Electronic Materials and Devices

Our lab is interested in soft semiconductors and their potential applications. Specifically, we investigate the chemistries and physical properties of soft semiconductors to be able to design and develop a new class of electronic materials. Additionally, we develop new doping methods and dopants for low-cost semiconductors to improve the efficiency of the devices based on such materials. We are also actively investigating the potential of using our newly developed soft semiconductor materials and doping methods to advance optoelectronic devices.

Join our group!

Our research group is interdisciplinary and diverse with students having background in physics, chemistry, material science and engineering. Check out our research and open position section for more details.

Selected Publications

1.Adduct-based p-doping of Organic Semiconductors, Nature Materials, 2021 (20), 1248.

2.Electronic coupling between the unoccupied states of the organic and inorganic sublattices of methylammonium lead iodide: A hybrid organic-inorganic perovskite single crystal, Physical Review B, 2021 (104), L041302.

3.Photovoltaic solar cell technologies: analysing the state of the art, Nature Reviews Materials, 2020 (4), 269.

4.Revealing the origin of voltage loss in mixed-halide perovskite solar cells, Energy & Environmental Science, 2020 (13), 258.

5.Mechanism for rapid growth of organic–inorganic halide perovskite crystals, Nature communications, 2016 (7), 13303.

6.Enhanced optoelectronic quality of perovskite thin films with hypophosphorous acid for planar heterojunction solar cells, Nature communications, 2015 (6), 10030.

7.Exciton binding energy in small organic conjugated molecule, Synthetic metals, 2013 (174), 42.

8.O2 and organic semiconductors: Electronic effects, Organic Electronics, 2013 (4), 966.

9.Separating charges at organic interfaces: Effects of disorder, hot states, and electric field, The Journal of Physical Chemistry Letters, 2013 (4), 1707.

10.Photovoltaic efficiency limits and material disorder, Energy & Environmental Science, 2012 (5), 6022.