Research

Theme

Ongoing miniaturization of electronic nanodevices demands the understanding and tunability of quantum properties in confined geometries of nanomaterials. Additionally, increasing energy costs associated with data processing by using current technologies requires the exploration of novel quantum materials to fabricate next-generation energy efficient nanodevices. My research tackles these key issues by studying quantum properties of novel materials in confined geometries of nanomaterials and low-dimensional systems. In general, it involves the synthesis of high quality nanostructures and 2D materials via vapor transport techniques. Through my work I seek to detect electrical signatures using magnetotransport measurements that could be used in device architectures to read, write or manipulate information. Below I have organized some of my past work and ongoing projects into categories for further reading.