Anjali Thomas is an Associate Professor in the Sam Nunn School of International Affairs and Director of the Nunn School Program in Global Development. Her research focuses on the political economy of development, and employs quantitative analyses of data derived from India and other developing country contexts. Her specific substantive interests include the politics of service provision, democratic institutions and the link between climate change and local level politics. Prior to joining the faculty at Georgia Tech, Anjali was a faculty member in the Department of Political Science at the University of British Columbia in Vancouver. She obtained her Ph.D. from New York University in 2010.

Dr. Jian Luo completed his undergraduate and M.S. studies at Tsinghua University, Beijing, where he received a B.Sc.(Eng.) and a M.S. degree in Environmental Engineering in 1998 and 2000, respectively. He completed his Ph.D. in 2006 in Department of Civil and Environmental Engineering at Stanford University, California. The research Dr. Luo is conducting involves field, theoretical, and computational investigations of flow and reactive transport in subsurface; development and application of geostatistical methods for the spatial and temporal analysis of hydrogeologic and biochemistry data; development of computational algorithms and programs to simulate subsurface flow and reactive transport, and to assess the associated uncertainty; inverse modeling to estimate flow and transport parameters under uncertainty; and use of such computational methods and models to assess subsurface contamination, and to aid the optimal design of groundwater remediation operations.

I am an Assistant Professor at Georgia Tech ISyE. My research concerns the control and operation of decarbonized power systems, particularly with the integration of flexible loads such as electric vehicles. I got my Ph.D. from the University of Oxford in the Energy and Power Group, and completed my postdoc in the GRIFFIN Lab at CU Boulder.

The Tong Lab tackles challenges in the interdisciplinary areas of bioresource engineering and sustainable chemistry. We develop innovative technologies for producing chemicals, materials, energy, and fuels from renewable resources.

Current research interests include:

• Functional biomaterials for high-efficiency circular economy
• Platform chemicals and hydrocarbon fuels from renewable resources
• Sustainable process control and modeling
• Nano-biomaterial synthesis and self-assembling
• Polymer degradation and recycling

Disciplines:

• Materials and Nanotechnology

• Energy and Sustainability

Dr. Akanksha Menon is an Assistant Professor in the Woodruff School of Mechanical Engineering at Georgia Tech. Prior to this, she was a Rosenfeld Postdoctoral Fellow at Lawrence Berkeley National Laboratory, where she performed research on hybrid membrane-thermal desalination processes using solar energy, and she also contributed to the development of thermal energy storage materials. Dr. Menon completed her Ph.D. at Georgia Tech, where she focused on developing semiconducting polymers and new device architectures for thermoelectric energy harvesting. She holds a bachelor's degree from Texas A&M University at Qatar, as well as a master’s degree in Mechanical Engineering from Georgia Tech.

Her research group at Georgia Tech is working on technologies for the water-energy nexus.

Baabak Ashuri is Professor in Schools of Building Construction, and Civil & Environmental Engineering, and Fellow of Brook Byers Institute for Sustainable Systems at Georgia Tech. His research/teaching occupy a distinctive position, bridging the fields of building construction, civil and environmental engineering, economics, and operations research. His work has focused on Quantitative Methods for Construction Engineering and Management with important contributions in the areas of construction analytics, innovative project delivery, and valuation of green-energy investments. He has 159 publications, including 44 refereed-journal papers, and secured $6.77M funding from NSF, FHWA, DOE, CII, GDOT, and Perkins+Will, to name a few. The impact of Dr. Ashuri’s research was recognized by several awards (CII/FIATECH Outstanding Early Career Researcher, ASCE Thomas Fitch Rowland, ASC National Research Faculty, DBIA Distinguished Leadership, and AASHTO High-Value Research “Sweet Sixteen”). Dr. Ashuri has chaired the ASCE Construction Research Council (CRC) and currently serves on the ASCE Construction Institute (CI) Board of Governors.

Elsa Reichmanis is Anderson Chair in Chemical Engineering in the Department of Chemical and Biomolecular Engineering at Lehigh University. Prior to joining Lehigh, she was Professor and Pete Silas Chair in Chemical Engineering in the School of Chemical and Biomolecular Engineering at the Georgia Institute of Technology. She started her independent career at Bell Labs where she was Bell Labs Fellow and Director of the Materials Research Department. She received her PhD and BS degrees in chemistry from Syracuse University. Her research interests include the chemistry, properties, and application of materials technologies for photonic and electronic applications. She has had impact in the design of new imaging chemistries for advanced lithographic applications, and designed one of the first readily accessible and manufacturable polymers for advanced silicon device manufacturing using 193 nm lithography. 

The Reichmanis research group is currently exploring polymeric and hybrid organic/inorganic materials chemistries for a range of device and electronic and sustainable energy applications. Her research, at the interface of chemical engineering, chemistry, materials science, optics, and electronics, spans from fundamental concept to technology development and implementation, with particular focus on polymeric and nanostructured materials for advanced technologies. Currently, efforts aim to identify fundamental parameters that will enable sub-nanometer scale dimensional control of organic, polymer and/or hybrid materials for applications including transistor devices, photovoltaics, and high-capacity energy storage. 

Reichmanis was elected to the National Academy of Engineering in 1995 and has participated in several National Research Council (NRC) activities. She was an elected member of the Bureau of the International Union for Pure and Applied Chemistry (IUPAC); and has been active in the American Chemical Society throughout her career, having served as 2003 President of the Society. Elsa Reichmanis is the recipient of several awards, including the ACS Award in the Chemistry of Materials (2018), the ACS Award in Applied Polymer Science (1999), the ASM Engineering Materials Achievement Award (1996), and the Society of Chemical Industry’s Perkin Medal (2001). In other service, she is an Executive Editor of the ACS Journal Chemistry of Materials. 

The Reichmanis Group works at the interface of chemical engineering, chemistry, materials science, optics, and electronics spanning the range from fundamental concept to technology development and implementation. Research interests include the chemistry, properties and applications of materials technologies for electronic and photonic applications, with particular focus on polymeric and nanostructured materials for advanced technologies. in paper-based battery applications as well. 

Valerie Thomas is the Anderson-Interface Chair of Natural Systems and Professor in the H. Milton School of Industrial and Systems Engineering, with a joint appointment in the School of Public Policy. 

Dr. Thomas's research interests are energy and materials efficiency, sustainability, industrial ecology, technology assessment, international security, and science and technology policy. Current research projects include low carbon transportation fuels, carbon capture, building construction, and electricity system development. Dr. Thomas is a Fellow of the American Association for the Advancement of Science, and of the American Physical Society. She has been an American Physical Society Congressional Science Fellow, a Member of the U.S. EPA Science Advisory Board, and a Member of the USDA/DOE Biomass Research and Development Technical Advisory Committee. 

She has worked at Princeton University in the Princeton Environmental Institute and in the Center for Energy and Environmental Studies, and at Carnegie Mellon University in the Department of Engineering and Public Policy.

Dr. Thomas received a B. A. in physics from Swarthmore College and a Ph.D. in theoretical physics from Cornell University.