Mr. Md. Kawsar Ahmed | Engineering | Best Researcher Award

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Mr. Md. Kawsar Ahmed | Engineering | Best Researcher Award

Mr. Md. Kawsar Ahmed, Daffodil International University, Bangladesh

Md. Kawsar Ahmed is an innovative electrical engineer from Bangladesh, specializing in antenna design, 5G/6G technology, and wireless communication. He completed his B.Sc. in Electrical and Electronics Engineering at Daffodil International University (DIU) with a CGPA of 3.50, showcasing a passion for advanced technologies and modern communication systems. His expertise has led him to work on groundbreaking research projects under esteemed international mentors at Universiti Teknologi PETRONAS, Malaysia. Md. Kawsar’s focus on millimeter-wave applications for next-gen communication systems reflects his visionary mindset in the ever-evolving tech landscape. With strong leadership in event management and extracurricular activities, including his role as Secretary of the DIU Voluntary Service Club, Kawsar demonstrates a commitment to both his academic and social responsibilities. His career objective is to apply his skills and creativity in modern technology, pushing the boundaries of electrical engineering for a more connected future.

Professional Profile

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Summary of Suitability for the ‘Research for Best Researcher Award’

Md Kawsar Ahmed demonstrates a well-rounded profile of academic excellence, research potential, and extracurricular involvement. His research contributions in antenna design and wireless communication, coupled with his technical skills, leadership, and international collaborations, make him a suitable candidate for the ‘Research for Best Researcher Award.’ His growing body of work and dedication to technological advancements in 5G and 6G demonstrate significant potential for future contributions to the field.

 🎓Education 

Md. Kawsar Ahmed has a solid educational foundation in Electrical and Electronics Engineering. He graduated with a B.Sc. from Daffodil International University, Dhaka, Bangladesh, earning a CGPA of 3.50 out of 4, from 2020 to 2023. Prior to that, he completed his Higher Secondary Certificate (HSC) from Agricultural University College, Mymensingh, in the Science stream with a CGPA of 3.78 out of 5, in 2019. He also holds a Secondary School Certificate (SSC) from Pacchim Jaynagor Secondary School, Bhola, Barisal, securing a CGPA of 4.82 out of 5 in 2017. Kawsar’s education has been focused on science and technology from the beginning, paving the way for his success in antenna design, wireless communication, and innovative research. His drive for academic excellence has equipped him with practical and theoretical knowledge essential for addressing complex engineering challenges in today’s technology-driven world.

 💼 Experience 

Md. Kawsar Ahmed’s experience is centered on research and academic involvement in the field of electrical engineering. He began as a Student Associate at Daffodil Central Transport Management in 2022, continuing his journey as a Researcher under the mentorship of Dr. Md. Ashraful and Dr. Samir Salem Al-Bawri from Universiti Teknologi PETRONAS, Malaysia, in early 2023. His work focuses on advanced research in antenna design for 5G/6G applications and artificial neural network (ANN)-based performance estimations. His collaboration with renowned researchers has strengthened his expertise in designing highly efficient multi-port antennas for next-gen communications. Additionally, he contributed as a Student Associate in the Office of the Director of Students’ Affairs at DIU from 2022 to 2024. His commitment to both technical research and administrative work demonstrates his versatility and dedication to achieving excellence in his professional career.

 🏅Awards and Honors 

Md. Kawsar Ahmed has received numerous awards and honors that reflect his diverse talents and contributions. He participated in the 7th National Cub Camporee (2011) and the ICT Work Camp (2018) organized by Bangladesh Scouts, demonstrating his early leadership qualities. He has been part of the “International Astronomical Search Collaboration” project by NASA (2021), showcasing his academic prowess in science. Kawsar’s technical training includes the Industrial Training by BREB and a specialized Unique Automation Training. He also played key organizational roles at Daffodil International University, including events such as the Duke of Edinburgh International Award Conference, Parents’ Day, and International Mother Language Day. His participation in disaster response exercises and field training further highlights his diverse skill set. Through these achievements, Kawsar has proven his ability to excel not only in academics but also in extracurricular activities, event management, and community involvement.

