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Pavle Radovanovic's research investigates the synthesis and fundamental physical chemical properties of applications using rationally designed nanostructured materials, which combine tunable optical, electrical, and magnetic properties. His group applies a variety of synthetic, crystallographic, microscopic, spectroscopic, and magnetic transport techniques, performing measurements at both the novel nanomaterials ensemble and single nanostructure level. Their approach aims at achieving multifunctionality through the use of complex nanocrystalline alloys and compounds that contain multiple selected transition-metal and rare-earth-metal sites. The rational design and study of these materials provide critical understanding regarding the relationship between crystal electronic structures and the low-dimensional multifunctional systems focusing on their optical, electrical, and magnetic properties. He dedicates particular attention to the mutual interactions of light, electrical conductivity, and magnetization in a nanoscale context for innovative technological applications. Ultimately, his long-term goal is to grasp materials at the molecular level to design improved multifunctional nanostructures based on an understanding of the structure-function relationship.
Includes fields like Clinical, Cognitive, Developmental, and Industrial/Organizational Psychology.