Subash-Babu Pandurangan | Molecular nutrition | Best Researcher Award

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Dr. Subash-Babu Pandurangan | Molecular nutrition | Best Researcher Award

Professor , KING SAUD UNIVERSITY,Saudi Arabia

Dr. P. Subash Babu is an Associate Professor in Biochemistry at the Department of Food Science and Nutrition, King Saud University, Riyadh, KSA. With expertise in molecular biology, nutrition, and metabolic disorders, he specializes in adipogenesis, immunobiology, obesity, diabetes, cardiovascular diseases, and cancer. He has a strong background in working with human mesenchymal stem cells (MSCs) and miRNA profiling to explore gene-nutrient interactions in disease pathogenesis. Dr. Babu has extensive teaching experience and has served as a visiting professor and adjunct faculty at multiple international institutions. He has published extensively in top-tier journals and has contributed significantly to advancing our understanding of cellular biology in disease mechanisms. He has also worked on various industrial and clinical research projects, bridging the gap between academia and real-world health applications.

Profile

Strengths for the Award

  1. Diverse Research Portfolio: Dr. Subash Babu has an extensive and varied research portfolio, covering key areas in biochemistry, molecular nutrition, and immunobiology. His work spans across metabolic disorders like obesity, diabetes, and cardiovascular diseases (CVD), as well as cancer research, focusing on the molecular mechanisms and cellular processes underpinning these conditions. His interdisciplinary approach, combining molecular biology with clinical applications, strengthens his profile for the Best Researcher Award.
  2. Innovative and Cutting-Edge Research: His current research on molecular diagnostics, adipogenesis, and miRNA profiling reflects cutting-edge approaches in the study of human metabolism and disease pathogenesis. The investigation of foodborne carcinogens in cancer development and his work with Mesenchymal Stem Cells (MSCs) to understand adipocyte differentiation represent innovative contributions to both basic and applied biochemistry.
  3. Collaborations and International Impact: Dr. Subash Babu’s collaborations with multiple research institutions and universities, both in Saudi Arabia and internationally (such as the University of Reading, UK), as well as his role as a visiting professor, underscore his global scientific influence. His work is not only recognized within his own institution but also internationally, highlighting his contributions to advancing scientific knowledge and fostering international academic partnerships.
  4. Publications and Editorial Involvement: His extensive publication record, with numerous articles in peer-reviewed journals like BMC Nutrition, Molecules, and Nanomaterials, showcases his consistent contribution to the field. His role on the editorial boards of several prestigious international journals further underscores his leadership in the scientific community.
  5. Research Translation and Clinical Relevance: Dr. Subash Babu’s research goes beyond the lab, with applications in clinical biochemistry, toxicology, pharmacology, and drug development. His work on the pharmacological properties of food components, such as those from pistachio seed coat and Lepidium sativum, exemplifies his ability to translate scientific findings into practical solutions for health and disease prevention.
  6. Awards and Recognitions: The Senior Research Fellowship awarded by the Indian Council of Medical Research (ICMR) is a testament to his recognition as an emerging researcher in the early stages of his career. This, coupled with the granted patent for a novel antidiabetic compound derived from Nymphaea stellata, demonstrates his innovation and ability to push the boundaries of research.

Areas for Improvement

  1. Interdisciplinary Integration: While Dr. Subash Babu’s research is already highly interdisciplinary, further integration with cutting-edge technologies such as AI/ML for data analysis in biomedical research or precision medicine could further strengthen the translational potential of his work. Utilizing such technologies could also improve the predictive power of his research models, especially in areas like miRNA profiling.
  2. Broader Outreach and Public Engagement: Increasing the outreach of his research findings to a broader public audience, particularly in the context of health and nutrition education, would enhance the impact of his work. Although his publications are well-regarded in scientific circles, greater visibility among non-specialists could lead to greater societal benefits, especially in addressing global health challenges like obesity, diabetes, and cancer.
  3. Collaborations with Industry: Although Dr. Subash Babu has worked in food production and nutrition assessment, further strengthening collaborations with the pharmaceutical industry or biotechnological companies could open up more avenues for commercialization of his findings, especially in drug development and diagnostic tools for metabolic disorders and cancers.
  4. Focus on Longitudinal Studies: Incorporating more longitudinal or population-based studies into his research could provide further validation of the biochemical and molecular mechanisms observed in in vitro and in vivo models, leading to more robust clinical insights and applications.

Education 

Dr. P. Subash Babu holds a Ph.D. in Biochemistry (2004–2009) from the University of Madras, India, specializing in Clinical Biochemistry. He completed his M.Phil. in Biochemistry (2002–2004) at Annamalai University and earned his M.Sc. in Biochemistry (2000–2002) from the same institution. His academic journey began with a B.Sc. in Biochemistry (1997–2000). During his doctoral research, he focused on clinical biochemistry, which laid the foundation for his later research interests in molecular diagnostics, obesity, diabetes, cardiovascular diseases, and cancer biology. Dr. Babu’s education and research training were further enhanced by his postdoctoral experience in adipogenesis, immunomodulation, and miRNA profiling at King Saud University, where he currently serves as an Associate Professor. His academic credentials reflect a strong commitment to both the theoretical and applied aspects of biochemistry and molecular biology in health and disease.

Experience 

Dr. P. Subash Babu has more than 14 years of academic and research experience. He has been an Associate Professor in Biochemistry at the Department of Food Science and Nutrition, King Saud University, Riyadh, KSA, since 2010, where he teaches postgraduate courses in biochemistry, nutrition, metabolism, and clinical biochemistry. Prior to this, he worked as a Lecturer in the Department of Biotechnology at Loyola College, University of Madras, India, from 2007 to 2009. Dr. Babu has also served as a visiting professor at several institutions, including the University of Reading, UK, and M.S. Ramaiah University of Applied Sciences, India. His research focus spans areas like adipogenesis, diabetes, immunomodulation, and cancer biology, with a particular emphasis on molecular diagnostics. Additionally, he has worked as a project manager in diabetes research and as a consultant in food and nutrition assessment in industry, bridging academic research with real-world applications.

Awards and Honors

Dr. P. Subash Babu has been recognized for his outstanding research contributions. He was awarded the Senior Research Fellowship by the Indian Council of Medical Research (ICMR) from February 2006 to January 2008, a testament to his early commitment to scientific excellence. He also holds a patent for a novel compound, Nymphayol, with antidiabetic properties, developed in collaboration with S. Ignacimuthu in 2007. Dr. Babu’s research has been extensively published in leading scientific journals, showcasing his expertise in biochemistry, molecular biology, and clinical nutrition. His editorial roles in multiple international journals reflect his standing in the global scientific community. His contributions to research in metabolic disorders, adipogenesis, and cancer biology have earned him recognition among peers, and he continues to be an active participant in research and innovation in these areas. Dr. Babu’s work in the field of nutritional molecular biology remains pivotal in understanding chronic diseases.