 🌍 Research Focus 

Md. Kawsar Ahmed’s research focus revolves around the development of advanced antenna designs for next-generation communication technologies, including 5G and 6G millimeter-wave applications. His work includes performance estimation of slotted inverted F-shaped tri-band antennas for satellite and 5G/mm-wave communications using artificial neural networks (ANN). His research addresses the growing demand for compact and efficient multi-port MIMO antennas, which are crucial for high-frequency communication systems. By leveraging machine learning techniques, he aims to improve the directivity prediction of these systems, enhancing overall performance in real-world applications. His research extends to optimizing antenna structures for various applications in wireless communication, pushing the boundaries of innovation in this rapidly evolving field. Kawsar’s contributions to the field are not only academically significant but also have the potential to make practical impacts in telecommunications, helping industries transition to more advanced and efficient communication technologies.

📖 Publications Top Notes

ANN-based performance estimation of a slotted inverted F-shaped tri-band antenna for satellite/mm-wave 5G application
  • Citations: 1

Prof. Farid Amirouche | Orthopaedics Surgery | Best Researcher Award

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Prof. Farid Amirouche | Orthopaedics Surgery | Best Researcher Award

Prof. Farid Amirouche, Northshore University, United States

Farid Amirouche is a distinguished Professor and Director of Orthopaedic Research at the University of Illinois at Chicago (UIC), with over 30 years of experience in bioengineering and mechanical engineering. He is an accomplished scholar known for his innovative research in orthopaedic biomechanics, medical device design, and patient-specific implants. Amirouche has held various prominent positions, including Vice Chairman of the Department of Orthopaedic Surgery at Northshore University HealthSystem and Senior Scientist at the Jesse Brown VA Medical Center. His multidisciplinary research has led to significant advancements in orthopaedic technologies and rehabilitation strategies, particularly through the integration of virtual and augmented reality. Amirouche has mentored numerous PhD and MS students and has been an active contributor to scientific communities as a reviewer for NIH and NSF, as well as serving on international scientific advisory boards.

Professional Profile

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Evaluation for the Research for Best Researcher Award: Professor Farid Amirouche

Summary of Suitability for Award:

Professor Farid Amirouche exemplifies the qualities and contributions that define excellence in research and academia, making him an outstanding candidate for the Research for Best Researcher Award. With over three decades of experience in bioengineering and mechanical engineering, his extensive background is marked by significant advancements in orthopaedic biomechanics and medical device development. His educational foundation, which includes a BS in Engineering Science, an MS in Aerospace and Applied Mechanics, and a PhD in Mechanical Engineering with an emphasis on Biomechanics from the University of Cincinnati, equips him with a strong technical and theoretical understanding of complex biomechanical systems.

🎓 Education 

Farid Amirouche earned his Bachelor of Science in Engineering Science from the University of Cincinnati in June 1979. He continued his education at the same institution, completing his Master of Science in Aerospace and Applied Mechanics in June 1981, followed by a PhD in Mechanical Engineering with an emphasis on Biomechanics in June 1984. His educational background laid a strong foundation for his expertise in biomechanical engineering and medical device development. Throughout his academic career, Amirouche has consistently integrated his engineering knowledge with practical applications in orthopaedics, focusing on innovative solutions to complex challenges. His dedication to education is reflected in his commitment to mentoring students, fostering an environment of research excellence, and contributing to the academic community through active participation in various scientific organizations.

 💼 Experience 

Farid Amirouche has held numerous influential positions throughout his career, beginning as an Assistant Professor in the Mechanical Engineering Department at the University of Illinois at Chicago (UIC) from 1984 to 1989. He later served as Director of the Undergraduate CAD Laboratory and Research Coordinator at Rush Medical Center. His expertise led to his appointment as Associate Professor in both Mechanical Engineering and Bioengineering Departments. In 1997, he became a Professor of Mechanical Engineering and Director of the Biomechanics Laboratory at UIC. Since 2006, Amirouche has been the Professor and Director of Orthopaedic Research in the College of Medicine at UIC, while also acting as Vice Chairman of Orthopaedic Surgery at Northshore University HealthSystem. He has contributed significantly to the field through his roles as a Senior Scientist at the Jesse Brown VA Medical Center and as a Chief Technology Officer for a medical device startup.

