Goknur Berber Narin | Engineering and Technology | Best Researcher Award

Published on by Research Hypothesis

Assist. Prof. Dr Goknur Berber Narin | Engineering and Technology | Best Researcher Award

Assist. Prof. Dr Goknur Berber Narin | Engineering and Technology | Best Researcher Award | Assistant Professor | Agrı Ibrahim Cecen University | Turkey 

Assist. Prof. Dr. Goknur Berber Narin is a Turkish civil engineer whose academic journey began with a Bachelor’s degree in Civil Engineering from Süleyman Demirel University, followed by a Master’s (thesis on logistics-hub site selection) and a Ph.D. (dissertation on modeling highway traffic noise) at Karadeniz Technical University. Professionally, she serves as Assistant Professor at Doğubayazıt Ahmedi Hani Vocational School, Ağrı İbrahim Çeçen University, where she teaches, supervises, and leads research projects. Her research interests center on transportation engineering, environmental noise modeling, logistics decision systems, and pavement performance, with a particular emphasis on how meteorological conditions, vehicle composition, and infrastructure types influence road noise and logistics hub siting. She is skilled in multi-criteria decision-making methods (AHP and Delphi), noise measurement and modeling, concrete durability assessment, and statistical and computational modeling. She has participated in several national research projects: for instance, she leads a TÜBİTAK-funded study on modeling road traffic noise under varying topography and meteorological conditions, and is a researcher on projects analyzing polypropylene fiber in concrete joints and ultrasonic testing of road concrete layers. Her work has been published in international refereed journals and presented at international conferences, demonstrating her active engagement in both theory and practice. Among her honors are the 2021 YTMK Master’s Thesis Award from the Turkish National Roads Committee and the EMAY Incentive Award from EMAY International Engineering & Consultancy, reflecting recognition for her academic excellence. She has also obtained multiple professional certifications, including training in traffic safety, geospatial data (GIS), environmental vibration measurement, damage detection in buildings, and advanced material testing, underscoring her commitment to both teaching and applied research. In conclusion, Assist. Prof. Dr. Goknur Berber Narin is a dedicated scholar whose rich educational background, project leadership, publication record, and cross-disciplinary skills make her a rising influence in sustainable infrastructure research and civil engineering education.

Profile: ORCID 

Featured Publications

  1. Berber, G., & Akpınar, M. V. (2024). Tırların Hıza Bağlı Olarak Oluşturduğu Çevresel Gürültünün İncelenmesi. International Journal of Advanced Natural Sciences and Engineering Researches.

  2. Berber, G., & Akpınar, M. V. (2024). Lojistik Merkez Yer Seçiminde Kullanılan AHP ve Delphi Yöntemlerinin Karşılaştırılması. International Journal of Advanced Natural Sciences and Engineering Researches.

  3. Kadıoğlu, T., Akpınar, M. V., & Berber, G. (2023). Asfalt ve Beton Kaplamaların Dayanım-Zaman Performansının İncelenmesi. Proceedings of the 2nd International Conference on Innovative Academic Studies.

  4. Berber, G., & Akpınar, M. V. (2024). Tırların Hıza Bağlı Olarak Oluşturduğu Çevresel Gürültünün İncelenmesi. 5th International Conference on Innovative Academic Studies.

  5. Berber, G., & Akpınar, M. V. (2024). Lojistik Merkez Yer Seçiminde Kullanılan AHP ve Delphi Yöntemlerinin Karşılaştırılması. 5th International Conference on Innovative Academic Studies.

  6. Kadıoğlu, T., Akpınar, M. V., & Berber, G. (2023). Investigation of the Performance of Polypropylene (PP) Fibers in Joints of Concrete Pavements. 3rd International Civil Engineering & Architecture Conference.

  7. Berber, G., Akpınar, M. V., & Kadıoğlu, T. (2023). Investigation of UK Noise Maps in the Highway Lgag Noise Parameter. 3rd International Civil Engineering & Architecture Conference.

