| May 14, 2024 |
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(Nanowerk News) Researchers have made a significant leap forward in dielectric materials, with the development of a new class of composites that address critical challenges in medium and high voltage power grid components. These composites offer a trifecta of advantages – efficient electric field management, minimized energy loss, and adaptable performance.
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The findings have been published in Composites Communication (“High aspect ratio Na–Co-oxide ceramic filler composites with novel electrical and dielectric properties”).
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The key to this innovation lies in NaxCoO2 (x<1), a unique ceramic material employed in the form of microscopic platelets. NaxCoO2 exhibits remarkable electromagnetic properties: high dielectric permittivity ensures a uniform distribution of the electric field within the material, while low dielectric loss minimizes energy waste.
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These composites also demonstrate a fascinating voltage-dependent nonlinearity, similar to a ceramic varistor. This allows the material to adapt to fluctuating electric fields, enabling efficient resistive grading – a crucial factor for reliable power transmission.
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The beauty of this nonlinearity lies in its tunability. By controlling the aspect ratio of the NaxCoO2 platelets, researchers can fine-tune the material’s response to electric fields, achieving even greater control over its behavior.
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Another significant advantage is the remarkably low amount of NaxCoO2 required (less than 15 wt. %) for excellent performance. Traditional approaches often rely on high concentrations of nonlinear fillers (exceeding 60 wt. %), making processing complex and expensive. This low filler loading translates to simpler processing and reduced production costs, paving the way for cost-effective real-world applications.
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The development of these multi functional composites looks promising for the future of power grids. Their ability to overcome limitations in size, functionality, and performance paves the way for a new generation of efficient and reliable power components.
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This research, led by Dipankar Ghosh and Geng Jin of 3M Co., has the potential to significantly improve the performance and functionality of our electrical grids, leading to a more robust and efficient power infrastructure for the future.
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