Has extensive experience in electrochemistry, particularly in the design and development of electrochemical systems. Has worked on electroplating to design catalysts for microbial electrochemical cells, focusing on hydrogen evolution reactions (HER). He developed new cathodes for HER, streamlined plating processes, and designed cost-effective, large-scale plating rigs, saving the company time and money. His lab work included electrochemical analysis (polarization plots, electrolysis), optical microscopy, SEM/EDX, and material preparation of metallic alloys.
During his PhD specialized in electrochemical synthesis, producing polyacrylamides on both macroscale and nanoscale levels. He employed Scanning Electrochemical Cell Microscopy (SECCM), Cyclic Voltammetry, and ElectraSyn 2.0 for electrochemical experiments. His research contributed to published papers in renowned journals, showcasing his expertise in electrochemical synthesis and polymer characterization using advanced techniques like GPC, NMR, AFM, SEM, and UV-Visible spectroscopy.
Also gained experience in project management, collaborating with cross-disciplinary teams to optimize electroplating processes and improve efficiency. His problem-solving skills and independent approach, combined with his technical proficiency in MATLAB and Python, position him as a capable leader in electrochemical research and development.