We are interested in understanding how disorder, in the form of molecular, chemical, and structural heterogeneities, impacts the fundamental electrochemical and transport mechanisms in applications related to energy storage and environmental sustainability. We develop theoretical and computational models to quantitatively understand the behavior of electrochemical devices, make predictions about their performance, and provide insights into their optimal design and operation.
In addition to understanding phenomena related to electrochemistry, we are interested in exploring more broadly the emergent materials behavior under non-equilibrium conditions.
News List
Kristjan Arnarsson and Gabrielle (Gaby) Dobkin completed their first proposition oral defense this past week, a major milestone in their Ph.D. studies.
Kristjan presented his proposed research on ion transport in nanoporous media.
Gaby presented her proposed research on electrochemically deposited materials.
Both delivered…
Joshika Chakraverty and Chinmay Sahasrabudhe are the second generation of Ph.D. students to join our group in Chemical and Biological Engineering at Princeton.
Joshika will work on understanding non-ideal electrolyte behavior under confinement, with a focus on tight geometries and interfacial effects relevant to electrochemical systems.…
Kristjan Arnarsson and Gabrielle (Gaby) Dobkin are the first Ph.D. students of the Fraggedakis research group! Kristjan will be working on understanding the fundamentals of ion transport in dynamic confined spaces, while Gaby will focus on developing our understanding of dynamic electrochemical interfaces.
Welcome to the group, Kristjan…
We are very excited to launch the first version of the dfrag lab website! To the best of our abilities, we will try to keep everything up to date with our scientific rhapsodies, tales, and adventures in the epic world of science.