Dr. Masoud khajenoori | Catalyst | Industry Impact Award

Dr. Masoud khajenoori , University of Kashan, Iran

Dr. Masoud Khajenoori is an Assistant Professor in the Department of Chemical Engineering at the University of Kashan, Iran 🇮🇷. A key member of the Catalyst and Advanced Materials Research Laboratory, he focuses on developing novel catalysts and materials for energy and environmental applications ⚗️🌍. With a strong academic and research background, Dr. Khajenoori contributes to both teaching and cutting-edge scientific innovation. His work supports sustainable solutions and advanced technologies within chemical engineering. 🧪👨‍🏫🔬

Professional Profile:

Google Scholar

Suitability for Best Researcher Award:

Dr. Masoud Khajenoori is highly suitable for the Best Researcher Award, given his sustained excellence in chemical engineering research with a clear focus on catalysts, advanced materials, and sustainability. His work is both scientifically rigorous and industrially relevant, contributing meaningfully to environmental and energy-related challenges through innovative materials and catalytic processes.

Education and Experience 🎓💼

• PhD in Chemical Engineering (Details institution not provided) 🎓

• MSc in Chemical Engineering (Presumed based on academic rank) 📘

• BSc in Chemical Engineering 🎓

• Assistant Professor, Department of Chemical Engineering, University of Kashan 🧑‍🏫

• Researcher, Catalyst and Advanced Materials Research Laboratory ⚗️🔬

Professional Development 🛠️📚

Dr. Masoud Khajenoori has developed professionally through years of engagement in chemical engineering research, particularly in the fields of catalysis and material science 🔬. He actively participates in laboratory research, scientific collaborations, and publishing in peer-reviewed journals. His professional growth is further enhanced through involvement in academic conferences, workshops, and interdisciplinary projects, enabling him to stay abreast of the latest developments in engineering and materials innovation. His commitment to bridging theory and practical application strengthens both his academic and industrial impact. 🧠📈🔍

Research Focus 🔬⚗️

Dr. Khajenoori’s research centers on catalysis, advanced materials, and nanotechnology for applications in chemical processes and environmental sustainability 🌱🔥. He investigates the design and optimization of catalytic systems, exploring ways to enhance energy efficiency, reduce emissions, and promote green technologies. His work plays a vital role in addressing global challenges like pollution and resource scarcity, with a strong emphasis on the development of functional materials and smart catalysts for industrial and environmental use. 🌍🧪⚙️Awards and Honors 🏅📜

• Research Recognition for contributions to catalyst and materials science (Institutional) 🎖️

• Conference Presenter at national and international chemical engineering symposia 🌐

• Publication Achievement Awards from University of Kashan for high-impact research 🏆

• Student Mentorship Appreciation, for supervising successful graduate research projects 👨‍🎓

Publication Top Notes:

1. Dry reforming over CeO₂-promoted Ni/MgO nano-catalyst: Effect of Ni loading and CH₄/CO₂ molar ratio

• Authors: M. Khajenoori, M. Rezaei, F. Meshkani

• Journal: Journal of Industrial and Engineering Chemistry, Vol. 21, pp. 717–722

• Year: 2015

• Cited by: 117

• Summary: Investigates the catalytic activity of CeO₂-promoted Ni/MgO catalysts in dry reforming of methane, focusing on Ni loading and the CH₄/CO₂ molar ratio. High citations indicate this is a well-regarded study in catalysis and energy chemistry.

2. Characterization of CeO₂ Promoter of a Nanocrystalline Ni/MgO Catalyst in Dry Reforming of Methane

• Authors: M. Khajenoori, M. Rezaei, F. Meshkani

• Journal: Chemical Engineering & Technology, Vol. 37(6), pp. 957–963

• Year: 2014

• Cited by: 48

• Summary: Focuses on the structural and catalytic characterization of CeO₂ as a promoter in Ni/MgO catalysts, enhancing performance in methane dry reforming.

3. Modeling gas-granular flow in molecular using the DSMC method and continuum regions by Onsager’s pancake equation with mass sources and sinks in a rotating cylinder

• Authors: M. Khajenoori, J. Safdari, A. Haghighi Asl, A. Norouzi

• Journal: Granular Matter, Vol. 21, Article 1–15

• Year: 2019

• Cited by: 14

• Summary: Combines the Direct Simulation Monte Carlo (DSMC) method with continuum modeling to analyze gas-granular flow in rotating systems, offering insights for complex industrial applications.

4. Prediction of the compression ratio of a Holweck-type molecular pump with the presence of multi-component gases using a modified Sickafus method for high-speed rotors

• Authors: S. Yousefi-Nasab, J. Safdari, J. Karimi-Sabet, M. Khajenoori

• Journal: Vacuum, Vol. 172, Article 109056

• Year: 2020

• Cited by: 13

• Summary: Applies a modified Sickafus model to estimate performance parameters (e.g., compression ratio) in molecular pumps operating with multi-component gases—relevant to vacuum and aerospace industries.

5. Modeling and simulating of feed flow in a gas centrifuge using the Monte Carlo method to calculate the maximum separation power

• Authors: M. Khajenoori, A. Haghighi Asl, J. Safdari, A. Norouzi

• Journal: Journal of Molecular Modeling, Vol. 25, Article 1–12

• Year: 2019

• Cited by: 11

• Summary: Uses the Monte Carlo method to simulate gas centrifuge feed flows, predicting separation power—a valuable tool in isotope separation and enrichment technologies.

Conclusion:

Dr. Masoud Khajenoori’s outstanding research in catalysis, environmental sustainability, and materials science makes him a strong and deserving candidate for the Best Researcher Award. His blend of innovative research, academic mentorship, and commitment to real-world environmental solutions demonstrates both excellence and leadership in his field.v