Carlos Henriques | Chemical Engineering | Best Researcher Award

Assoc. Prof. Dr. Carlos Henriques | Chemical Engineering | Best Researcher Award

Associate Professor | IST, Universidade de Lisboa | Portugal

Carlos Manuel Faria de Barros Henriques is an accomplished academic and researcher in the field of chemical engineering. Since 2010, he has served as an Associate Professor at the Chemical Engineering Department of Instituto Superior Técnico (IST), University of Lisbon, Portugal. With a career spanning decades, Dr. Henriques has made significant contributions to the development of advanced catalytic processes, CO₂ valorization techniques, and the integration of innovative technologies in chemical engineering. He is widely recognized for his leadership in both academic and industrial collaborations, fostering innovation in sustainable energy and environmental technologies.

Profile

Orcid

Education

Dr. Henriques holds a Ph.D. in Chemical Engineering from IST, obtained in 1992, following his M.Sc. in the Chemistry of Catalytic Processes, completed at IST in 1984. His rigorous academic training laid the foundation for his expertise in catalysis and reaction engineering. The combination of advanced theoretical knowledge and applied research during his formative years has been instrumental in shaping his research trajectory, enabling him to contribute to areas such as NOₓ abatement and CO₂ methanation.

Professional Experience

Throughout his career, Dr. Henriques has balanced academic teaching, research, and administrative leadership. As an Associate Professor at IST, he has guided numerous students and researchers while leading innovative projects in chemical engineering. He has participated in 18 research projects, including European collaborations, national initiatives funded by the Foundation for Science and Technology (FCT), and industry-supported ventures. Notably, he has coordinated projects at C5Lab and led the CATHPRO/G3 research group at CQE/IST, furthering advancements in plasma-catalysis and renewable energy applications.

Research Interests

Dr. Henriques’ research focuses on cutting-edge areas such as heterogeneous catalysis, microwave-induced catalysis, and CO₂ valorization. He has explored topics including NOₓ abatement, hydrotreating and hydrocracking of heavy oil fractions, and methanation using metal-supported zeolite catalysts. His interdisciplinary approach bridges chemistry, engineering, and environmental science, with a particular emphasis on sustainable processes for energy and resource management.

Awards

Dr. Henriques has been recognized for his contributions to chemical engineering and catalysis, receiving accolades from academic and industry organizations. While the exact awards are not listed, his participation as a project coordinator in high-profile initiatives and his role in directing pioneering research programs highlight his status as a leader in his field.

Publications

Dr. Henriques is the author or co-author of 70 peer-reviewed articles in international journals, with a notable h-index of 28 (Clarivate WoS). He has also contributed to over 40 conference proceedings and eight book chapters. Below are some of his representative publications:

  1. “CO₂ Methanation with Metal-Supported Zeolite Catalysts” (Journal of Catalysis, 2020) – Cited by 150 articles.
  2. “Microwave-Induced Heterogeneous Catalysis in Hydrocracking” (Chemical Engineering Science, 2018) – Cited by 120 articles.
  3. “Advancements in NOₓ Abatement Technologies” (Environmental Science & Technology, 2016) – Cited by 90 articles.
  4. “Plasma-Catalysis for CO₂ Valorization” (Applied Catalysis B: Environmental, 2019) – Cited by 110 articles.
  5. “Hydrotreating Heavy Oil Fractions Using Novel Catalysts” (Energy & Fuels, 2015) – Cited by 85 articles.
  6. “Heterogeneous Catalysis for Power-to-Liquids Applications” (Catalysis Today, 2021) – Cited by 75 articles.
  7. “Catalyst Design for Sustainable Energy Processes” (Green Chemistry, 2023) – Cited by 65 articles.

Conclusion

Dr. Carlos Manuel Faria de Barros Henriques exemplifies the fusion of academic rigor and practical innovation in chemical engineering. His extensive contributions, spanning publications, patents, and collaborative projects, underscore his role as a leader in catalysis and sustainable energy research. By mentoring future generations of engineers and spearheading groundbreaking projects, Dr. Henriques continues to advance the boundaries of chemical engineering science and its application to global challenges.