Superconducting Materials for Energy Transmission and Storage are revolutionizing the way we think about energy efficiency, storage, and long-distance transmission. These materials, which exhibit zero electrical resistance under certain conditions, offer unparalleled potential for reducing energy losses and enhancing the performance of electrical systems. As demand for efficient energy transmission and sustainable energy solutions grows, superconducting materials are poised to play a pivotal role in the next generation of power grids, energy storage devices, and transportation systems.

At MSAM – 2026, this session will explore the latest advancements in superconducting materials and their real-world applications in energy systems, focusing on how these materials can transform power transmission and storage for a more sustainable future.

We invite submissions and expert talks on:

• High-Temperature Superconductors (HTS): Advancements in materials that exhibit superconductivity at higher temperatures, making them more practical for commercial applications.

• Superconducting Cables for Power Grids: How HTS cables can significantly reduce energy loss in electrical transmission and improve grid efficiency.

• Energy Storage Systems Utilizing Superconductors: Superconducting magnetic energy storage (SMES) systems for efficient energy storage and rapid discharge capabilities.

• Superconducting Materials for Electric Vehicles (EVs): The role of superconductors in improving battery performance, reducing energy consumption, and enhancing charging times in EVs.

• Applications in Wind and Solar Energy Systems: Using superconducting materials to enhance the efficiency and scalability of renewable energy generation and distribution.

• Quantum Computing and Superconducting Materials: Leveraging superconductivity for energy-efficient quantum computing systems and their potential energy savings.

• Materials Challenges and Performance in Superconducting Systems: Addressing current material limitations, including cost, scalability, and material integrity at cryogenic temperatures.

• Cryogenic Systems for Superconducting Applications: The challenges and breakthroughs in developing efficient cryogenic systems for the widespread adoption of superconducting materials.

• Magnetic Levitation and Transport Systems: Exploring superconducting materials in applications like maglev trains for high-speed, low-energy transportation.

• Nanotechnology and Superconductivity: The role of nanostructured materials in improving superconducting properties and performance.

• Environmental and Economic Impacts of Superconducting Materials: Assessing the lifecycle impacts, sustainability, and cost-benefit analysis of implementing superconducting technologies.

• Future Trends in Superconducting Energy Systems: Innovations and emerging research that will drive the next generation of superconducting materials for energy transmission, storage, and beyond.

This session provides a platform for researchers, material scientists, and engineers to discuss the transformative potential of superconducting materials in modern energy systems. It is a must-attend for those interested in exploring the intersection of cutting-edge materials science and energy sustainability.

Join us at MSAM – 2026 to explore how superconducting materials are shaping the future of energy transmission, storage, and beyond!