Chen Zou
I will study perovskite solar cells enhanced by distributed feedback structures. Advisor: Lih Y. Lin - Electrical Engineering ...
Nicole Thompson
My research will focus on developing novel processing techniques to incorporate dopants more efficiently and cost effectively into earth abundant and nontoxic semiconductor nanocrystals. Advisor: Vince Holmberg - Chemical Engineering ...
Adharsh Rajagopal
My research is focused on development of stable bandgap-tuned perovskite absorbers with superior optoelectronic quality, tailored for construction of high-efficiency multijunction solar cells. Advisor: Alex K-Y. Jen - Materials Science & Engineering ...
Tyler Milstein
I will be working on optimizing the synthesis of cesium tin halide nanocrystals for use as host lattices for transition metal dopants such as rhenium. Advisor: Daniel Gamelin - Chemistry ...
Yun Liu
My goal is to jump-start organic photovoltaics research by testing the idea that the use of non-fullerene acceptors (NFAs) can allow OPVs to operate in the high-efficiency radiative limit that materials like GaAs and halide perovskites. Advisor: David Ginger - Chemistry ...
Boyuan Huang
During the CEI Fellowship period, I will explore how optimized microstructure help achieve high-performance perovskite solar cells with long-term stability. Advisor: Jiangyu Li - Mechanical Engineering ...
Monica Esopi
My anticipated research will focus on designing and fabricating large area nanopatterned metal films for incorporation, as a transparent electrode, into organic solar cells. Advisor: Qiuming Yu - Chemical Engineering ...
Ting Zhao
I will focus on developing a simple and generally-applicable ion-exchange method to synthesize diverse and high-quality atomically-thin 2D hybrid perovskites utilizing the solubility difference between organic and inorganic sublattices. ...
Alan Zhan
I plan to explore polymer metasurface (MS) freeform optical elements to enhance the efficiency of concentrated photovoltaics (CPV) ...
Nathan Wilson
I will systematically explore heterostructures formed by stacking the atomically thin semiconductors WSe2 and MoSe2 by varying their architecture, for example, by inserting a thin dielectric to quench carrier recombination, thus increasing carrier collection efficiency. ...
Di Sun
My research area is focused on developing self-cleaning surface system for solar panels. ...