Research Focus

Dr. P. Subash Babu’s research primarily focuses on the molecular mechanisms underlying nutrition and metabolic disorders. His studies on adipogenesis, immunobiology, obesity, and diabetes delve into the role of nutrients and gene interactions in human mesenchymal stem cells (MSCs), specifically their differentiation into adipocytes. He investigates the impact of dietary components on cell signaling, gene expression, and miRNA regulation related to metabolic disorders and cardiovascular diseases (CVD). His research also includes the role of foodborne carcinogens in cancer development through in vitro and in vivo models. Dr. Babu has a special interest in how microRNAs regulate cell death (apoptosis and necrosis), survival, and differentiation in various diseases. His work aims to identify potential therapeutic targets for metabolic disorders and cancer, bridging molecular biology, clinical nutrition, and drug development. Dr. Babu’s research continues to explore innovative solutions for managing chronic diseases through nutrition and molecular medicine.

Publication 

  1. Impact of various dietary lipids on amelioration of biomarkers linked to metabolic syndrome in both healthy and diabetic Wistar rats 🐀🥗
  2. Hemp Seed Oil Inhibits the Adipogenicity of the Differentiation-Induced Human Mesenchymal Stem Cells through Suppressing the Cannabinoid Type 1 (CB1) 🧬🌱
  3. Neuroprotective Effect of Solid Lipid Nanoparticles Loaded with Lepidium sativum (L.) Seed Bioactive Components Enhance Bioavailability and Wnt/β-Catenin/Camk-II Signaling Cascade in SH-SY5Y Neuroblastoma Cells 🧠💊
  4. Luteolin-7-O-rutinoside Protects RIN-5F Cells from High-Glucose-Induced Toxicity, Improves Glucose Homeostasis in L6 Myotubes, and Prevents Onset of Type 2 Diabetes 🍇💉
  5. Cis-vaccinic acid, Dibutyl-Cyanamide and 9, 12-Octadecadienoic acid from pistachio (Pistachia vera) seed coat (PSCE) induced nuclear damage and cytotoxicity in human colon cancer HT-115 cells 🌰🍂
  6. Ononitol Monohydrate—A Glycoside Potentially Inhibit HT-115 Human Colorectal Cancer Cell Proliferation through COX-2/PGE-2 Inflammatory Axis Regulations 🍃🔬
  7. Antimicrobial Properties of Zinc Oxide Nanoparticles Synthesized from Lavandula pubescens Shoot Methanol Extract 🦠⚙️
  8. Cinchona officinalis Phytochemicals-Loaded Iron Oxide Nanoparticles Induce Cytotoxicity and Stimulate Apoptosis in MCF-7 Human Breast Cancer Cells 🌿🧪
  9. Ocimum basilicum L. Methanol Extract Enhances Mitochondrial Efficiency and Decreases Adipokine Levels in Maturing Adipocytes Which Regulate Macrophage Systemic Inflammation 🍃🧬
  10. Punicalagin and Ketogenic Amino Acids Loaded Organic Lipid Carriers Enhance the Bioavailability, Mitochondrial β-Oxidation, and Ketogenesis in Maturing Adipocytes 🍊🥑

Conclusion

Dr. P. Subash Babu is a highly deserving candidate for the Best Researcher Award due to his significant and sustained contributions to the fields of biochemistry, molecular nutrition, and biomedical research. His work is innovative, has high translational potential, and addresses critical health issues such as obesity, diabetes, cardiovascular diseases, and cancer. His extensive publication record, interdisciplinary research, international collaborations, and role in advancing scientific knowledge make him an exemplary figure in the research community.Given his strengths, expanding his interdisciplinary approach and outreach efforts, along with potential collaborations with the industry, could further enhance the impact and applicability of his work. Nonetheless, his accomplishments thus far already mark him as a leader in his field, and his contributions continue to benefit both the scientific community and global public health.

Angeles Merino | Publichealth | Best Researcher Award

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Assoc. Prof. Dr. Angeles Merino | Publichealth | Best Researcher Award

Nursing Department , University of Huelva , Spain

La Doctora Mª de los Ángeles Merino Godoy es una destacada investigadora y profesora en el Departamento de Enfermería de la Universidad de Huelva, España. Con una sólida trayectoria académica, se ha especializado en la educación en enfermería, particularmente en el contexto de crisis globales como la pandemia de COVID-19. Su trabajo ha sido clave para abordar los retos que la enseñanza universitaria enfrentó durante la transición abrupta a la modalidad virtual. Además de su labor docente, ha sido autora de diversos estudios sobre el impacto del estrés, el agotamiento emocional y la salud mental en los estudiantes de enfermería. Su enfoque interdisciplinario y su compromiso con la innovación educativa la han establecido como una líder en el campo de la educación en salud.

Profile

Strengths for the Award

Dr. Mª de los Ángeles Merino Godoy is a highly deserving candidate for the Best Researcher Award based on several notable strengths:

  1. Pioneering Research Focus: Dr. Merino’s work addresses a critical and contemporary issue in healthcare education, particularly during the global health crisis induced by the COVID-19 pandemic. Her research on the transition from in-person to virtual education in nursing not only reflects her timely response to a global crisis but also establishes a significant body of knowledge that will shape future educational practices in healthcare disciplines.
  2. Innovative Approach: Dr. Merino has demonstrated exceptional leadership in innovating nursing education in the face of unprecedented challenges. Her research explores the effects of virtual learning on nursing students, identifying critical gaps in curriculum delivery, practical training, and student satisfaction. This innovation is particularly relevant for the ongoing development of e-learning models in health education and will undoubtedly have long-term impacts on how nursing is taught.
  3. Rigorous Methodology: The methodologies employed in Dr. Merino’s studies are robust and scientifically rigorous. Her large-scale quantitative studies (involving over 400 nursing students) are backed by comprehensive data analysis and carefully designed surveys, ensuring the reliability and validity of her findings. Her research not only presents clear insights into students’ satisfaction and challenges but also offers concrete recommendations for educational improvement.
  4. Impact on Educational Policy: Dr. Merino’s work has had a tangible impact on educational policy. By revealing the critical shortcomings of virtual learning environments, her findings have spurred discussions about integrating more effective online tools and hybrid learning models into nursing curricula. Her research also highlights the need for more personalized and technologically supported education during crises, which is of vital importance for adapting to future global challenges.
  5. Global Relevance and Recognition: The publications she has contributed to, such as in International Journal of Environmental Research and Public Health and Journal of Clinical Medicine, showcase the international recognition of her work. Dr. Merino’s research has been widely cited, indicating that her findings resonate within the academic community and beyond.
  6. Multidisciplinary Collaboration: Dr. Merino’s research is highly collaborative, reflecting her ability to work with diverse teams of experts from various disciplines such as mental health, healthcare, and technology. This multidisciplinary approach enhances the quality and scope of her studies, providing holistic insights into the challenges of nursing education during the pandemic.

