Plasma-Assisted Synthesis and Surface Modification of Electrode Materials for Renewable Energy

Abstract

Renewable energy technology has been considered as a "MUST" option to lower the use of fossil fuels for industry and daily life. Designing critical and sophisticated materials is of great importance in order to realize high-performance energy technology. Typically, efficient synthesis and soft surface modification of nanomaterials are important for energy technology. Therefore, there are increasing demands on the rational design of efficient electrocatalysts or electrode materials, which are the key for scalable and practical electrochemical energy devices. Nevertheless, the development of versatile and cheap strategies is one of the main challenges to achieve the aforementioned goals. Accordingly, plasma technology has recently appeared as an extremely promising alternative for the synthesis and surface modification of nanomaterials for electrochemical devices. Here, the recent progress on the development of nonthermal plasma technology is highlighted for the synthesis and surface modification of advanced electrode materials for renewable energy technology including electrocatalysts for fuel cells, water splitting, metal–air batteries, and electrode materials for batteries and supercapacitors, etc.

Designing critical and sophisticated electrode materials is of great importance to realize high-performance renewable energy technology, such as fuel cells, water-splitting devices, metal–air batteries, Li–ion batteries, and supercapacitors, etc. The recent progress in the development of nonthermal plasma technology for the synthesis and surface modification of advanced nanomaterials for electrochemical devices is highlighted.

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