application. To address these issues, it is crucial to rationally design and prepare high-performance electrode materials. Given the significant importance of advanced electrode material structure design in improving energy storage and conversion performance, this Research Topic aims to publish new methods and technologies for designing and preparing various transition metal based electrode materials, as well as in-depth research on the mechanism of transition metal based electrode materials.
This Research Topic focuses on promoting continuous innovation and development in areas such as green and clean energy storage and conversion. This Research Topic welcomes high-quality and innovative Original Research articles and Review articles in related fields. Our goal is to provide readers with cutting-edge knowledge in the design and preparation of transition metal based electrode materials. The scope of this collection includes (but is not limited to) the following topics:
• Design and preparation of metal based electrodes (Sn, Fe, Ge, Co, Zn, ect) and their applications in energy storage and conversion.
• Design and preparation of metal based oxide electrodes (SnO2, MnO2, Co3O4, Fe3O4, ect) and their applications in energy storage and conversion.
• Design and preparation of metal based sulfide electrodes (SnS2, MoS2, Ni3S2, Bi2S3, ect) and their applications in energy storage and conversion.
Keywords:
Advanced electrode materials, New materials, New methods, Mechanism research, Material design, Material modification, Energy storage and conversion
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.