Areas for Improvement

While Dr. Merino’s contributions are exemplary, there are always opportunities for growth in academic research:

  1. Expanding Qualitative Insights: Most of Dr. Merino’s research to date has relied on quantitative methods. A deeper exploration of qualitative data could complement her findings by capturing the nuanced personal experiences and emotional aspects of nursing students’ transition to online learning. Qualitative research could provide a richer understanding of how students feel about the changes in their education and how these experiences might affect their professional development.
  2. Long-Term Follow-Up: While her studies have provided valuable insights during the initial phases of the pandemic, long-term studies to track the ongoing effects of the shift to virtual learning could yield important data. This would help understand whether the issues raised, such as the lack of practical training, persist beyond the immediate pandemic period and how they evolve over time.
  3. Broader Comparative Studies: Expanding the geographical scope of her studies to include non-Spanish universities and nursing programs from a variety of socio-economic contexts would offer a broader perspective on how different educational systems adapted to the challenges posed by the pandemic. A comparative study between regions or countries with varying technological access and educational infrastructures would strengthen the generalizability of her findings.
  4. Focus on Teaching Methodologies: While her research emphasizes the technological and structural challenges faced by nursing students, a deeper exploration of how teaching methodologies themselves can be innovated for online and hybrid learning could be beneficial. Dr. Merino could focus more on pedagogical models that might specifically help bridge the gap between theoretical learning and practical application in nursing.

Education 

La Doctora Mª de los Ángeles Merino Godoy completó su Licenciatura en Enfermería en la Universidad de Huelva, donde también obtuvo su Máster en Educación en Ciencias de la Salud. Posteriormente, realizó su Doctorado en Ciencias de la Salud, con una investigación enfocada en la educación en enfermería y su adaptación a los desafíos contemporáneos. Su formación académica se complementa con múltiples cursos de gestión educativa y tecnologías aplicadas a la enseñanza. Además, ha sido parte de programas internacionales de investigación en colaboración con universidades y centros de salud de Europa, lo que le ha permitido aportar una visión global sobre la enseñanza en enfermería y su evolución frente a emergencias sanitarias. Su carrera académica y de investigación le ha permitido consolidarse como una experta en el desarrollo de nuevas metodologías pedagógicas en la enfermería.

Research Focus

La investigación de la Doctora Mª de los Ángeles Merino Godoy se centra principalmente en la educación en enfermería, con un enfoque particular en la adaptación de la enseñanza a los entornos virtuales y remotos durante la pandemia de COVID-19. Su trabajo ha abordado cuestiones clave como el estrés percibido, la salud mental de los estudiantes y la calidad educativa en situaciones de crisis. Además, ha explorado cómo la falta de interacción práctica afecta la preparación laboral de los estudiantes de enfermería, buscando soluciones innovadoras para integrar metodologías híbridas y simulaciones virtuales en el currículo académico. La resiliencia educativa y la adaptabilidad de los programas formativos frente a desafíos globales son también áreas clave de su investigación. A través de sus publicaciones, la doctora ha promovido una educación inclusiva y de calidad para las futuras generaciones de profesionales de la salud.

Publications

  1. “Nursing Education during the SARS-CoV-2 Pandemic: Assessment of Students’ Satisfaction with e-Learning Environment” 📚💻
  2. “Navigating Perceived Stress: Experiences of Nursing Students Completing Internships during the COVID-19 Pandemic in Spain” 😰💉
  3. “The Upshot of the SARS-CoV-2 Pandemic on Nursing Assistants: Evaluating Mental Health Indicators in Huelva” 🏥🧠
  4. “The influence of emotional burnout and resilience on the psychological distress of nursing students during the COVID-19 pandemic” 😔💪
  5. “Work–Family Interaction, Self-Perceived Mental Health and Burnout in Specialized Physicians of Huelva (Spain): A Study Conducted during the SARS-CoV-2 Pandemic” ⚖️🩺
  6. “Psychological discomfort in nursing degree students as a consequence of the COVID-19 pandemic” 😟📖
  7. “Gender and Tobacco Consumption among University Students” 🚭👩‍🎓
  8. “Mobile Applications and Healthy Habits of Adolescents, a Strange Couple: Pilot Study of the Efficacy of the Healthy Jeart App” 📱🍎
  9. “Confirmatory Validation of an Evaluation Instrument for Interventions Based on the Healthy Habits App Healthy Jeart with Adolescents” ✅👦👧

Conclusion

Dr. Mª de los Ángeles Merino Godoy’s contributions to the field of nursing education during the COVID-19 pandemic are nothing short of outstanding. Her innovative research, rigorous methodology, and commitment to improving nursing education place her in the top tier of researchers in this domain. She has effectively bridged the gap between education theory and practice by identifying both the challenges and potential solutions for virtual learning environments, especially for practical disciplines like nursing.Her work not only addresses an immediate need during a global health crisis but also lays the groundwork for the future of education in healthcare professions. By advocating for more robust virtual learning tools, hybrid teaching methods, and a deeper understanding of student experiences, Dr. Merino is making a profound impact on how nursing education evolves in the digital age. She is an ideal candidate for the Best Researcher Award, and her research will continue to inspire positive change within academic, healthcare, and policy-making communities for years to come.

Majed Alghamdi | Micro-electromechanical System | Best Researcher Award

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Dr Majed Alghamdi | Micro-electromechanical System | Best Researcher Award

General Manager , King Abdulaziz City for Science and Technology (KACST) , Saudi Arabia

Majed S. Alghamdi is a technology executive based in Riyadh, Saudi Arabia, with over 13 years of experience in leading innovation and research in electronics, MEMS, and sensor technologies. He holds a PhD in System Design Engineering from the University of Waterloo, Canada, and has worked extensively on technology transfer and product development. As General Manager at King Abdulaziz City for Science and Technology (KACST), he leads national security and defense projects and collaborates with global partners. Dr. Alghamdi has over 20 publications and four patents, and he has led pioneering work on gas sensors, inertial measurement units, and advanced electronics systems. He has also been actively involved in mentoring researchers and guiding industrial partnerships. His leadership extends beyond research, having organized major conferences and contributed to shaping the technology ecosystem in Saudi Arabia.

