Nanoscale magnetism, Spintronics, Materials for solar energy harvesting
Office: 225 Fronczak Hall
Lab: 210 Fronczak Hall
Lab Phone: (716) 645-2704
Phone: (716) 645-2946
Nanoscale magnetism, Spintronics, unconventional chalcogenide semiconductors
As dimensions of materials cross over fundamental length scales, new physics emerge. We are interested in understanding fundamental spin and magnetic phenomena in materials at reduced dimensions, such as 2D thin films, 1D nanowires and 0D nanocrystals. We grow these materials using both chemical solution phase synthesis, and physical and chemical vapor deposition techniques. Doping, alloying and heterostructures are exploited to modify the properties of the host materials. We use magnetic, charge transport and magneto-optical probes to study the physical properties of these materials. Presently, the topics of our research include: studying magnetism in atomically thin layers; developing novel 2D magnets and their heterostructures; developing novel magnetic nanoparticles for biomedical applications such as imaging and magnetic hyperthermia.
We are also interested in the design and development of novel materials for energy applications. Our experimental work is guided by first principles theory and materials informatics. Presently our project is focused on developing chalcogenide perovskites, an emerging class of unconventional ionic semiconductors.