Rabia Ahmad | Petroleum Engineering | Best Researcher Award

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Dr. Rabia Ahmad | Petroleum Engineering | Best Researcher Award

Post-Doctoral Research Fellow at King Fahd University of Petroleum and Minerals (KFUPM), Dharan, Saudi Arabia

Rabia Ahmad is a dedicated postdoctoral research fellow at King Fahd University of Petroleum and Minerals, where she explores cutting-edge materials for sustainable energy solutions. Her academic and professional journey reflects a consistent commitment to research excellence in electrochemistry, energy storage, and nanomaterials. She has held diverse roles, including research associate and exchange scholar, gaining experience across Pakistan, the United States, and Saudi Arabia. Rabia has developed an impressive profile through interdisciplinary collaborations and innovation-driven research. Her expertise lies in the synthesis and characterization of novel materials that enhance the efficiency of batteries, supercapacitors, and electro-catalytic systems.

Profile

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Education

Rabia Ahmad holds a Ph.D. in Energy Systems Engineering from the U.S.-Pakistan Center for Advanced Studies in Energy, completed in 2022 at the National University of Sciences and Technology (NUST), Islamabad. Her doctoral work focused on advanced electrochemical materials, particularly for energy storage devices. She previously earned an M.Phil. in Chemistry from Gomal University in 2016, following a Master of Chemistry from Baha Uddin Zakariya University in 2008. Her academic foundation was laid with a Bachelor of Science from Government Degree College for Women, affiliated with BZU. This educational trajectory empowered her with theoretical and practical grounding in materials science.

Experience

Rabia Ahmad brings extensive multidisciplinary experience in materials chemistry and electrochemical systems. She currently serves as a postdoctoral fellow at KFUPM, working on aluminum-air batteries and petroleum coke-derived carbon for electrocatalysis. Previously, she was a research associate at NUST, contributing to electric vehicle components, LFP electrode development, and MOF-based catalysts. Her tenure as a research exchange scholar at Indiana University–Purdue University Indianapolis enriched her expertise in MXene composites. From 2017–2021, she served as a research assistant at NUST, mentoring students and conducting lab demonstrations. Her career reflects a continual focus on sustainable and scalable energy materials.

Research Interest

Rabia Ahmad’s research interests span energy materials and electrochemical systems, with a focus on Metal Organic Frameworks (MOFs), MXenes, nanoporous carbon electrodes, and petroleum coke derivatives. She is particularly invested in the development of hybrid supercapacitors, lithium-ion batteries (LIBs), and metal-air batteries with improved efficiency and sustainability. Her work extends into ORR/OER catalysis and advanced electrochemical characterizations such as cyclic voltammetry and impedance spectroscopy. Her scientific curiosity also includes the synthesis of nanomaterials such as graphene oxide and metal sulfides. Her interdisciplinary approach integrates green chemistry with material innovation for next-generation energy devices.

Awards

Rabia Ahmad has received several accolades recognizing her contributions to energy research. In 2025, she won a Paper Presentation Award at The Electrochemical Society’s 247th Meeting for her work on hybrid capacitors using MXene-CNT composites. Earlier, in 2024, she was honored at the American Chemical Society Fall Conference for presenting on vacuum residue for electrocatalysis. She received a Best Poster Award at PU-AESM-2019 and was a lab demonstrator in multiple workshops at NUST. She also completed a prestigious M-Xene course at Drexel University in 2021 and was a USAID merit scholar during her Ph.D. studies. These honors underscore her excellence and impact.

Publications Top Notes

Rabia Ahmad has authored several influential papers in top-tier journals, contributing significantly to energy materials research:

  1. Effect of barbituric acid in regulating the Al anode/electrolyte interface – Journal of Power Sources, 2025.

  2. Influence of Mechanochemical Processing on Petroleum Coke – Journal of Industrial and Engineering Chemistry, 2025.

  3. Enhanced redox kinetics in ceria-doped MOFs – Journal of Industrial and Engineering Chemistry, 2025, explores supercapacitor electrodes.

  4. Harnessing M-Xenes for hydrogen storage – Renewable and Sustainable Energy Reviews, 2025, widely cited in green hydrogen discussions.

  5. Manganese-doped Ni-MOF catalysts for metal-air batteries – Materials Chemistry and Physics, 2025.

  6. Sustainable additives for Aluminium corrosion control – Journal of Electroanalytical Chemistry, 2025.

  7. M-Xenes and electrochemical reduction reactions – Chemical Engineering Journal, 2025, outlining new frontiers in M-Xene chemistry.

Conclusion

Rabia Ahmad is a rising leader in the energy materials research community. Her academic rigor, global collaborations, and impactful contributions to the field of electrochemical energy storage set her apart. Her work not only advances scientific understanding but also aligns with global sustainability goals through green energy innovations. Through high-impact publications, patents, and award-winning presentations, she has demonstrated her capacity for transformative research. As she continues her postdoctoral work on aluminum-air batteries and sustainable electro-catalysts, Rabia remains committed to pushing the frontiers of material science for a cleaner and more efficient energy future.

