Mukhlis A Rahman | Composite Materials Science | FRP Academic Excellence Award

Assoc Prof Dr. Mukhlis A Rahman | Composite Materials Science | FRP Academic Excellence Award

University Teknologi Malaysia, Malaysia

Profiles:

🏛️Current Position

Dr. Mukhlis bin A Rahman is a renowned professor at the Department of Energy Engineering, Faculty of Chemical and Energy Engineering, Universiti Teknologi Malaysia (UTM), where he specializes in ceramic membranes and microporous materials for fluid separation. His work is pivotal in developing sustainable energy solutions. Dr. Mukhlis is also actively involved in teaching, mentoring students, and spearheading research initiatives that align with global energy needs.

🔬 Ongoing Research

Dr. Mukhlis is currently engaged in cutting-edge research on the application of ceramic membranes in fluid separation processes. His ongoing projects focus on enhancing the efficiency of microporous materials to improve separation and purification processes, which have widespread applications in industries such as water treatment, gas separation, and fuel cells. He is also exploring novel photocatalytic reactors for organic wastewater treatment, further extending his research to environmental sustainability.

🔎 Research Interests

  • Ceramic membranes for fluid separation: Developing advanced materials to improve separation processes in various industrial applications.
  • Microporous materials: Investigating new porous materials that can enhance separation efficiency.
  • Photocatalytic reactors: Exploring innovative solutions for the treatment of organic pollutants in wastewater.

His expertise extends to both theoretical and applied aspects of chemical engineering, particularly in membrane technology and its applications.

🎓 Academic Background

Dr. Mukhlis’ academic journey began with a Bachelor’s degree in Chemical Engineering from Universiti Teknologi Malaysia (UTM), completed in 2004. He later pursued a Master’s degree in Chemical Engineering (Gas) at UTM, finishing in 2006. His thirst for knowledge led him to Imperial College London, where he completed his Ph.D. in Chemical Engineering in 2011. This strong academic foundation has provided him with the expertise to contribute significantly to chemical and energy engineering fields.

🏅 Scholarships and Awards

Dr. Mukhlis has been the recipient of numerous prestigious awards throughout his career. 

  • 15 international awards, including recognition for his work on SPEEK-Nanoclay membranes.
  • 8 national awards, underscoring his contributions to Malaysia’s scientific and academic landscape.
  • 26 UTM awards, reflecting his excellence in research and teaching.
  • 5 faculty awards for his dedicated service to the Faculty of Chemical and Energy Engineering.

Notable honors include the Best of the Best Award and Gold Medal at PECIPTA 2013, as well as several Excellent Service Awards from UTM.

🧬 Bioinformatics Contributions

Although Dr. Mukhlis’ primary focus is on chemical engineering, his interdisciplinary approach has led him to explore bioinformatics applications, particularly in materials science and fluid dynamics. By incorporating computational models, he enhances the predictive power of his research on membrane technology.

👥 Professional Associations

Dr. Mukhlis is an active member of several professional associations, both national and international. His involvement in these organizations not only allows him to collaborate with other experts but also to stay updated on the latest advancements in his field.

🛠️ Training & Workshops

Throughout his career, Dr. Mukhlis has participated in various workshops and training sessions, contributing to his professional development. These programs have allowed him to refine his skills in advanced chemical engineering techniques, and he frequently shares his expertise by organizing and leading similar workshops for students and professionals.

🎤 Oral Presentations

Dr. Mukhlis has delivered numerous presentations at international conferences, sharing his insights on ceramic membranes and microporous materials. His engaging and informative talks have made him a sought-after speaker in the global chemical engineering community.

📝 Tasks Completed as a Researcher

Dr. Mukhlis has successfully completed several high-impact research projects. His work on developing novel ceramic membranes and photocatalytic reactors has advanced fluid separation processes. His projects often involve cross-disciplinary collaboration, reflecting his ability to work at the intersection of engineering, chemistry, and environmental science.

🌟 Success Factors

Dr. Mukhlis attributes his success to a combination of rigorous academic training, a passion for innovation, and a commitment to excellence. His ability to stay ahead of industry trends and his interdisciplinary approach have allowed him to make groundbreaking contributions to membrane technology.

