[2] He leads research aimed at optical and electrooptical properties of processable conjugated polymers, as well as on the organic chemistry of fullerenes and the design and preparation of self-mending and selfhealing materials.
[14][15] His current research focuses on two areas: plastic solar cells[16][17] and high energy density batteries such as those based on Li and Ca.
He conducted a comparison of the photoluminescence and electroluminescence spectra, and indicated a nearly identical exciton relaxation and efficient energy transfer from the host to the dopant.
His research also revealed the fact that photoinduced electron transfer across the donor‐accepted rectifying heterojunction offers potential for photodetector and for solar cell applications.
These studies further highlighted how these distinguishing features present a key role in terms of understanding the origins of the optoelectronic performance of the well-studied hybrid organic–inorganic lead halides.
[21] In the paper published in 2017, the group studied and measured the charge transport properties of a two-dimensional hybrid metal halide thiocyanate compound using the contactless electronic characterization technique time-resolved microwave conductivity (TRMC).