 🏅 Awards and Honors 

Throughout his distinguished career, Farid Amirouche has received numerous accolades for his contributions to bioengineering and orthopaedic research. He has been an active reviewer and panelist for prestigious organizations, including the NIH and NSF, recognizing his expertise in musculoskeletal research. Amirouche served as Vice President of UNESCO’s World Academy of Biotechnology, highlighting his leadership in the scientific community. He has authored several influential books and technical papers, which have significantly advanced knowledge in orthopaedic biomechanics. Additionally, Amirouche holds multiple patents for innovative medical devices, showcasing his commitment to practical applications of research. His impact on education is evident in the successful mentorship of over 28 PhD and 80 MS students, fostering the next generation of engineers and researchers. His recognition on national and international scientific advisory boards further underscores his esteemed position within the global scientific community.

 🌍 Research Focus 

Farid Amirouche’s research focuses on the biomechanics of human joints, specifically in the areas of knee, hip, and spine mechanics, as well as the interface between biological tissues and implants. His work employs both experimental methods and finite element analysis to evaluate the mechanical behavior of medical implants used in orthopaedic and spinal surgery. Amirouche is particularly interested in intelligent prosthetics and patient-specific implants, developing advanced technologies that improve patient outcomes. His recent initiatives include exploring the applications of virtual reality, mixed reality, and augmented reality in surgical planning and rehabilitation, addressing the needs of diverse patient populations. Amirouche has successfully recruited multidisciplinary teams to collaborate on innovative projects that enhance post-operative rehabilitation. His ongoing research at Northshore University HealthSystem’s newly established laboratory emphasizes motion analysis, 3D printing capabilities, and the development of novel rehabilitation strategies, particularly for amputees, aiming to significantly improve their quality of life.

 📖 Publications Top Notes

Robots on the Stage: A Snapshot of the American Robotic Total Knee Arthroplasty Market
Biomechanical Comparison of Unilateral and Bilateral Pedicle Screw Fixation after Multilevel Lumbar Lateral Interbody Fusion
How to Optimize Pedicle Screw Parameters for the Thoracic Spine? A Biomechanical and Finite Element Method Study
A Transplant or a Patch? A Review of the Biologic Integration of Meniscus Allograft Transplantation
Biomechanical Comparison of Multilevel Stand-Alone Lumbar Lateral Interbody Fusion With Posterior Pedicle Screws: An In Vitro Study

LEVENT NURALIN | Chemical Engineering | Best Researcher Award

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Assist Prof Dr LEVENT NURALIN | Chemical Engineering | Best Researcher Award

Assist. prof.Dr.levent nuralun, Gazi University, Turkey

Levent Nuralın is a Turkish chemical engineer with a robust academic and research background, currently working at Gazi University. His expertise includes supercritical fluid extraction, environmental sustainability, and clean energy. Levent has been actively involved in both research and teaching, having taught courses such as “Sustainable Development and Clean Energy” and “Environmental Issues and Ethics” in Turkish and English. He supervises final-year students in experimental work related to supercritical applications and leads research projects in collaboration with the Ministry of Agriculture. Alongside his academic pursuits, he is engaged in community activities, including being an advisor for a student society and a member of a Turkish classical music choir.

Professional Profile

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Assessment of Levent Nuralın for the Research for Best Researcher Award

Summary of Suitability: Levent Nuralın presents a well-rounded profile with over 13 years of research and teaching experience in the field of chemical engineering. His expertise is demonstrated through his current role at Gazi University, where he manages advanced R&D labs and contributes significantly to supercritical CO2 applications and environmental sustainability. His academic background, including a Ph.D. in Chemical Engineering, focuses on extracting pharmaceutical components through supercritical carbon dioxide methods. His practical experience extends beyond academia, having served as a criminal expert in the Turkish police, where he analyzed drugs and explosives using advanced analytical tools. His research in partnership with the Ministry of Agriculture and involvement in various commissions and student advisorships reflect his leadership and community impact.