 

Mehdi Shanbedi | Engineering and Technology | Best Researcher Award

Published on by Research Hypothesis

Assist. Prof. Dr Mehdi Shanbedi | Engineering and Technology | Best Researcher Award

Assist. Prof. Dr Mehdi Shanbedi | Engineering and Technology | Best Researcher Award | Chemical Engineering Department | Kherad Institute of Higher Education | Iran

Assist. Prof. Dr Mehdi Shanbedi is a distinguished chemical engineering researcher whose work spans advanced nanomaterials, nanofluid engineering, heat and mass transfer, microfluidics, biotechnology, and desalination systems, establishing Him as a leading figure in multidisciplinary materials science and thermal-fluid research. He holds a Ph.D. in Chemical Engineering from Ferdowsi University of Mashhad, where His doctoral research focused on synthesizing nanofluids based on covalently and non-covalently functionalized carbon nanostructures for advanced heat transfer applications. His academic foundation further includes an M.Sc. in Chemical Engineering from the same institution and a B.Sc. from Azad University of Gachsaran, forming a strong technical base for His later scientific contributions. Professionally, Assist. Prof. Dr Mehdi Shanbedi has served as an Assistant Professor at Kherad Institute of Higher Education, contributing extensively to postgraduate education through courses in advanced heat transfer, thermodynamics, fluid mechanics, reactor design, and engineering mathematics. Beyond academia, He co-founded Vira Carbon Nano Materials (VCN Materials) Co. Ltd., spearheading innovations in nanomaterial production and industrial applications. His research interests include the synthesis and functionalization of graphene, MXene, carbon nanotubes, and quantum dots; development of high-performance nanofluids for enhanced heat transfer; desalination engineering; biofluid dynamics; antimicrobial materials; and energy-storage-related advanced materials. His research skills cover experimental and numerical modeling of thermal and hydrodynamic systems, nanostructure fabrication, material characterization, fluid–structure analysis, and biotechnology techniques including microbial studies and biomolecule extraction. Assist. Prof. Dr Mehdi Shanbedi has supervised and co-supervised numerous M.Sc. theses, contributing to talent development in chemical and materials engineering. His awards include recognition as a top researcher at Ferdowsi University of Mashhad, top elite at the National Elites Foundation, recipient of research scholarships, and winner of the best thesis award from the Iranian Association of Chemical Engineering, along with being acknowledged as a top entrepreneur in Bushehr state. His publication record includes highly cited ISI and Scopus-indexed papers focused on nanofluids, graphene-based systems, energy conversion, and advanced heat transfer technologies, strengthening His reputation in the global scientific community. With significant contributions to interdisciplinary engineering solutions, strong citation metrics, leadership in academic and industrial research, and continuous advancement of nanomaterial applications for energy and environmental systems, Assist. Prof. Dr Mehdi Shanbedi continues to drive impactful scientific progress, demonstrating clear potential for further innovation and international research leadership.

Profile: Scopus | ORCID | Google Scholar

Featured Publications

  1. Shanbedi, M., Zeinali Heris, S., Baniadam, M., Amiri, A., & Maghrebi, M. (2012). Investigation of heat-transfer characterization of EDA-MWCNT/di-water nanofluid in a two-phase closed thermosyphon. Industrial & Engineering Chemistry Research. Citations: 1423

  2. Shanbedi, M., Zeinali Heris, S., Baniadam, M., & Amiri, A. (2013). The effect of multi-walled carbon nanotube/water nanofluid on thermal performance of a two-phase closed thermosyphon. Experimental Heat Transfer. Citations: 26

  3. Shanbedi, M., Zeinali Heris, S., Amiri, A., Eshghi, H., & Hosseinipour, E. (2015). Synthesis of aspartic acid-treated multi-walled carbon nanotubes based water coolant and investigation of thermal and hydrodynamic properties. Energy Conversion and Management. Citations: 1366

  4. Amiri, A., Shanbedi, M., Ahmadi, G., Eshghi, H., Kazi, S. N., & Chew, B. T. (2016). Mass production of highly-porous graphene for high-performance supercapacitors. Scientific Reports. Citations: 32686

  5. Amiri, A., Shanbedi, M., Zeinali Heris, S., Kazi, S. N., & Chew, B. T. (2015). Laminar convective heat transfer of hexylamine-treated MWCNTs-based turbine oil nanofluid. Energy Conversion and Management. Citations: 355

  6. Amiri, A., Sadri, R., Shanbedi, M., Ahmadi, G., Kazi, S. N., & Chew, B. T. (2015). Microwave-assisted synthesis of nitrogen-doped graphene for high-performance electrodes in capacitive deionization. Scientific Reports. Citations: 17503

