Dr. Muhammad Haris
(Industry Lead)
My research focuses on developing sustainable solutions at the intersection of energy and the environment. I am particularly interested in innovative technologies and processes for the detection, degradation, and removal of emerging pollutants like microplastics and PFAS from water sources, and advanced materials for green hydrogen production via efficient water splitting and wastewater splitting. I also explore the utilization of wastewater for resource recovery and energy generation through novel processes. (Google Scholar)
Dr. Suraj Loomba
(Industry Lead)
My research focuses on the design and development of two-dimensional (2D) materials and their heterostructures for advanced energy storage and conversion applications. By engineering 2D heterostructures—such as those combining transition metal oxides, phosphides, or metal-organic frameworks—I aim to enhance charge transport, catalytic activity, and structural stability, enabling the development of next-generation devices for sustainable and efficient energy technologies. (Google Scholar)
Dr. Sharafadeen Gbadamasi
(Research Lead)
2D materials (such as MXenes, MOFs, Transition metal oxides and dichalcogenides, TMOs & TMDCs) and their heterostructures, focusing on interfacial chemistry for application in water splitting and batteries. (Google Scholar)
Seyed Mahdi Mousavi
Synthesis of 2D transition metal sulfides, metal organic frameworks and their heterostructures for oxygen evolution reaction in seawater. (Google Scholar)