Materials Strategies for Printed Flexible Hybrid Electronic Circuitry
Dr. Tobin Marks
Northestern University
ABSTRACT:
This lecture focuses on the challenging design, realization, characterization, understanding and implementation of new materials for creating unconventional electronic circuitry. Fabrication methodologies to achieve these goals include high-throughput, large-area, high-resolution printing techniques. Materials design topics to be discussed include:
1. Rationally designed high-mobility p- and n-type organic semiconductors for printed organic CMOS
2. Self-assembled and printable high-k Nano dielectrics enabling ultra-large capacitance, low leakage, high breakdown fields, minimal trapped interfacial charge, and device radiation hardness
3. Polycrystalline and amorphous oxide semiconductors for transparent and mechanically flexible electronics 4. Combining these materials sets to fabricate a variety of high-performance thin-film transistor-based circuitries
5. The relevance of these advances to unconventional photovoltaic materials.
This presentation emphasizes the symbiosis between materials synthesis, computational modeling and simulation, materials characterization, and device fabrication and evaluation.t alloys, polyethylene and alumina based bioceramics, and mechanisms of in vivo failure.
BIO:
Dr. Tobin J. Marks is a Vladimir N. Ipatieff Professor of
Chemistry, professor of materials science and engineering, and
professor of applied physics at Northwestern University;
distinguished adjunct professor at Texas A&M University at Qatar;
and BK21 (Brain Korea 21 Program for Leading Universities and
Students) professor at Korea University. He received a BS degree
in chemistry from the University of Maryland (1966) and PhD in
organic chemistry from the Massachusetts Institute of Technology
(1971).
A member of the National Academy of Sciences and National
Academy of Engineering, fellow of the American Academy of Arts
and Sciences and recipient of the National Medal of Science from
the President of the United States of America, Marks has received
more than a dozen national honors from the American Chemical
Society. He has also received accolades from the North American
Catalysis Society Pines Award, American Institute of Chemists,
German Chemical
Society, Royal Society of Chemistry, Chemical Research Society
of India, the Prince of Asturias
Foundation in Spain, Italian Chemical Society, Materials Research
Society, Technical University of
Munich, Technion-Israel Institute of Technology, The Camille and
Henry Dreyfus Foundation, Hong Kong University of Science and
Technology, Pennsylvania State University, the University of
Maryland, the University of Pennsylvania, the University of South
Carolina, and The Ohio State University.