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for energy and catalytic applications. The Materials Design division is currently active in the design and development of new 2D materials. This is achieved through a combination of theoretical simulations
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, biomaterials from the forest, and hybrid organic materials. We share a common interest in utilizing the combination of electronic and ionic charge for use in healthcare and biology applications, energy, and the
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at green energetics and sustainable chemical transformations. We share a common interest in exploiting the combination of electronic and ionic charge transports from mechanistic level up to device
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visual analytics approaches for model understanding and bias detection. Work closely with other members of the group and stakeholders of the field, engaging in interdisciplinary research that combines
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utilizing the combination of electronic and ionic charge for use in healthcare and biology applications, energy, and the internet-of-things. Our research topics include synthesis, material science, theory and