Candace K. Chan

Candace K. Chan is an American materials scientist and chemical engineer recognized for her pioneering research in advanced materials for energy storage and conversion. Her work primarily focuses on developing next-generation batteries, including solid-state batteries and systems utilizing silicon anodes, through innovative Nanomaterials design and electrochemical characterization. She leads a research group at the Ira A. Fulton Schools of Engineering at Arizona State University, where her interdisciplinary investigations bridge Materials science, Chemical engineering, and Nanotechnology.

Early life and education

Chan completed her undergraduate studies in Chemical engineering at the University of California, Berkeley, a leading institution in the field. She then pursued her doctoral degree at the California Institute of Technology (Caltech), where her graduate research laid the foundation for her expertise in Nanomaterials synthesis and Electrochemistry. Her doctoral work, conducted under the guidance of prominent researchers in the field, involved the design and study of novel materials for lithium-ion battery applications. Following her Ph.D., she expanded her research portfolio as a postdoctoral fellow at the Lawrence Berkeley National Laboratory, working within the renowned Materials Sciences Division.

Career and research

Chan began her independent academic career as an assistant professor at Arizona State University, where she established a research program within the School for Engineering of Matter, Transport and Energy. Her laboratory investigates fundamental and applied challenges in Energy storage, with significant contributions to understanding interface phenomena in solid-state electrolytes and designing high-capacity electrode materials like silicon and lithium metal. Her group employs advanced techniques such as transmission electron microscopy and synchrotron X-ray scattering to probe material behavior. This work is supported by major funding agencies including the National Science Foundation, the U.S. Department of Energy, and the Office of Naval Research. She has also been actively involved in professional organizations like the Materials Research Society and the Electrochemical Society.

Awards and honors

Throughout her career, Chan has received several prestigious awards recognizing her scientific contributions and potential. These include the National Science Foundation CAREER Award, a highly competitive grant supporting early-career faculty, and the Office of Naval Research Young Investigator Award. Her research excellence has also been acknowledged by the Army Research Office Young Investigator Program and the Scialog Fellow recognition from the Research Corporation for Science Advancement. Furthermore, she was honored as a Scialog Fellow for her work on advanced energy storage systems.

Selected publications

Chan's research findings are disseminated in high-impact, peer-reviewed scientific journals. A selection of her notable publications includes studies on the electrochemical performance of silicon nanowire anodes published in Nature Nanotechnology, investigations into solid electrolyte interfaces featured in Journal of the American Chemical Society, and analyses of mechanochemical synthesis routes for battery materials in Advanced Materials. Other significant works have appeared in Nano Letters, ACS Nano, and Chemistry of Materials, covering topics from in situ characterization to the development of sulfide-based solid electrolytes.

Personal life

Details regarding her personal life are kept private, in line with standard practice for many academic scientists. Her professional focus remains on advancing the field of Energy storage through her research, teaching, and mentorship of graduate students and postdoctoral scholars at Arizona State University.

Category:American materials scientists Category:American chemical engineers Category:21st-century American engineers Category:Living people Category:Arizona State University faculty