Candace Chan
Associate Professor
Materials science and engineering
Research Interests
Lithium-ion batteries and electrochemical capacitors; electrochemical energy storage, solar-to-fuel photoelectrochemistry, nanomaterial synthesis.
Candace Chan
Associate Professor
Materials science and engineering
Research Interests
Lithium-ion batteries and electrochemical capacitors; electrochemical energy storage, solar-to-fuel photoelectrochemistry, nanomaterial synthesis.
Peter Crozier
Professor
Graduate program chair, materials science and engineering
Research Interests
Seeing materials with Electrons: Synthesis, characterization and evolution of nanomaterials and nanostructures related to energy and the environment; strong emphasis on advanced electron microscopy imaging and spectroscopy. Catalytic materials, electroceramics. photocatalysis.
Zhaoyang Fan
Professor
School of Electrical, Computer and Energy Engineering
Research Interests
Novel electronic/photonic materials include phase-change materials and ionic conducting materials; Neuromorphic devices; Electrochemistry and advanced battery technology; Nanobiotechnology
Yoon Hwa
Assistant Professor
Electrical Engineering
Research Interests
Synthesis of functional nanomaterials for the energy storage system; Electroanalytical chemistry, Metal 3D manufacturing such as laser powder bed fusion.
Michael Kozicki
Professor
School of Electrical, Computer and Energy Engineering
Research Interests
Digital and analog devices based on mass transport in electrolytes, integrated solid-state ionic memory devices, dendritic/fractal structures.
Richard King
Assistant Professor
Materials Science and Engineering
Research Interests
Designing advanced cathode materials for lithium batteries and beyond, understanding degradation mechanisms and interfacial chemistry in energy storage devices.
Nicholas Rolston
Assistant Professor
Electrical Engineering
Research Interests
Study of the connection between material degradation in renewable energy materials and devices with the evolution of mechanical and environmental stress. Goal is to develop the next-generation of photovoltaics and battery technology using the paradigm of design for reliability.