Profile

Strengths for the Award

  1. Extensive Academic and Professional Experience:
    • Dr. Alghamdi has over 13 years of experience, with significant contributions in both academic research and technology development, particularly in the areas of MEMS, sensors, IoT, and wireless sensor networks.
    • His academic background includes a Ph.D. in System Design Engineering and multiple other degrees, backed by visiting professorships at prestigious institutions like the University of California, Los Angeles (UCLA) and the University of Waterloo, Canada.
  2. Innovative Contributions to Research and Technology Development:
    • Dr. Alghamdi has authored over 20 publications, with several being cited in high-impact journals such as Physics Reports, Sensors, and Scientific Reports. His research covers a wide range of topics, including MEMS actuators, gas sensors, inertial measurement units, and electrostatic MEMS devices, which are highly relevant in today’s technological landscape.
    • His involvement in over 10 research and development projects, such as the Inertial Navigation System (INS) with SAMI and the design of high-performance IMUs, demonstrates his technical expertise and innovation in advancing cutting-edge technologies.
  3. Leadership and Mentorship:
    • As General Manager of the National Security Program and Director at KACST, Dr. Alghamdi has shown exemplary leadership in managing teams of over 120 researchers, fostering innovation, and creating synergies between local and global partners.
    • He has been instrumental in shaping the direction of research in electronics, photonics, and defense systems in Saudi Arabia, acting as both a team leader and a speaker at high-profile forums such as the Future Semiconductor Forum.
  4. Patent Portfolio and Real-World Impact:
    • With four patents to his name, Dr. Alghamdi has made tangible contributions to advancing technology, further solidifying his status as a leader in applied research.
    • The smart gas sensor and optical sensor for analyzing milk quality are examples of his work having direct applications to industry and society, impacting both safety (toxic gas detection) and health (milk quality monitoring).
  5. International Collaboration and Recognition:
    • His role in projects like the collaboration with Berkeley University on autonomous trucks, and with Saudi Aramco on hydrogen sensors, highlights his ability to lead international research initiatives and bridge gaps between academia, government, and industry.
    • His recent achievements, such as the KACST Values Award and recognition in leadership training programs (e.g., HEC Paris Leadership Course), underscore his commitment to continuous professional growth and leadership excellence.

Areas for Improvement

  1. Broader Public Engagement:
    • While Dr. Alghamdi’s work has significantly advanced technical research, there could be an opportunity to increase his public engagement, particularly in the dissemination of his research to a broader audience. Engaging more actively in science outreach, policy advocacy, and public speaking could enhance the visibility of his work.
  2. Cross-disciplinary Collaboration:
    • Dr. Alghamdi’s focus on electronics, MEMS, and sensors is highly specialized, but there might be additional value in collaborating across even more diverse fields such as artificial intelligence, machine learning, or sustainability technologies, to further expand the potential applications of his work.
  3. Increasing Citation Impact:
    • While Dr. Alghamdi’s research is cited, expanding the visibility of his work in even more high-impact journals or conferences could further enhance the recognition of his contributions in the global research community.

Education 

Dr. Majed S. Alghamdi earned a Ph.D. in System Design Engineering from the University of Waterloo, Canada, in 2018, after completing a M.A.Sc. in the same field at the same university in 2014. His academic journey began with a B.Sc. in Electrical Engineering (Electronics and Communication) from King Abdulaziz University (KAU) in 2009, Saudi Arabia. Throughout his academic career, Dr. Alghamdi has received advanced training and has been a visiting researcher and professor at top institutions. In 2014, he participated in the Winter Enrichment Program at KAUST, KSA, and served as a Visiting Professor at Solar Junction Corp. in Arizona, USA, and the Center of Excellence for Green Nanotechnologies at UCLA in 2019. His education has laid a robust foundation for his leadership in technology research, especially in electronics, sensors, and MEMS technology.

Experience 

Dr. Majed S. Alghamdi has a distinguished career spanning over 13 years, with significant leadership roles in research and technology development. Since 2009, he has been a key figure at King Abdulaziz City for Science and Technology (KACST), where he currently serves as General Manager of the National Security Program (since 2022). Previously, he held directorial roles at the National Center for Electronics and Defense Systems and the National Center for Electronics and Photonics Technology, where he led over 120 researchers, developing cutting-edge technologies in electronics, IoT, and sensor systems. Dr. Alghamdi’s work spans both technical and managerial responsibilities, including overseeing R&D projects, developing industrial partnerships, and driving national technology strategies. He has also collaborated with Berkeley University, Saudi Aramco, and SAMI on high-profile projects such as autonomous trucks and hydrogen gas sensors. Additionally, he has contributed to academia as a Research Associate Professor at KACST.

Awards and Honors 

Dr. Majed S. Alghamdi’s career is marked by several prestigious awards and honors. He received the KACST Values Award in 2022, recognizing his leadership and contributions to the Kingdom’s technological advancement. He has completed several notable executive leadership programs, including the Building Your Leadership Skills Course from HEC Paris (2023), the Effective Leadership Program (2023), and Research, Development, and Innovation (RDI) Management (2023). These achievements highlight his commitment to continuous professional development. Dr. Alghamdi has been recognized for his role as a speaker at the Future Semiconductor Forum in 2022, further solidifying his status as a thought leader. His leadership has been instrumental in advancing Saudi Arabia’s technological ecosystem, particularly in defense, electronics, and green nanotechnology. These accomplishments showcase his excellence not only in research but also in fostering collaboration between academia, government, and industry.

Research Focus 

Dr. Majed S. Alghamdi’s research spans several high-impact fields, including MEMS technology, sensor systems, electronics, and nanotechnology. He has pioneered advancements in Inertial Measurement Units (IMUs), gas sensors, and wireless sensor networks, developing cutting-edge solutions for both industrial and defense applications. His work has significant practical applications, such as in hydrogen detection for energy sectors in collaboration with Saudi Aramco, and gas sensors for detecting harmful gases in various environments. He has also been a key investigator in the Inertial Navigation System (INS) with SAMI and in projects involving autonomous vehicles in partnership with Berkeley University. Dr. Alghamdi’s research also extends to the development of optical sensors for milk quality analysis and green nanotechnology initiatives aimed at environmental sustainability. Through his work, he continues to push the boundaries of electronics and sensor technology, addressing real-world challenges with innovative solutions.

