Nanomaterials for Energy

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Nanomaterials for Energy Storage & Harvesting
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Nanomaterials offer exceptional physical, electrical, and chemical properties that make them highly suitable for energy storage and harvesting applications. By leveraging these unique characteristics, advanced materials can be designed to enhance energy efficiency, stability, and charge transport in next-generation energy devices. One key research area involves the development of Li-ion extraction filter membranes utilizing van der Waals gaps in 2D material heterostructures, enabling selective ion transport for improved battery performance. 

Additionally, nanomaterials play a crucial role in electrocatalysts, solar cells, and photovoltaics, contributing to the development of more efficient and sustainable energy solutions. These advancements pave the way for high-performance energy storage and conversion technologies essential for the future of renewable energy.
The primary research topics in this field include
  1. Development of energy storage/harvesting materials by leveraging the unique physical, electrical, and chemical properties of nanomaterials.
  2. Li-ion extraction filter membranes utilizing van der Waals gaps in 2D material heterostructures.
  3. Key applications: Li-ion batteries, electrocatalysts, solar cells, and photovoltaics.
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