  7. Amiri, A., Ahmadi, G., Shanbedi, M., Etemadi, M., & Zubir, M. N. (2017). Transformer oils-based graphene quantum dots nanofluid as a new generation of coolant. International Communications in Heat and Mass Transfer. Citations: 40

 

Dr. Nematollah Fouladi | Engineering and Technology | Best Researcher Award

Published on by Research Hypothesis

Dr. Nematollah Fouladi | Engineering and Technology | Best Researcher Award

Assistant professor | Iranian Space Research Center | Iran

Dr. Nematollah Fouladi is an accomplished aerospace engineer and an innovative researcher whose scientific vision and technical mastery have significantly contributed to advancements in the field of aerospace propulsion and fluid dynamics. He currently serves as a Researcher at the Iranian Space Research Center, Tehran, where he leads and collaborates on cutting-edge projects focusing on high-altitude testing facilities, supersonic exhaust diffusers, and aerodynamic system optimization. Dr. Fouladi obtained his Ph.D. in Aerospace Engineering from Sharif University of Technology, Tehran, one of the most prestigious engineering universities recognized for its excellence in research and education. His academic journey has been distinguished by a strong focus on computational and experimental fluid mechanics, turbulence modeling, and supersonic flow control, all of which reflect his unwavering dedication to precision and scientific advancement. Throughout his career, Dr. Fouladi has demonstrated outstanding analytical and research capabilities, successfully integrating advanced simulation techniques with practical experimentation to develop efficient and reliable aerospace propulsion systems. His research interests lie primarily in the areas of aerothermodynamics, gas dynamics, high-altitude testing methodologies, and aerospace cooling system design, which play a critical role in improving the performance, safety, and sustainability of aerospace technologies. In addition to his technical expertise, Dr. Fouladi exhibits a strong command of numerical modeling, data interpretation, computational fluid dynamics (CFD), heat transfer analysis, and system integration, enabling him to contribute to interdisciplinary collaborations within international research networks. As an active contributor to scholarly communication, Dr. Nematollah Fouladi has authored 18 documents, garnered 109 citations, and achieved an h-index of 6, demonstrating his growing influence and recognition in the global aerospace research community. His works are published in leading peer-reviewed journals such as Physics of Fluids, Acta Astronautica, Aerospace Science and Technology, and Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering. These publications have provided valuable insights into high-speed flow behavior, diffuser performance, and nozzle optimization—offering practical solutions to aerospace challenges faced by industry and research institutions alike. Dr. Fouladi’s commitment extends beyond research as he actively participates in collaborative engineering projects, contributing to advancements in Iran’s aerospace infrastructure and capacity-building initiatives. His professional experience also includes involvement in experimental investigations that support national and international aerospace objectives, reinforcing his reputation as a reliable and forward-thinking engineer. He has demonstrated leadership qualities through mentoring emerging researchers, fostering innovation-driven research environments, and promoting scientific excellence across disciplines. Dr. Fouladi’s research skills encompass a comprehensive blend of theoretical analysis, computational proficiency, and experimental design—qualities that make his work both academically robust and practically relevant. His contributions have been recognized by academic and research communities, earning him honors and respect as a key figure in aerospace technology development.

Profile:  Google scholar | Scopus | ORCID

Featured Publications

  1. Fouladi, N. (2025). Cooling system design and analysis for high heat flux large dimension diffuser of a high-altitude test facility. International Journal of Thermofluids. (Cited by 5)

  2. Fouladi, N. (2024). Experimental evaluation of the influence of the diffuser inlet to nozzle exit cross sectional area ratio on pressure oscillation in a high-altitude test facility. Physics of Fluids. (Cited by 7)

  3. Fouladi, N. (2024). Gas dynamics at starting and terminating phase of a supersonic exhaust diffuser with a conical nozzle. Physics of Fluids. (Cited by 9)

  4. Fouladi, N. (2023). Experimental and comprehensive investigation of second throat diffuser area effect on ground test of a thrust optimized parabolic nozzle with different expansion ratios. Acta Astronautica. (Cited by 10)

  5. Fouladi, N. (2023). Starting transient analysis of second throat exhaust diffuser in high-altitude test of a thrust optimized parabolic nozzle. Physics of Fluids. (Cited by 6)

 

