Interfacing Functional Molecules with Electrodes
Professors Steve Tait and Amar Flood are collaborating on a new project aimed at ordering and interfacing electronically active molecules on surfaces — the figure shows a pattern where the periodicity and translational order are those of a crystal, albeit in two dimensions. Here, the rules that must be followed when molecules self-assemble with each other in this way are just being discovered. With the potential for interfacing with technologically relevant electrodes, it is the synergistic collaboration between Flood's group, who make the molecules, and Tait's group, who analyze the assembled pattern, that allows active design of new molecules to probe and manipulate the rules of self-assembly. In so doing, the assembly protocols are road-tested and new materials can be created.
Hear more: "Phase Transitions in Organic Crescents at Liquid-Graphite Interfaces," Brandon E. Hirsch, Kevin P. McDonald, Amar H. Flood and Steve L. Tait, Fall ACS National Meeting, Philadelphia, 2012
Distinguished Professor
Robert & Marjorie Mann Chair
Distinguished Professor
Linda & Jack Gill Chair in Biomolecular Science
James F. Jackson Professor of Chemistry
Class of 1948 Herman B Wells Endowed Professor
Adjunct Professor, Physics
Associate Dean of Natural and Mathematical Sciences and Research
Distinguished Professor and Robert & Marjorie Mann Chair
Professor and Joan & Marvin Carmack Chair
Associate Professor (O'Neill School of Public and Environmental Affairs),
Adjunct Professor (Chemistry)
Rudy Professor (O'Neill School of Public and Environmental Affairs)
Adjunct Professor (Chemistry)
Professor & Associate Vice President for Engagement
Professor, Department of Molecular and Cellular Biochemistry
Adjunct Professor