Ryan Stoddard
My research is focused on developing stable, high bandgap perovskite materials to enable fabrication of cheap, completely solution processed tandem solar cells. ...
Yanbo Qi
I am planning to optimize the entire cell design during battery cycling. ...
Moke Mao
My goal is to design better ionic liquid (IL) for lithium battery and redox flow battery using molecular dynamic (MD) simulation and evolutionary algorithm ...
Ryan Kastilani
I will be working to develop a new membrane material for redox flow batteries RFB that is based on ceramic/ceramic-polymer hybrids produced using sol-gel processes. ...
Brian Gerwe
I will use SPM as an in operando witness of local events during global electrochemical measurements such as linear or nonlinear impedance to study battery operation. ...
Sung-Yuan (Jerry) Chen
I'm interested in computational simulation primarily focusing on next generation Lithium-metal batteries. ...
Brittany Bishop
I am interested in the scalable synthesis of ultrathin two-dimensional (2D) nanomaterials for solar and battery applications. ...
Yuyin Xi
My research focuses on the engineering of conducting organic polymers for solar cells, batteries and electronics. ...
Elena Pandres
I am interested in synthesizing nanomaterials through scalable, solution-based processes for energy conversion and storage applications. ...
Manan Pathak
Active research is being pursued to develop a new technology that can replace Li ion batteries. One promising alternative is the lithium-sulfur battery, which can theoretically store five times more energy at a much lower cost. Advisor: Venkat Subramanian, Chemical Engineering ...
John Katahara
I have recently developed a theoretical model to describe sub-bandgap absorption and emission and revealed the concentration of tail states in CZTSSe and CIGSSe. Advisor: Hugh Hillhouse, Chemical Engineering ...
Brett Courtright
Redox Doping of Polymer Blend Solar Cells to Improve TEM Imaging of Nanoscale Morphology Advisor: Samson Jenekhe, Chemical Engineering ...