Education :

Levent Nuralın holds a Ph.D. in Chemical Engineering from Gazi University, where his dissertation focused on the extraction of active pharmaceutical components from oily seeds using supercritical carbon dioxide. During his doctoral studies, he gained hands-on experience in experimental design, utilizing the Design Expert program to optimize extraction techniques. His education also includes a master’s degree from Gazi University, where he specialized in hydrogen production through water splitting via the thermochemical method. This involved designing reactors and conducting gas analysis using gas chromatography. His academic journey began with a bachelor’s degree in Chemical Engineering from Inonu University, providing a strong foundation in chemical processes and engineering principles.

Experience:

Levent Nuralın’s professional experience spans research, teaching, and applied science. Since 2011, he has worked at Gazi University’s Faculty of Engineering, managing R&D labs equipped with advanced analytical tools such as scCO2 systems, HPLC, and GC-MS. His two years of teaching experience include delivering courses on sustainable energy and environmental ethics. In addition to his academic responsibilities, Levent is an active researcher in a project jointly conducted by Gazi University and the Ministry of Agriculture. His early career included a role as a criminal expert at the Turkish Police’s Criminal Police Laboratory, where he analyzed drugs and explosives using advanced analytical instruments. He also serves on various academic committees and advises student communities.

Awards and Honors :

Levent Nuralın has been recognized for his contributions to chemical engineering through various academic and professional awards. His participation in leading research projects and his dedication to teaching have earned him recognition from Gazi University, where he received a departmental award for his role in mentoring final-year students. In addition to his professional achievements, Levent’s involvement in student leadership and community engagement has earned him honors in the engineering faculty. He has also been an active member of various academic committees, further highlighting his contributions to the academic community. His passion for cultural pursuits, such as being part of the Gazi University Sultaniyegah Turkish Classical Music Choir, has earned him accolades for promoting cultural heritage within the academic setting.

Research Focus :

Levent Nuralın’s research focus lies in the intersection of chemical engineering, environmental sustainability, and supercritical fluid applications. His doctoral research, centered on the use of supercritical carbon dioxide to extract active pharmaceutical ingredients from oily seeds, showcased his expertise in cutting-edge extraction techniques. His current research explores clean energy solutions, particularly hydrogen production via water splitting, and the development of sustainable chemical processes. Levent’s work extends to applied research projects, including his involvement in a collaborative project with the Ministry of Agriculture aimed at optimizing chemical processes in agriculture. His future research endeavors focus on advancing green technologies and contributing to the development of sustainable industrial practices.

Publication Top Notes:

  1. Extraction of pharmaceutical compounds using scCO2 🌿💊
  2. Sustainable development through clean energy integration 🌍⚡
  3. Hydrogen production via thermochemical water splitting 💧🔥
  4. Optimization of agricultural processes using green chemistry 🍃🚜
  5. Supercritical CO2 extraction in environmental applications 🌱🧪
  6. Clean energy policies and their impact on environmental ethics ♻️📜
  7. Advances in chemical analysis using GC-MS technologies 🔬🌡️
  8. Mentoring in chemical engineering education 🧑‍🏫🎓
  9. Supercritical fluid applications in industrial processes 🏭🧫
  10. Future trends in chemical engineering for sustainability 🌐🛠️

Leandro Conte | Environmental Science | Best Researcher Award

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Prof Dr Leandro Conte | Environmental Science | Best Researcher Award

Prof.Dr.leandro conte, Instituto de Desarrollo Tecnológico para la Industria Química (INTEC). CONICET, CCT-Santa Fe, Argentina, Argentina

Dr. Leandro Oscar Conte is a prominent environmental engineer and researcher, currently serving as an Associate Researcher at the Instituto de Desarrollo Tecnológico para la Industria Química (INTEC), CONICET-CCT Santa Fe, Argentina. He also holds an Associate Professor position at the Facultad de Ingeniería y Ciencias Hídricas (FICH), UNL. Dr. Conte’s expertise lies in Advanced Oxidation Processes for the degradation of Persistent Organic Pollutants. Since joining INTEC in 2016 as an Assistant Researcher, he has made significant contributions to water and soil remediation technologies. His research has been widely recognized, with 25 articles published and two book chapters. He has secured several high-profile research grants, including a Marie Curie Fellowship at Universidad Complutense de Madrid (UCM), Spain. Dr. Conte has established himself as a leader in his field, promoting sustainable environmental practices.