🔬 Publications & Laboratory Experience

Dr. Mukhlis has an extensive list of publications in high-impact journals. His research is often cited by fellow academics, further solidifying his position as a leader in his field. His laboratory experience is equally impressive, having overseen numerous experiments that have led to the development of innovative materials for fluid separation.

📖Publications:

Paper Title: Effect of capillary pressure on the CO2 flux in the pores of membrane contactor: Theory and simulation results

  • Authors: Ahmad, S.N.A., Matsuura, T., Jaafar, J., Othman, M.H.D., A Rahman, M.
  • Journal: Chemical Engineering Research and Design
  • Year: 2023

Paper Title: Tailoring surface structure and diameter of etched fiber Bragg grating for high strain sensing

  • Authors: Koo, K.N., Ismail, A.F., Othman, M.H.D., A Rahman, M., Samavati, A.
  • Journal: Optics and Laser Technology
  • Year: 2023

Paper Title: Self-cleaning and anti-fouling superhydrophobic hierarchical ceramic surface synthesized from hydrothermal and fluorination methods

  • Authors: Abd Aziz, M.H., Othman, M.H.D., Tavares, J.R., A Rahman, M., Jaafar, J.
  • Journal: Applied Surface Science
  • Year: 2022

Paper Title: Adsorptive Membrane for Boron Removal: Challenges and Future Prospects

  • Authors: Mehanathan, S., Jaafar, J., Nasir, A.M., Bilad, M.R., Naseer, M.N.
  • Journal: Membranes
  • Year: 2022

Paper Title: A review of the potential of conventional and advanced membrane technology in the removal of pathogens from wastewater

  • Authors: Nasir, A.M., Adam, M.R., Mohamad Kamal, S.N.E.A., A Rahman, M., Wan Salleh, W.N.
  • Journal: Separation and Purification Technology
  • Year: 2022

 

Ye Liu | FRP in Transportation | Best Researcher Award

Dr. Ye Liu | FRP in Transportation | Best Researcher Award

Doctorate at University of Leeds, United Kingdom

Profiles:

📌 Current Position

Ye Liu is currently a research fellow at the University of Leeds, a role he has held since September 2023 under a permanent contract. His appointment marks a significant milestone in his academic career, as he continues to contribute to the university’s research objectives in environmental science, particularly focusing on air quality and pollutant emissions from diesel engines.

🏆 Publication Achievements

Ye Liu has made notable contributions to the scientific community through his publications. His work has been featured in various high-profile conferences, including the 39th International Symposium on Combustion and the TRA Conference in Lisbon. His research on the role of volatile organic compounds in the oxidation-driven fragmentation of soot particles and the enhancement of traffic management algorithms for UK motorways have garnered significant attention. These publications not only showcase his expertise in environmental science but also highlight his ability to address complex problems with innovative solutions.

🔬 Ongoing Research

Currently, Ye Liu is leading a project funded by the Impact Acceleration Account (IAA) of the UK Research and Innovation (UKRI). This project, which runs from 2023 to 2024, focuses on testing and validating an innovative method to optimize the control strategy of diesel particulate filter (DPF) regeneration. His role as the principal investigator (PI) signifies his leadership in the field and his commitment to developing technologies that mitigate environmental impacts from diesel engines. He is also involved in a study funded by the International Exchange Programme of the Department of Science and Technology of Henan Province, China, which explores the mechanisms of surface adsorption of N2O and NH3 on the environmental evolution characteristics of diesel soot particles.

🔍 Research Interests

Ye Liu’s research interests are deeply rooted in environmental science, particularly in understanding the formation, control, and combustion of soot particles from diesel engines. His work spans various aspects of combustion science, including the fragmentation mechanism of soot particles, the oxidation mechanisms for soot particles, and the environmental impacts of nanoparticle emissions from the transport sector. His expertise in these areas is underscored by his involvement in several large-scale international projects, such as the European Union’s Horizon 2020 research and innovation programme.

