During his DPhil studies, he designed and tested SPADs for CMOS imaging, fluorescent measurements, and optical communications. He made the first analogue SPAD arrays, which had a compatible readout mechanism with conventional CMOS image sensors. His thesis on single-photon avalanche diodes for optical communications demonstrated that a SPAD receiver can achieve faster data rates than its deadtime.
Background
Research interests include developing new AI-assisted design and test automation tools, focusing on electronic engineering. Previously, his research focused on optoelectronics sensors, particularly Single Photon Avalanche Diode (SPAD) arrays for biomedical and communication systems.
Miscellany
Personal interests include mathematics and physics, having completed various projects such as software simulation for fractal-based mathematics, single BJT amplifiers, and wired and wireless networks.