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. Investigate the thermodynamics and interfacial structure-property relationships of materials intended for thermal energy storage to deepen understanding and optimize performance. Develop innovative approaches
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. The successful candidate will conduct cutting-edge research on how microalgae and cyanobacteria can enhance soil fertility, optimize nutrient availability, and contribute to more sustainable agricultural practices
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compounds for use in agriculture, including their role as biostimulants, organic fertilizers, or crop protection agents. Develop and optimize methods to extract, isolate, and characterize valuable bioactive
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material stability and cycling performance. Scale-Up and Process Optimization: Work on improving synthesis methods for large-scale cathode material production. Collaborations and Knowledge Transfer: Work
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material stability and cycling performance. Scale-Up and Process Optimization: Work on improving synthesis methods for large-scale Na-ion cathode material production. Collaborations and Knowledge Transfer
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processes. This project focuses on designing and optimizing novel materials that enhance the efficiency and effectiveness of converting biomass into valuable products such as biofuels and fine chemicals. We
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development of sustainable solutions to extend membrane lifespan while maintaining optimal performance. Special attention will be given to evaluating the effectiveness of cleaning agents, their chemical
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composition and physical properties to ensure optimal quality and performance Familiar with the fabrication and characterization of porous materials. Insertion and encapsulation of fertilizers within the porous
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applications. Faculty will have access to state-of-the-art facilities, a supportive research community, and a collaborative ecosystem designed to enable groundbreaking work. Our research vision is built around
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. However, very little work has been performed on system/network optimization while considering the communications requirements jointly with the decision fusion process. This approach will produce novel