Our group designs hypothetical materials to help address energy and environmental challenges. We are interested in creating sophisticated nanostructures; potentially as complex (and useful) as molecular machines found in Nature. Our strategy is to computationally design and study new materials and then work work with our experimental collaborators to synthesize those materials in the lab. We are active software developers, and we build new computational tools to address problems nobody has tackled before.

David Waldeck received his B.S. in Chemistry from the University of Cincinnati and his Ph.D. also in Chemistry from the University of Chicago. After a postdoctoral appointment funded by an IBM Postdoctoral Fellowship at the University of California Berkeley, he joined the Department of Chemistry of the University of Pittsburgh in 1985. He has received several awards including the Chancellors Distinguished Research Award in 1994. He was also a Belkin Visiting Professor at the Weizmann Institute in Israel a few years later. He is affiliated with both the American Chemical Society and the American Physical Society and has authored three books.

Susan Fullerton received both her B.S. and her Ph.D. in Chemical Engineering, at Penn State University. She then joined Notre Dame University as a Research Assistant Professor, where she still holds a courtesy appointment in the Electrical Engineering Department. She moved to the University of Pittsburgh in 2015 to carry on her work on polymer electrolytes. She has won more than a dozen awards throughout her career and holds a patent for single transistor random access memory using ion storage in two-dimensional crystals. Susan, her husband, and their daughter are happy to be back home in Pittsburgh with their families.

Dr. William Harbert received his MS in Exploration Geophysics and Ph.D. in Geophysics from Stanford University. He then completed a National Research Council (NRC) post-doctoral  Research Associate appointment with the United States Geological Survey in Menlo Park, California. He was also an Exchange Scientist between the US Academy of Sciences and the Academy of Sciences of the USSR (Академия Наук СССР) during one of the last years of this program. He was a Gestattungsvertrag, within the Fachbereich Geowissenschaften, at Institut für Geologische Wissenschaften, Fachrichtung Geophysik, Freie Universität Berlin.  He was a R&D 100 Award Winner for National Risk Assessment Partnership (NRAP) Toolset, working on a United States Department of Energy National Laboratory Team.

He also received recognition of technical work published, Christopher A. Smith, Assistant Secretary for Fossil Energy, United States Department of Energy.  He was appointed and served as a Full Voting Member, Governor’s Commission on Mine Voids and Mine Safety.  Investigate Mine Voids and Mine Safety, which held public hearings, and completed a detailed report for the Governor of Pennsylvania.

He was a member, Academic Advisory Committee to the Pennsylvania Department of Conservation and Natural Resources (DCNR) on the assessment of geological sequestration of carbon dioxide. He also served for several years on the Science Advisory Board Voting Member, In Salah Gas CO₂ Storage JIP.  This involved thoroughly reviewing a complex North African field project and submitting report to the JIP. He is a life-time member of SEG, a registered professional petroleum geophysicist and member of AAPG and SPE. He has been a DOE ORISE Research Associate and a Resident Institute Fellow of the NETL-Institute for Advanced Energy Solution (IAES). He was a member of the Scientific Advisory Board for the In Salah CO₂ Injection Project facilitated by British Petroleum and was also on an Altarock Review Board, which focused on an enhanced geothermal power project funded by the United States Department of Energy.

Dr. Xin Gui is an assistant professor in the Department of Chemistry at the University of Pittsburgh. He received his Ph.D. degree from Louisiana State University with Prof. Weiwei Xie and did his postdoc work with Prof. Robert J. Cava at Princeton University. As a solid-state chemistry people, his work is mainly about design and synthesis of novel quantum materials in chemistry ways, such as superconductors, magnetic topological materials, quantum spin liquids, etc. Moreover, connecting these new quantum materials with real-life applications (quantum computers, spintronic devices, heterogeneous catalysis etc.) is another major direction of his research.