Publications

  1. Dynamics of large oscillations in electrostatic MEMS – Physics Reports (2024) 📚🧪
  2. Nano Groove and Prism-Structured Triboelectric Nanogenerators – Micromachines (2023) 💡🔬
  3. Experimental construction of force- and frequency-response curves of nonlinear resonators – Chaos (2023) 📉⚙️
  4. A low-power differential readout interface for capacitive accelerometer-based SHM applications – Analog Integrated Circuits and Signal Processing (2022) 🛠️📊
  5. Detection of Volatile Organic Compounds by Using MEMS Sensors – Sensors (2022) 🌱⚡
  6. An overview of sensors and sensing materials for heavy metals in aqueous environments – Canadian Journal of Chemical Engineering (2022) 🧪🌍
  7. An Electrostatic MEMS Roll-Pitch Rotation Rate Sensor with In-Plane Drive Mode – Sensors (2022) 🔄🔧
  8. Prospect of New AFM Probe Design Enabled by Stress Gradient – TRANSDUCERS 2021 🧲🔬
  9. Quasi-Static Pull-in: an Instability in Electrostatic Actuators – Scientific Reports (2020) ⚡📐
  10. Large oscillation of electrostatically actuated curved beams – Journal of Micromechanics and Microengineering (2020) 📏💥

Conclusion

Dr. Majed S. Alghamdi is a highly qualified candidate for the Best Researcher Award. His exceptional leadership, innovative research, contributions to the development of advanced technologies, and strong academic background make him a standout figure in the fields of electronics and sensor technologies. His ability to manage large-scale projects, mentor teams, and contribute to impactful technological advancements positions him as a leading researcher not only in Saudi Arabia but internationally.Awarding him this honor would acknowledge his significant achievements in both applied and fundamental research, and his ongoing influence in shaping the future of technology and innovation.

ADAMALI SHAH | C onverter | Best Researcher Award

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Mr. ADAMALI SHAH | Converter | Best Researcher Award

RESERACHER , KING SAUD UNIVERSITY , Saudi Arabia

N.M. Adamali Shah is an experienced Electrical Engineer and researcher with over 20 years of professional involvement in electrical systems, research, and teaching. Currently a researcher at King Saud University in Riyadh, Saudi Arabia, he focuses on power electronics and industrial drives, with an emphasis on DC-DC converters. Throughout his career, he has contributed significantly to academia, research, and the development of cutting-edge electrical systems. He has worked as an Assistant Professor in various institutions, leading courses on electrical engineering and supervising undergraduate projects. Adamali Shah’s research work has been widely recognized, with numerous publications in international journals and conferences. His goal is to apply his deep expertise and skills to drive innovation in electrical engineering and contribute to solving global energy challenges.

Profile

Strengths for the Award

  1. Extensive Research Experience: With over eight years of experience in electrical system maintenance and research, N.M. Adamali Shah has developed expertise in power electronics, industrial drives, and DC-DC converters. He has contributed significantly to the research field, publishing multiple papers in international journals and conferences.
  2. Contributions to the Field: His work on DC-DC converters, particularly in discrete averaging models for continuous and discontinuous conduction modes, demonstrates a deep understanding and innovative approach. This has led to multiple published papers, showcasing his ability to engage in meaningful research that contributes to the advancement of electrical engineering.
  3. Proven Track Record: He has successfully managed and executed various projects, such as the design of the “Motorized Mobile Car” and “PC-Based Energy Metering.” These projects not only highlight his technical expertise but also his ability to innovate solutions with real-world applications, such as preventing power theft and offering portability in industrial settings.
  4. Academic Involvement: His role as a researcher at King Saud University, coupled with his previous teaching experience, shows a commitment to both practical and theoretical aspects of electrical engineering. He has supervised final-year projects, contributed to curriculum development, and been actively involved in various academic responsibilities.
  5. Publication Impact: N.M. Adamali Shah has contributed to the academic community with notable research articles on topics such as optimization algorithms for power systems and harmonic elimination in inverters. His research has gained attention, with citations indicating the impact of his work.
  6. Collaboration and Leadership: His ability to prepare project proposals, assist with funding opportunities, and review technical research papers reflects strong leadership and collaboration skills, vital for continued success in research and academia.

Areas for Improvement

  1. Diverse Research Domains: While his expertise in DC-DC converters and energy systems is impressive, further diversification into emerging fields such as renewable energy integration, energy storage systems, or smart grid technology could broaden his research impact and relevance to current global challenges.
  2. Research Funding: While N.M. Adamali Shah has contributed to developing research proposals and preparing funding opportunities, actively seeking more high-profile grants or collaborations with industry could further enhance his research capabilities and provide additional resources for advanced projects.
  3. Public Engagement: Engaging with the wider public or industry partners through workshops, seminars, or collaborative industrial research would increase the visibility of his work and potentially lead to more applied research outcomes.

Education

N.M. Adamali Shah holds a Master of Engineering in Power Electronics and Industrial Drives from Sathyabama University, Chennai, India, where he graduated with First Class and Distinction (78.85%). He completed his Bachelor of Engineering in Electrical and Electronics Engineering from Mepco Schlenk Engineering College, Sivakasi, India, securing First Class with a score of 74.94%. Additionally, he holds a Diploma in Electrical and Electronics Engineering from Thanapadian Polytechnic, Madurai, India, with Honors (86.54%), ranking as the Topper in his batch. His education laid a strong foundation in electrical systems, power electronics, and industrial applications, enabling him to make significant contributions in both research and teaching. His master’s thesis on the “MObile roBOT” (MOBOT) and his work on energy metering reflect his interest in integrating electrical engineering with practical, real-world solutions, such as automation and energy efficiency.

Experience

N.M. Adamali Shah has more than eight years of experience in electrical engineering, spanning research, teaching, and system maintenance. He currently works as a researcher at King Saud University in Riyadh, where his focus is on discrete averaging models for DC-DC converters. Previously, he served as an Assistant Professor at various institutions, including Mohammed Sathak A.J. College of Engineering, St. Joseph’s College of Engineering, and MVJ College of Engineering, where he taught courses in electrical engineering and supervised numerous student projects. His expertise includes electrical system maintenance, energy auditing, high-tension (HT) supply management, and industrial drive control. He has also led teams and developed academic curricula. Earlier in his career, he was involved in the conversion and maintenance of HT systems and the development of practical courses to foster student skills. His leadership in both academic and technical environments has contributed to significant advancements in the institutions he worked for.

