![]() Prior to establishing the Pecunia Research Group, I worked full-time for over six years at the Optoelectronics Group of the Cavendish Laboratory, University of Cambridge. My ultimate goal is to develop semiconductor technologies that can contribute to the reduction of electronic waste, provide low-cost green energy, and enable the sensorization of our homes and cities for more sustainable living. ![]() ![]() By gaining a detailed understanding of their optoelectronic and device properties, I seek to rationally realize the full potential of these semiconductors for optoelectronic and photovoltaic applications. My research focuses on the experimental characterization and conditioning of the optoelectronic properties of these materials, as well as their device applications in solar cells, thin-film transistors, and photodetectors. My interest in these semiconductors is motivated by their considerable potential for easy-to-make and environmentally friendly (opto-)electronics and photovoltaics, which could be deployed ubiquitously to enhance the sustainability of our daily lives. Specifically, I investigate emerging, environmentally friendly, printable semiconductors, such as organic semiconductors, lead-free perovskite-inspired materials, amorphous metal-oxide semiconductors, and carbon nanotubes. My group’s multidisciplinary research is at the intersection of materials science, physics, and electronics engineering. Concurrently, I am the Head of the “Pecunia Research Group – Sustainable Optoelectronics”, which I founded in 2016. I am an Associate Professor in the School of Sustainable Energy Engineering (SEE), Simon Fraser University, Canada. Head of Pecunia Research, Group – Sustainable Optoelectronics Associate Professor - School of Sustainable Energy Engineering, Simon Fraser University, Canada
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