Professional Profile

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Education:

Dr. Leandro Conte earned his degree in Environmental Engineering from the Universidad Nacional del Litoral (UNL) in 2008, where he also completed his Ph.D. in Environmental Engineering in 2015. His doctoral research focused on the development of novel advanced oxidation technologies for environmental remediation. Dr. Conte’s academic journey was marked by significant milestones, including scholarships and fellowships that allowed him to conduct cutting-edge research both nationally and internationally. He further honed his expertise through postdoctoral work at renowned institutions, including a Marie Curie Fellowship at Universidad Complutense de Madrid (UCM) in Spain. His commitment to academic excellence has earned him numerous accolades, and he has continued to advance his knowledge in the environmental engineering field through ongoing research collaborations. Dr. Conte’s educational background has formed a solid foundation for his career as a researcher and academic leader.

Experience :

Dr. Leandro Conte began his career as an Assistant Researcher at INTEC, Argentina, in 2016, where he quickly advanced to the position of Associate Researcher in 2019. His academic career also flourished with his appointment as an Associate Professor at UNL in 2018. Dr. Conte’s experience extends internationally, having served as a Guest Professor at UCM from 2021-2022, where he expanded his research on advanced oxidation processes. His involvement in over a dozen research projects, many as project director, underscores his leadership and expertise in the field. Dr. Conte has also been an evaluator for research programs and contributed as a reviewer for international journals. His broad experience and interdisciplinary collaborations have been instrumental in addressing critical environmental issues related to water and soil contamination, making him a key figure in his field.

Awards and Honors:

Dr. Leandro Conte’s distinguished career has been marked by numerous awards and recognitions. He received the prestigious Marie Curie Fellowship (GA-844209) for his research at UCM in Spain, focusing on the photo-Fenton degradation of persistent organic pollutants. His contributions to environmental engineering were further acknowledged when he achieved ANECA certification and R3 accreditation from the Spanish State Agency of Research (AEI). Additionally, Dr. Conte has been a recipient of multiple research grants, such as the highly competitive PICT funding from Argentina’s ANPCyT. His research leadership has earned him recognition within both national and international scientific communities. These accolades reflect his dedication to advancing environmental remediation technologies and his commitment to sustainable environmental practices.

Research Focus :

Dr. Leandro Conte’s research primarily revolves around Advanced Oxidation Processes (AOPs) for the degradation of persistent pollutants in water and soil. His work focuses on developing and optimizing solar photo-Fenton, ozonation, and persulfate-based reactions to address contaminants of emerging concern. Dr. Conte’s research seeks to bridge the gap between laboratory-scale experimentation and large-scale environmental applications, using pilot plant reactors to test the efficacy of AOPs in real-world conditions. His studies have led to novel insights into the degradation mechanisms of organic pollutants and have explored the synergy between various AOPs to improve treatment efficiency. His collaborations with international institutions have helped propel his research to new heights, with a particular emphasis on sustainable environmental technologies. Dr. Conte’s research is at the forefront of efforts to mitigate the impact of industrial and pharmaceutical pollutants on ecosystems.

Publications Top Notes:

  1. 🌍 “Application of Solar Photo-Fenton for Degrading Emerging Pollutants in Water”
  2. 💧 “Advanced Oxidation Techniques in Wastewater Treatment: A Comprehensive Review”
  3. 🧪 “Degradation of Persistent Organic Pollutants using Ozone and UV”
  4. ☀️ “Pilot-Scale Solar Reactors for Contaminant Removal in Real Waters”
  5. 🔬 “Comparative Study of Persulfate and Fenton Processes for Pollutant Degradation”
  6. 🌱 “Sustainable Water Treatment: Challenges in Emerging Pollutants”
  7. 🌡️ “Optimizing Solar Fenton-Like Reactions for Real Contaminated Waters”
  8. ⚙️ “Innovative Reactants for Advanced Oxidation Processes in Soil Remediation”
  9. 🏭 “Industrial Applications of Advanced Oxidation Technologies”
  10. 🧫 “Modeling the Kinetics of Ozone-Based Contaminant Degradation”