Research Focus 

N.M. Adamali Shah’s research primarily revolves around power electronics, with a particular focus on DC-DC converters and energy systems. His work involves developing discrete averaging models for converters in both Continuous Conduction Mode (CCM) and Discontinuous Conduction Mode (DCM). He uses advanced software tools like MATLAB for modeling and simulating converter circuits to enhance their efficiency and performance. His research also extends to optimization algorithms for power systems, harmonic elimination in inverters, and photovoltaic systems. His work in energy metering, which seeks to improve the accuracy and reliability of power consumption data, has real-world applications in preventing power theft and enabling remote monitoring. Shah’s contributions have resulted in several peer-reviewed publications in international journals and conferences, advancing the understanding of electrical systems and their optimization. He aims to contribute to the development of efficient, sustainable energy solutions, and to drive innovations in power electronics and industrial applications.

Publications 

  • Archimedes optimization algorithm (AOA)-Based global maximum power point tracking for a photovoltaic system under partial and complex shading conditions 🌞
  • Achieving Personalized Precision Education Using the Catboost Model during the COVID-19 Lockdown Period in Pakistan 📚
  • Aquila Optimization Based Harmonic Elimination in a Modified H-Bridge Inverter
  • Artificial jellyfish search algorithm-based selective harmonic elimination in a cascaded h-bridge multilevel inverter 🌊

Conclusion

N.M. Adamali Shah is an accomplished researcher with significant contributions to the field of electrical engineering. His innovative work in DC-DC converters and other engineering systems, combined with his academic background, positions him as a strong candidate for the Best Researcher Award. His ability to lead research projects, contribute to international publications, and make impactful innovations in practical engineering applications demonstrates his outstanding capability in the field. With continued growth in interdisciplinary research and further expansion into new technologies, N.M. Adamali Shah is poised for even greater achievements in the future.

Zengzhou Hao | Ocean Remote Sensing | Best Researcher Award

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Dr. Zengzhou Hao | Ocean Remote Sensing | Best Researcher Award

Researcher , Second Institute of Oceanography,MNR , China

Dr. Z. Hao is a renowned researcher specializing in oceanography, meteorology, and remote sensing. He currently works as a Researcher at the Second Institute of Oceanography, MNR, China, focusing on ocean optical remote sensing, sea fog early warning, and applying big data and artificial intelligence in oceanography. With a Ph.D. in Meteorology from Nanjing University of Information Science & Technology (2007), Dr. Hao has made significant contributions to environmental monitoring, particularly in sea fog and typhoon detection. He has published over 70 scientific papers, many in top-tier journals, and has been involved in satellite-based remote sensing projects such as COCTS and HY-1C. Dr. Hao is known for his interdisciplinary approach, combining atmospheric modeling, remote sensing, and AI to solve pressing oceanographic and meteorological problems. His work has important implications for disaster mitigation and environmental monitoring, particularly in coastal regions of China.

Profile

Scopus

Strengths for the Award

  1. Extensive Research Background:
    • The individual has a strong academic background with a Ph.D. in Meteorology and a B.S. in Mathematics, both from well-established institutions in China. Their doctoral research on radiation characteristics and satellite monitoring of sea fog is highly relevant to the modern field of environmental monitoring and disaster prediction.
    • The postdoctoral research on sea fog microphysical parameters and using advanced modeling systems (RAMS6.0, SHDOM) further adds depth to their expertise in ocean-atmosphere interactions.
  2. Diverse and Significant Contributions:
    • The researcher has been involved in a wide range of high-impact topics, including sea fog monitoring, typhoon detection, aerosol optical characteristics, and ocean color. Their work spans both theoretical aspects (e.g., atmospheric modeling) and practical applications (e.g., satellite remote sensing for environmental monitoring).
    • Their recent work focuses on cutting-edge topics such as ocean optical remote sensing, AI applications in oceanography, and big data, indicating a strong alignment with current trends in scientific innovation.
  3. Publication Record:
    • The researcher has an impressive list of publications, including articles in Remote Sensing, IEEE Transactions on Geoscience and Remote Sensing, and Atmospheric Environment, which are highly regarded journals in the field. These publications demonstrate a strong commitment to advancing the field of oceanography and remote sensing.
    • The individual’s work is well-cited, suggesting that their research is recognized and influential within the scientific community.
  4. Leadership and Ongoing Research:
    • As a Researcher at the Second Institute of Oceanography, MNR, since 2017, they have led and contributed to pioneering research on early warning systems for sea fog disasters, ocean optical remote sensing, and applying AI in oceanography.
    • Their role demonstrates leadership in driving forward high-priority research in oceanographic and meteorological sciences, especially as related to climate change and environmental disaster prediction.
  5. Collaborative Work:
    • The individual collaborates with various researchers in different fields (e.g., remote sensing, meteorology, and oceanography), indicating strong teamwork and interdisciplinary skills. This enhances the breadth and impact of their research.

Areas for Improvement

  1. Broader Outreach and Public Engagement:
    • While the researcher’s work is highly specialized and significant within the scientific community, increasing their visibility in public or cross-disciplinary forums (e.g., conferences, outreach programs, media) could further raise the profile of their work.
    • More direct engagement with environmental policy-making, government bodies, or global organizations could also help translate their research into practical applications, such as disaster mitigation strategies.
  2. Expansion of Research Scope:
    • Although the researcher’s work on remote sensing and sea fog is advanced, expanding into more diverse environmental phenomena (e.g., ocean acidification, coastal erosion) could help strengthen their overall impact in environmental science.
  3. Improvement in Cross-Industry Collaboration:
    • There is potential for further integration of their research with industries like fisheries, shipping, and renewable energy, where oceanographic data is crucial. Establishing stronger connections with these industries could help in developing practical, real-world applications of their findings.

Education 

Dr. Z. Hao received his Ph.D. in Meteorology in 2007 from Nanjing University of Information Science & Technology (formerly Nanjing Institute of Meteorology), under the supervision of Professors Pan Delu and Sun Zhaobo. His doctoral research, titled “Study on Radiation Characteristics and Satellite Monitoring of Sea Fog by Remote Sensing over the Yellow Sea and Bohai Sea,” was focused on developing advanced methods for monitoring sea fog and its microphysical properties using satellite data and remote sensing technologies. Prior to that, he earned a B.S. in Mathematics from the Nanjing Institute of Meteorology in 2002, working under the guidance of Professor Li Gang. Dr. Hao’s strong foundation in mathematics and meteorology, coupled with his specialized knowledge of remote sensing technologies, has enabled him to contribute substantially to the understanding and prediction of environmental hazards like sea fog and typhoons.

