Accomplished and analytical professional with extensive experience in leading all aspects of materials research, corrosion engineering, electrochemistry, sustainable/2D materials processing, and interactions between materials in associated environments. Proficient in translating engineering requirements into comprehensive test plans and executing rigorous material testing programs in lab environments. Skilled in leading multidisciplinary teams, interfacing with clients, national labs, and universities, and providing technical guidance for collaborative development initiatives. Skilled in utilizing advanced analytical tools and simulation techniques to optimize battery cycles, improve energy conversion efficiency, and enhance system reliability. Proven track record in conducting statistical analysis and modeling of test and plant data. Specialized in chemistry considerations, corrosion protection, and failure analysis, adept at incorporating R&D results into innovative CANDU systems and reactor designs. Experienced in overseeing material degradation testing programs and coordinating with external testing laboratories. Recognized for resolving complex problems through in-depth literature review and prior knowledge, verifying the work of engineers, and ensuring adherence to QA programs, codes, standards, and regulatory requirements. Proficiency in advanced electrochemical techniques, microscopy methods, and the use of state-of-the art analytical equipment. Possess deep knowledge of advanced microscopy experiments, radiation chemistry, CANDU reactors, SMR reactors, and welding engineering. Visionary innovator known for pioneering cutting-edge solutions that drive sustainable energy technologies. Proven track record in researching, developing, and implementing electrochemical processes, specializing in enhancing energy storage systems and optimizing fuel cell performance.