A wide variety of electrical materials such as polymeric insulating materials, energy storage materials, functional ceramics, semi-conductive sensing materials and high conductive metallic materials compose the complicated power transmission system. Recently, the ultra-high voltage was widely developed and applied in the long-distance power transmission system, which proposed higher requirements for electrical materials. The power electrical/electronic components miniaturization, the lightweight and the high performance, high-performance encapsulating materials are required. Moreover, renewable energy was continually integrated into the power grid, making environment-friendly electrical materials more and more popular, and attracting the attention of scholars all over the world.
Recently, advanced preparation processes, for example, doping, chemical grafting, crosslinking, annealing etc. were widely developed to synthesize new electrical materials. The electrical and physicochemical performance of the electrical materials were significantly improved. However, the degradation of the electrical materials is unavoidable because they usually run under a high electromagnetic field and are subject to corroding from the harsh operating environment, such as high temperature and high humidity working conditions, which bring new challenges for the reliable application of the electrical materials. Therefore, it is important to clarify the deterioration mechanism of the electrical materials based on reasonable experimental designs, advanced detection and measurement technology.
Therefore, in this Research Topic, we call for papers focusing on the fabrication, characterization, and deterioration mechanism of new electrical materials. We welcome researchers to contribute Original Research, Brief Research Reports and Review papers for this Research Topic. Potential topics include, but are not limited to:
• Advanced electrical materials fabrication and their deterioration mechanism
• Nano-dielectric materials and relaxation phenomena
• Functional dielectrics, film, ceramics
• Advanced measurement technology
• Semi-conductive sensing materials and high conductive metallic materials in electrical and electronic engineering
• Other related aspects
A wide variety of electrical materials such as polymeric insulating materials, energy storage materials, functional ceramics, semi-conductive sensing materials and high conductive metallic materials compose the complicated power transmission system. Recently, the ultra-high voltage was widely developed and applied in the long-distance power transmission system, which proposed higher requirements for electrical materials. The power electrical/electronic components miniaturization, the lightweight and the high performance, high-performance encapsulating materials are required. Moreover, renewable energy was continually integrated into the power grid, making environment-friendly electrical materials more and more popular, and attracting the attention of scholars all over the world.
Recently, advanced preparation processes, for example, doping, chemical grafting, crosslinking, annealing etc. were widely developed to synthesize new electrical materials. The electrical and physicochemical performance of the electrical materials were significantly improved. However, the degradation of the electrical materials is unavoidable because they usually run under a high electromagnetic field and are subject to corroding from the harsh operating environment, such as high temperature and high humidity working conditions, which bring new challenges for the reliable application of the electrical materials. Therefore, it is important to clarify the deterioration mechanism of the electrical materials based on reasonable experimental designs, advanced detection and measurement technology.
Therefore, in this Research Topic, we call for papers focusing on the fabrication, characterization, and deterioration mechanism of new electrical materials. We welcome researchers to contribute Original Research, Brief Research Reports and Review papers for this Research Topic. Potential topics include, but are not limited to:
• Advanced electrical materials fabrication and their deterioration mechanism
• Nano-dielectric materials and relaxation phenomena
• Functional dielectrics, film, ceramics
• Advanced measurement technology
• Semi-conductive sensing materials and high conductive metallic materials in electrical and electronic engineering
• Other related aspects