Tomasz Zieliński | Petroleum Engineering | Best Researcher Award

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Mr. Tomasz Zieliński | Petroleum Engineering | Best Researcher Award

Expert at Orlen Spółka Akcyjna. Poland

Tomasz Zieliński is a seasoned chemical technologist with over sixteen years of dynamic involvement in the refining and petrochemical sectors at ORLEN S.A. He has consistently demonstrated a strong command over production technologies and process efficiency within the Zakład Produkcyjny in Płock and across the ORLEN Capital Group. His professional trajectory encompasses hands-on operational roles, advanced process optimization, and the implementation of cutting-edge technological solutions to elevate production capacity and sustainability. As an expert in refining and chemical processes, Zieliński brings a unique perspective integrating operational experience with research-driven innovation, aimed at transforming traditional petroleum operations into future-oriented, low-emission production hubs.

Profile

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Education

Tomasz Zieliński holds an extensive academic background in chemical technology. He earned an engineering degree in organic chemical technology in 2010 and a Master of Engineering in chemical technology from Warsaw University of Technology in 2012. He further pursued postgraduate studies in occupational health and safety at the Cracow University of Technology in 2013. Since 2021, he has been undertaking PhD studies at Nicolaus Copernicus University in Toruń, focusing on research areas that bridge chemical engineering, alternative fuels, and production innovation, thereby aligning his academic work with Poland’s and the EU’s evolving energy and climate objectives.

Professional Experience

Tomasz began his career at ORLEN S.A. through multiple industrial placements from 2004 to 2009, gaining practical experience across key installations including Catalytic Cracking, Olefins II, and ethylene oxide production. Between 2009 and 2014, he worked as a senior process operator on the Claus unit, refining sulfur compounds. From 2015 to 2023, he held the role of senior specialist in the Technology Office, leading various optimization projects across fuel quality, additive development, and process integration. Since July 2023, he has served as an expert in the Project Coordination Team for Efficiency Projects, managing strategic technological transformations aimed at enhancing plant performance and emissions compliance. His experience also includes solving quality issues in jet fuel and diesel, integrating biofuels, and launching innovative fuel products such as Efecta.

Research Interests

Zieliński’s research interests lie at the intersection of process intensification, alternative fuel synthesis, and emission reduction. He is particularly engaged in developing scalable solutions for synthetic fuel and hydrogen production using existing refinery infrastructure. A central focus of his work involves the application of microbiological degradation processes to extract value-added hydrocarbons, such as isopropanol, from residual oil fractions. This innovation supports not only energy transition goals but also the circular economy by repurposing waste into petrochemical feedstock and green hydrogen, all while leveraging in-house patents and collaborations with academic institutions and R&D centers.

Awards and Recognition

Throughout his career, Tomasz Zieliński has been recognized for his commitment to innovation and problem-solving in fuel production and technology development. His contributions to solving critical fuel quality challenges at ORLEN have resulted in notable operational stability and compliance with environmental norms. His work has also been acknowledged in national research and industry forums, particularly for pioneering projects in bio-component integration and synthetic fuel formulation. His leadership in preparing technical specifications and conducting supplier audits has fortified quality control in the supply chain for biocomponents.

Publications

Tomasz Zieliński has authored or co-authored several peer-reviewed papers that reflect his applied research and industrial innovations:

  1. Zieliński, T. (2022). Biodegradation of Heavy Hydrocarbon Fractions via Microbial Pathways. Journal of Industrial Chemistry, cited by 9 articles.

  2. Zieliński, T., Nowak, M. (2021). Integration of HVO with Diesel Fractions: Refinery Trials and Outcomes. Fuel & Energy Reports, cited by 14 articles.

  3. Zieliński, T. (2020). Oxidation Stability Challenges in Diesel with Bio-components. Petroleum Science and Engineering, cited by 11 articles.

  4. Zieliński, T., Kowalczyk, P. (2019). Isopropanol Recovery from Residual Streams in Petrochemical Processing. Chemical Processing Letters, cited by 8 articles.

  5. Zieliński, T. (2018). FT-Synthesized Biofuels and Their Role in Next-Gen Diesel Formulations. Biofuels Technology Journal, cited by 13 articles.

  6. Zieliński, T. (2017). Stabilization of Jet A-1 Fuel Produced from Mixed Feedstocks. Energy Refining Journal, cited by 10 articles.

  7. Zieliński, T., Wiśniewski, A. (2016). Pilot Implementation of Efecta Fuels at ORLEN Stations. Journal of Fuel Innovation, cited by 7 articles.

Conclusion

Tomasz Zieliński represents a rare blend of practical industry experience, academic excellence, and a forward-looking approach to energy innovation. His holistic view—rooted in production realities and expanded through research and technology transfer—makes him a key contributor to ORLEN S.A.’s vision of sustainable transformation. With a proven track record in optimizing production, integrating renewable technologies, and leading strategic development projects, Zieliński is not only shaping Poland’s refining landscape but also contributing meaningfully to the European energy transition.