Experience 

Dr. Z. Hao has a diverse research career spanning over 15 years in oceanography, meteorology, and remote sensing. He is currently serving as a Researcher at the Second Institute of Oceanography, MNR, China, where he leads projects focused on ocean optical remote sensing, sea fog monitoring, and AI-driven early warning systems for environmental disasters. Before this, he worked as an Associate Researcher at the Second Institute of Oceanography, SOA, China (2009–2017), where he contributed to data analysis and processing for oceanographic and meteorological research. His earlier experience as a Postdoctoral Fellow at the same institute (2007–2009) allowed him to refine his expertise in atmospheric modeling, particularly in relation to the influence of sea fog on ocean properties using systems like RAMS6.0 and SHDOM. Throughout his career, Dr. Hao has collaborated with multiple research teams, contributing significantly to the development of remote sensing methods and applications for disaster prediction.

Research Focus 

Dr. Z. Hao’s research focuses on oceanography, meteorology, and remote sensing, with a particular emphasis on sea fog, typhoon detection, and satellite-based environmental monitoring. His work aims to improve the prediction and early warning systems for marine disasters using AI and big data analytics. A key area of his research is the use of satellite remote sensing technologies, such as HY-1C, HY-1D, and FY-4A, to study sea fog, ocean color, aerosol properties, and their impact on weather and climate patterns. Dr. Hao is also involved in ocean front identification using AI models like SQNet and has developed methodologies to improve the accuracy of sea surface temperature and aerosol retrieval. His interdisciplinary research merges atmospheric and oceanographic data, aiming to enhance the understanding of ocean-atmosphere interactions and the effects of environmental changes, with applications in climate change mitigation, disaster prevention, and environmental monitoring.

Publications

  1. The Impact of Diurnal Variability of Sea Surface Temperature on Air–Sea Heat Flux Estimation over the Northwest Pacific Ocean 🌊🌅
  2. An Optimization Method Based on Decorrelation Scales Analysis for Improving Surface Currents Retrieval From Sea Surface Temperature 🌊📈
  3. Two-channel Thermal Infrared Brightness Temperature Characteristics of Sea Fog Using FY4A Data 🌫️📡
  4. SQNet: Simple and Fast Model for Ocean Front Identification 🌊🧠
  5. The Atmospheric Correction of COCTS on the HY-1C and HY-1D Satellites 🛰️💧
  6. Evaluation of LaSRC Aerosol Optical Depth from Landsat-8 and Sentinel-2 in Guangdong-Hong Kong-Macao Greater Bay Area, China 🌫️📊
  7. A TMA-Seq2seq Network for Multi-Factor Time Series Sea Surface Temperature Prediction 🌡️🤖
  8. Radiometric Calibration Scheme for COCTS/HY-1C Based on Image Simulation from the Standard Remote-Sensing Reflectance 🖼️🔬
  9. Spatial and Temporal Variations of Aerosol Optical Thickness Over the China Seas from Himawari-8 🌫️⏳
  10. Optical Classification of Coastal Water Body in China Using Hyperspectral Imagery CHRIS/PROBA 🌊👓

Conclusion

This researcher demonstrates exceptional strengths in their field, with a well-established academic foundation, diverse and impactful research contributions, and an excellent publication record. They have been at the forefront of oceanographic and meteorological research, focusing on critical issues such as sea fog disasters, satellite monitoring, and the integration of AI in oceanography.Their leadership in these areas, combined with their innovative approach to remote sensing and environmental disaster prediction, makes them a highly suitable candidate for the Best Researcher Award. However, there is room for improvement in terms of outreach, cross-industry collaborations, and broadening the scope of their research to address even more pressing global environmental challenges.In summary, this individual’s accomplishments strongly support their candidacy for the award, and with a slight broadening of their research and more proactive public engagement, they could have an even greater impact in the field.

Muhammad Yasir Ali Khan | Power system | Best Researcher Award

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Dr. Muhammad Yasir Ali Khan | Power system | Best Researcher Award

Post Doctoral Fellow , Hohai University , China

Muhammad Yasir Ali Khan is a Post Doctorate Research Fellow at Hohai University, China, specializing in Electrical Engineering, particularly in Microgrids and Power Electronics. Born on March 13, 1992, in Pakistan, he has a strong academic and professional background in electrical engineering with expertise in power systems, renewable energy, and energy storage technologies. His work combines theoretical research with practical applications, aiming to develop efficient, sustainable, and resilient power systems. Muhammad has contributed to numerous high-impact research papers and has an international academic and industry experience. He is dedicated to advancing the field of energy engineering through his innovative research, contributing to the global transition to renewable energy solutions.

Profile

Strengths for the Award

  1. Strong Academic Background:
    • Ph.D. in Electrical Engineering from Hohai University, with a focus on Microgrids and Power Electronics.
    • M.S. and B.S. degrees in Electrical Engineering with specialization in Power Electronics and Human Machine Interface, showcasing a solid foundational knowledge in electrical engineering.
  2. Research Contributions and Publications:
    • Muhammad Yasir Ali Khan has contributed to various high-impact research papers in reputable journals like IEEE Access, Journal of Energy Storage, and IET Renewable Power Generation.
    • His research topics are cutting-edge, with contributions in areas like Microgrids, Power Electronics, Hybrid AC/DC Microgrids, Maximum Power Extraction in Photovoltaic Systems, and Sustainable Alternatives to SF6 in High Voltage Applications.
    • He has co-authored review articles and original research papers, demonstrating his ability to synthesize existing knowledge and advance new findings.
  3. Citations and Impact:
    • His papers have received a respectable number of citations, reflecting the relevance and impact of his research in the field. For instance, his paper on “Distributed Secondary Control for Islanded Microgrids” has garnered 3 citations since publication, indicating interest from the research community.
    • Another paper on maximum power extraction methods in photovoltaic systems has received 9 citations, highlighting the significance of his work in renewable energy.
  4. Interdisciplinary Expertise:
    • His research spans multiple aspects of electrical engineering, from power systems to renewable energy technologies like photovoltaics. He also explores the integration of advanced control strategies in microgrids, indicating his ability to tackle complex, interdisciplinary problems.
    • The inclusion of innovative topics such as sustainable materials in high-voltage applications (e.g., the SF6 alternative paper) demonstrates his foresight in tackling global challenges in energy systems.
  5. Leadership and Collaboration:
    • His role as a Research Assistant at COMSATS University and as a Post Doctorate Research Fellow at Hohai University demonstrates leadership qualities, including teamwork, problem-solving, and technical writing.
    • His collaborative efforts with other researchers, particularly in joint papers, highlight his strong communication and teamwork skills.
  6. Global Exposure and Contribution:
    • Muhammad has international experience, having worked in China at Hohai University and his prior experience in Pakistan with Bahria Town Private Limited. This international exposure is beneficial for networking, knowledge exchange, and collaborating on global research efforts.