Goran Tepić | Engineering and Technology | Innovative Research Award

Published on by Research Hypothesis

Goran Tepić | Engineering and Technology | Innovative Research Award

Assist. Prof. Dr Goran Tepić, University of Novi Sad, Faculty of Technical Sciences, Serbia

Assist. Prof. Dr. Goran Tepić 🎓🔬 is a researcher and educator in Industrial Engineering and Engineering Management. He earned his Ph.D. in 2019 from the University of Novi Sad, focusing on risk management in hazardous substances 🚛⚠️. An assistant professor at the Faculty of Technical Sciences, he has published over 20 papers in leading journals 📚. He co-founded Serbia’s dangerous goods cluster and serves as a safety adviser for ADR/RID transport 🚆. His expertise spans risk analysis, logistics security, and environmental protection 🌍. Fluent in Serbian 🇷🇸 and English 🇬🇧, he is dedicated to advancing industrial safety and engineering.

Publication Profile

Orcid

Education

Assist. Prof. Dr. Goran 🎓 is a dedicated scholar in Industrial Engineering and Engineering Management. He earned his Ph.D. (2014-2020) from the Faculty of Technical Sciences, University of Novi Sad, Serbia 🏗️📊. Before that, he completed his Master’s in Engineering Management (2013-2014) 🎯 and his Bachelor’s with Honours in Engineering Management (2010-2013) 🏅 from the same institution. His academic journey reflects a strong commitment to engineering excellence, innovation, and management strategies. With expertise in industrial processes and technical advancements ⚙️📈, he contributes significantly to the field through research, teaching, and leadership in engineering education. 🚀

Experience

Assist. Prof. Dr. Goran 🎓 is a dedicated scholar in Industrial Engineering and Engineering Management. He earned his Ph.D. (2014-2020) from the Faculty of Technical Sciences, University of Novi Sad, Serbia 🏗️📊, after completing his Master’s in Engineering Management (2013-2014) 🎯 and his Bachelor’s with Honours (2010-2013) 🏅 from the same institution. His academic journey showcases a deep commitment to engineering excellence, innovation, and management strategies. With expertise in industrial processes and technical advancements ⚙️📈, he plays a vital role in research, teaching, and leadership, contributing significantly to engineering education and the future of industrial management. 🚀

Recognition & Impact 

Assist. Prof. Dr. Goran is dedicated to tackling critical industrial and environmental challenges, focusing on chemical accidents, hazardous material storage, and industrial risk analysis ⚠️🏭. His research plays a vital role in enhancing safety measures and sustainability in industrial settings 🌍🔬. Through multi-criteria analysis, he provides innovative solutions for risk assessment and decision-making 🧠📊. Additionally, his work promotes environmental awareness and sustainable industrial practices, bridging the gap between industry and ecological responsibility 🌱♻️. His multidisciplinary contributions are shaping a safer and greener future, making a significant impact on industrial safety and environmental protection 🚀🌎.

Research Focus

Assist. Prof. Dr. Goran Tepić’s research focuses on risk assessment, operational safety, and environmental protection in industries dealing with hazardous materials 🚛⚠️. His work explores accidents in storage facilities, risk management in dangerous substances, and tracking hazardous goods via GPS/GSM 📡📊. He also delves into friction stir welding simulations, urban forestry for sustainability, and reducing metal pollution in water 🌿💧. His interdisciplinary approach combines engineering, logistics, and environmental science to enhance industrial safety and sustainability 🔬🌎. His contributions support efficient resource management and risk reduction strategies in metallurgy, transport, and environmental protection 🏭📉.

Publication Top Notes

Accidents in Facilities for Storing Hazardous Materials

Influential parameters and numerical simulation of heat generated in the process of friction stir welding

Assessment and risk management in the system of dangerous substances

Vehicle Tracking in the Process of Transport of Dangerous Goods GPS/GSM Technology

The urban forests as Environmental Strategy

Xingchen Fan | Tech Innovations | Best Researcher Award

Published on by Research Hypothesis

Xingchen Fan | Tech Innovations | Best Researcher Award

Dr Xingchen Fan, Chongqing university of Technology, China

Dr. Xingchen Fan is an assistant researcher and master’s tutor at Chongqing University of Science and Technology. With over ten years of expertise in precision displacement sensing technology, his research focuses on sensor reliability in extreme environments and sensor performance maintenance. Dr. Fan has led one national major project and contributed to five others, including the National Key Research and Development Program. As a first or corresponding author, he has published five papers in renowned journals like IEEE Transactions on Instrumentation and Measurement. He holds six invention patents. 🧑‍🔬📡📑🛠️