🎓 Academic Background

Ye Liu’s academic journey is marked by rigorous training and research in environmental science. Before joining the University of Leeds as a research fellow, he held various research positions that allowed his to develop a strong foundation in the study of diesel soot particles and their environmental impacts. His academic background has equipped his with the skills and knowledge necessary to excel in his current role and contribute significantly to his field of study.

🥇 Scholarships and Awards

Throughout his career, Ye Liu has been recognized for his contributions to environmental science. His work has earned his numerous accolades, reflecting his dedication to research and his ability to drive innovation in his field. These awards not only highlight his achievements but also serve as a testament to his commitment to advancing knowledge in environmental science.

🧬 Bioinformatics

Ye Liu’s research often intersects with bioinformatics, particularly in understanding how particulate emissions affect biological systems. By leveraging computational tools and data analysis, he can explore the health impacts of nanoparticles, contributing to broader discussions on public health and environmental policy.

🌐 Professional Associations

As an active member of the scientific community, Ye Liu is involved in several professional associations related to environmental science and engineering. His participation in these organizations allows his to stay abreast of the latest developments in his field, collaborate with other researchers, and contribute to the advancement of environmental research.

📚 Training & Workshops

Ye Liu is committed to continuous learning and professional development. He regularly participates in training sessions and workshops to enhance his skills and knowledge. These opportunities allow his to stay updated on the latest methodologies and technologies in environmental science, ensuring that his research remains at the cutting edge of the field.

🗣️ Oral Presentations

Ye Liu has delivered several oral presentations at international conferences, sharing his findings with the global scientific community. His ability to communicate complex research in an accessible manner has made his a sought-after speaker in his field, and his presentations have been well-received by his peers.

📝 Tasks Completed as a Researcher

As a researcher, Ye Liu has successfully managed multiple projects, from conceptualization to completion. His tasks have included designing experiments, collecting and analyzing data, writing reports, and presenting findings. His ability to handle these responsibilities with diligence and precision underscores his expertise and dedication to his work.

💪 Success Factors

Ye Liu’s success as a researcher can be attributed to his strong analytical skills, attention to detail, and commitment to environmental sustainability. His collaborative approach and ability to lead projects have also been key factors in his achievements. These qualities have enabled his to make significant contributions to his field and advance our understanding of the environmental impacts of diesel emissions.

🧪 Publications & Laboratory Experience

With extensive laboratory experience, Ye Liu has conducted numerous experiments on diesel soot particles and their impacts. His publications reflect his in-depth understanding of the subject and his ability to apply this knowledge to real-world problems. Through his research, he has developed innovative methods for analyzing and mitigating the effects of particulate emissions, contributing valuable insights to the field of environmental science.

📖Publications:

Paper Title: Environmental and health impacts of banning passenger cars with internal combustion engines: A case study of Leeds, UK

  • Authors: Liu, Y., Chen, H., Jiang, L., Wei, T., Crowther, R.
  • Journal: Transportation Research Part D: Transport and Environment
  • Year: 2024

Paper Title: Soot particles formed by n-heptane and n-heptane/oxymethylene ether-3 in an inverse diffusion flame: A comparative analysis of chemical features

  • Authors: Liu, Y., Zhang, R., Wang, J., Hao, B., Guo, J.
  • Journal: Fuel
  • Year: 2024

Paper Title: Selective catalytic reduction of NOX with CH4 over In/SSZ-13 zeolites: The enhancement of high-temperature catalytic activity by Ce modification

  • Authors: Wang, C., Lv, G., Li, Y., Liu, Y., Song, C.
  • Journal: Journal of Environmental Chemical Engineering
  • Year: 2024

Paper Title: Variations in surface functional groups, carbon chemical state and graphitization degree during thermal deactivation of diesel soot particles

  • Authors: Liu, Y., Wu, S., Fan, C., Liu, F., Chen, H.
  • Journal: Journal of Environmental Sciences (China)
  • Year: 2023

Paper Title: Enhancement of traffic management algorithms for UK motorways

  • Authors: Liu, Y., Chen, H., Wu, S., Proctor, P., Rowley, G.
  • Journal: Transportation Research Procedia
  • Year: 2023