The project on rubber superconducting materials The project on rubber superconducting materials is an emerging research field aimed at combining the superconducting properties with the flexibility and stretchability of rubber materials. The research in this project encompasses the following aspects: Material synthesis and design: Research and development of rubber materials with superconducting properties, exploring different synthesis methods and processes to achieve compatibility between superconducting performance and the flexible nature of rubber. Characterization of properties: Experimental characterization of rubber superconducting materials, including measurements of critical temperature, critical current density, magnetic hysteresis, and magnetism. Study of flexibility and stretchability: Investigation of the performance of rubber superconducting materials under different deformation conditions, such as bending, stretching, and twisting, to evaluate their flexibility and stretchability. Mechanism analysis: Study of the physical mechanisms of rubber superconducting materials, including electron transport, the influence of flexibility and deformation on superconducting performance, using theoretical modeling and computational methods to analyze the underlying mechanisms. Application research: Exploration of the potential applications of rubber superconducting materials in flexible electronics, flexible sensors, wearable devices, and electronic devices requiring high stretchability. |