Publication Profile

Scopus

Research Leadership

Dr. Xingchen Fan is a distinguished leader in research, having led a national major project and played a key role in prestigious initiatives such as the National Key Research and Development Program, the National Natural Science Foundation of China, and Chongqing Municipal Major Projects. His leadership skills and involvement in high-impact research demonstrate his commitment to advancing scientific knowledge. Through these projects, Dr. Fan has made significant contributions to the field, showcasing both his leadership abilities and his dedication to groundbreaking research. 🚀🔬🌟💼

Research Focus

Dr. Xingchen Fan’s research focuses on the design, optimization, and precision analysis of sensors, particularly in the field of displacement and angular measurement technologies. His work includes the development of capacitive displacement sensors, using splicing techniques to enhance the range and accuracy of absolute linear displacement sensors. Additionally, Dr. Fan’s research includes studying sensor measurement precision and the effects of assembly errors in nanometer time-grating sensors. His contributions are crucial for advancing high-precision sensor technologies used in various fields, including instrumentation and measurement systems. 📏🔧📐📊

Innovation in Sensor Technology

Dr. Xingchen Fan is a highly innovative engineer known for his groundbreaking work in sensor technology. His creations, including large-range absolute linear displacement sensors and capacitive displacement sensors, showcase his expertise and creativity. These advancements in sensor technology have broad applications, significantly benefiting industries like robotics 🤖, manufacturing 🏭, and aerospace ✈️. Dr. Fan’s contributions not only push the boundaries of engineering but also enhance the efficiency and capabilities of various technological systems, positioning him as a leader in sensor design and development. His work continues to inspire and drive progress across multiple sectors. 🔧⚙️

Patents

Dr. Xingchen Fan is a prolific researcher known for his significant contributions to the field. He has published 5 academic papers in high-impact journals, including IEEE Transactions on Instrumentation and Measurement and IEEE Sensors Journal. In addition to his publications, Dr. Fan holds 6 invention patents, demonstrating the practical applications of his research. His work has garnered global recognition, with his publications being highly cited, reflecting the impact he has made in the scientific community. 🧑‍🔬📚🔬📈💡

Publication Top Notes

Design and optimization of large-range absolute linear displacement sensors based on splicing technology

A Splicing Technique and Structure for Long-Range Absolute-Type Capacitive Displacement Sensors

A Compact and High-Precision Capacitive Absolute Angular Displacement Sensor

Measurement Precision Analysis Based on Assembly Errors of a Nanometer Time-Grating Sensor

Conclusion

Dr. Xingchen Fan is a leading expert in his field, renowned for his technical innovation and exceptional leadership. With an impressive portfolio of published research and numerous patent contributions, he has made significant strides in advancing his area of expertise. His work has been pivotal in driving breakthroughs and fostering progress, earning him widespread recognition. Dr. Fan’s dedication and contributions to the scientific community make him a deserving candidate for the Best Researcher Award 🏆🔬. His ability to combine creativity and practical application continues to inspire and influence the direction of research in his field 🌟📚.

 

 

atieh ranjbar | Engineering and Technology | Best Researcher Award

Published on by Research Hypothesis

atieh ranjbar | Engineering and Technology | Best Researcher Award

Assist. Prof. Dr atieh ranjbar, Tafresh University, Iran

Assist. Prof. Dr. Atieh Ranjbar 🎓 is a chemical engineer specializing in nanocatalysts and CO2 conversion 🌱. She earned her Ph.D. in Chemical Engineering from the University of Isfahan (2020) and her M.Sc. from the University of Kashan 🏫. Her research focuses on reverse water gas shift (RWGS) and reforming reactions 🔬. Dr. Ranjbar has published extensively and presented at international conferences 🌍. She teaches reactor design, thermodynamics, and nanotechnology 📚. A recognized exceptional talent, she ranked 3rd in her Ph.D. program 🏅. Her interests include nanotechnology, heterogeneous catalysts, and lithium-ion batteries 🔋.

Publication Profile

google scholar

Education

Assist. Prof. Dr. Atieh Ranjbar holds a Ph.D. in Chemical Engineering 🎓 from the University of Isfahan (2012-2020, GPA: 18.12/20), where her research focused on Ni-based nano-catalysts in reverse water gas shift reactions ⚗️. She earned her M.Sc. from the University of Kashan (2008-2011, GPA: 18.91/20), investigating the effect of Al2O3 to CaO ratios on nickel catalysts for dry reforming 🌡️. Dr. Ranjbar completed her B.Sc. in Chemical Engineering at the same university (2004-2008, GPA: 16.24/20). Her expertise lies in catalysis, nanomaterials, and advanced chemical processes, contributing significantly to the field of chemical engineering 🔬.

Experience

Assoc. Prof. Dr.atieh ranjbar is a distinguished chemical engineer specializing in fluid mechanics, heat transfer, and thermodynamics 🌡️📊. He teaches at Tafresh University and lectures at Qom and Hormozgan universities. His Ph.D. focused on Ni-promoted nanocatalysts for CO2 conversion into valuable chemicals 🌱⚙️. His research enhances CO2 recycling efficiency through nanocatalysts, boosting RWGS reaction performance. He also worked on hydrophilic nano LiMn2O4 for lithium-ion batteries 🔋 and nanocrystalline calcium aluminates for syngas production. Dr. Irankhah’s passion for innovation and teaching drives his contributions to advanced reactor design and chemical engineering education 🚀📚.

Honors and Awards

Assoc. Prof. Dr atieh ranjbar is a distinguished academic, ranked 3rd in his Ph.D. program among 10 candidates 🎓. In 2012, he was recognized as an exceptional talent and accepted as a Ph.D. candidate at the University of Isfahan 🏛️. He also achieved 3rd place in his M.Sc. program among 15 students, showcasing his dedication to excellence 📚. In 2008, he was acknowledged as an exceptional talent among 60 students and accepted into the M.Sc. program at the University of Kashan 🌟. His academic journey reflects perseverance, talent, and a passion for higher education.

Presentations

Assoc. Prof. Dr atieh ranjbar has made significant contributions to chemical engineering through various oral and poster presentations 🎓🧪. He has presented at prestigious events like the International Chemical Engineering Congress (IChEC), discussing topics such as Ni-Fe catalysts on nano-Al2O3 for reverse water gas shift reactions (2018) and heat transfer in non-Newtonian fluids (2014) 🌡️🔬. His poster presentations at the National Applied Chemistry Congress (2019) explored Ni nanocatalysts and K-promoted alumina catalysts in key catalytic reactions ⚙️. His work emphasizes methane reforming, calcium aluminates, and nanocatalysts, reflecting his expertise in advanced materials and chemical processes 🌍🔥.

Research Focus

Assoc. Prof. Dr atieh ranjbar research focuses on developing advanced nickel-based catalysts for methane reforming and CO2 utilization 🔬🌱. His work explores catalyst support materials like nanocrystalline MgO, CaO, and Al2O3 to enhance efficiency in processes like dry reforming and the reverse water-gas shift reaction ⚙️🔥. By synthesizing catalysts with high surface areas and unique morphologies, he contributes to cleaner energy solutions and CO2 mitigation 🌍♻️. His studies also investigate the role of rare earth and alkali metals in boosting catalytic performance, reflecting a dedication to sustainable hydrogen production and greenhouse gas reduction 🚀🌐.

Publication Top Notes

Preparation of nickel catalysts supported on CaO. 2Al2O3 for methane reforming with carbon dioxide

Autothermal reforming of methane over Ni catalysts supported on nanocrystalline MgO with high surface area and plated-like shape

Reverse water gas shift reaction and CO2 mitigation: nanocrystalline MgO as a support for nickel based catalysts

Dry reforming reaction over nickel catalysts supported on nanocrystalline calcium aluminates with different CaO/Al2O3 ratios

Low temperature synthesis of nanocrystalline calcium aluminate compounds with surfactant-assisted precipitation method

Catalytic activity of rare earth and alkali metal promoted (Ce, La, Mg, K) Ni/Al2O3 nanocatalysts in reverse water gas shift reaction

Effect of MgO/Al2O3 ratio in the support of mesoporous Ni/MgO–Al2O3 catalysts for CO2 utilization via reverse water gas shift reaction