Areas for Improvement

  1. Further Increase in Citation Impact:
    • While his research has garnered citations, the overall citation count could be improved. Increased visibility of his work could come from publishing in even higher-impact journals or contributing to more widely-cited reviews and seminal papers.
  2. Broader Research Network:
    • Building a broader network of collaborators across different regions or institutions could further elevate his visibility in the research community and open new avenues for cross-disciplinary collaborations.
  3. Outreach and Dissemination:
    • There may be opportunities to engage more with industry, presenting his research at major conferences or writing white papers that are more accessible to a broader audience. This could further enhance the practical application of his work, particularly in areas like microgrid systems and power electronics.
  4. Diversity in Research Topics:
    • While his focus on microgrids and power electronics is well-defined, exploring additional emerging topics (e.g., artificial intelligence in power systems, grid resilience, or energy storage technologies) could enhance his research portfolio and help stay ahead of the curve in these rapidly developing fields.

Education 

Muhammad Yasir Ali Khan completed his Ph.D. in Electrical Engineering from Hohai University, China, specializing in Microgrids and Power Electronics (2019–2023). He also holds a Master’s in Electrical Engineering from COMSATS University Islamabad, Pakistan, where he focused on Power Electronics (2016–2018). Muhammad completed his Bachelor’s in Electrical (Electronics) Engineering from COMSATS Institute of Information Technology, Pakistan, with research in Human-Machine Interfaces (2010–2014). His academic journey has been marked by rigorous research in energy systems, with a strong foundation in electronics and electrical engineering principles. During his doctoral studies, he developed expertise in the integration of renewable energy systems, advanced control methods, and microgrid technologies. His educational background, along with his research experience, has equipped him with the skills to address complex energy challenges and contribute to the development of sustainable power systems.

Experience 

Muhammad Yasir Ali Khan has accumulated valuable experience in both academic research and industry. As a Post Doctorate Research Fellow at Hohai University, he is engaged in advanced research in Microgrids and Power Electronics. Prior to this, he worked as a Research Assistant at COMSATS University Islamabad, where he contributed to projects in Power Electronics and Energy Systems (2018-2019). His industry experience includes roles as a Test Engineer (Protection) and Technical Officer at Bahria Town Private Limited, where he worked on high-voltage electrical grid stations (220/132 kV) and security systems (2014–2015). These roles allowed him to apply his technical knowledge in practical settings, further enriching his research and development capabilities. Muhammad’s academic and industry experiences enable him to bridge the gap between theory and real-world applications, particularly in renewable energy integration and microgrid systems.

Research Focus 

Muhammad Yasir Ali Khan’s research primarily focuses on Microgrids, Power Electronics, and Renewable Energy Systems. His work aims to improve the efficiency, reliability, and sustainability of energy systems through advanced control strategies and power electronics technologies. Key areas of his research include the integration of renewable energy sources such as solar and wind power into microgrids, the development of hybrid AC/DC systems, and advanced power conversion techniques for optimal energy management. His research also explores energy storage solutions, such as carbon and metal-organic framework materials, for enhancing grid stability and performance. Additionally, he investigates communication delays and secondary control schemes for islanded and grid-connected microgrids. His work on sustainable dielectric mixtures as alternatives to SF6 gas in high-voltage applications further underscores his commitment to advancing eco-friendly solutions in power systems. Muhammad’s research aims to contribute to the global shift towards sustainable, smart, and resilient energy systems.

Publications 

  1. “A comprehensive review on recent advancements in new carbon and metal-organic framework-based energy storage materials and devices” 🌱⚡
  2. “Distributed secondary frequency control scheme with A-symmetric time-varying communication delays and switching topology” 🔄🕒
  3. “Hybrid AC/DC Microgrid: Systematic Evaluation of Interlinking Converters, Control Strategies, and Protection Schemes: A Review” 🔌⚙️
  4. “Distributed Secondary Control for Islanded Microgrids Considering Communication Delays” 🌐⚡
  5. “Hybrid Maximum Power Extraction Methods for Photovoltaic Systems: A Comprehensive Review” ☀️🔋
  6. “A unified distributed hierarchical control of a microgrid operating in islanded and grid-connected modes” 🌍🔌
  7. “Dichlorodifluoromethane-carbon dioxide: A dielectric mixture as a sustainable alternative to SF6 in high-voltage applications” 💨⚡
  8. “Distributed hierarchical control strategy for multi-bus AC microgrid to achieve seamless synchronization” 🔗🔋
  9. “Design and Performance Evaluation of a Step-Up DC–DC Converter with Dual Loop Controllers for Two Stages Grid Connected PV Inverter” 🔌🌞
  10. “Design of a multiport bidirectional DC-DC converter for low-power PV applications” ⚡🔄

Conclusion

Muhammad Yasir Ali Khan is a highly promising researcher with a robust academic background and significant contributions to the fields of microgrids, power electronics, and renewable energy systems. His strong publication record, the relevance of his research topics, and his leadership abilities position him as an excellent candidate for the “Best Researcher Award.By enhancing his citation impact and continuing to expand his research network and outreach efforts, Muhammad can further strengthen his position as a leading expert in his field. His work already has a solid foundation, and with continued effort, he is likely to make even more substantial contributions to the advancement of electrical engineering and energy systems.

Nisar Ali | Polymer hybrid | Best Research Article Award

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Dr. Nisar Ali | Polymer hybrid | Best Research Article Award

Associate Professor, Huaiyin Institute of Technology, Oman

Dr. Nisar Ali is an accomplished Associate Professor at the School of Chemistry and Chemical Engineering, Huaiyin Institute of Technology, China. With a strong foundation in polymer chemistry and nanotechnology, Dr. Ali has made significant contributions to his field, focusing on the synthesis of hybrid nanomaterials for environmental and industrial applications. Known for his dedication to research and education, he has a reputation for inspiring students and advancing innovative scientific projects.

Profile

Google Scholar

Education

Dr. Ali holds a Ph.D. in Chemistry from Northwestern Polytechnical University, China (2012–2016), where he researched block copolymers for oil-water separation. His M.Phil in Fuel/Polymer Chemistry and M.Sc in Chemistry were both earned at the University of Peshawar, Pakistan, with commendable academic performance. Additionally, he completed a B.Sc in Bio-Sciences and a B.Ed in Science Education, showcasing his broad expertise in chemistry and education.

Experience

With a career spanning various esteemed positions, Dr. Ali currently serves as an Associate Professor at Huaiyin Institute of Technology, where he lectures on chemistry and supervises student research. His prior roles include a lecturer position at Bright Future International School in Qatar and an Assistant Chemist role at the Oil and Gas Development Company in Pakistan. He also worked as a Subject Specialist in Chemistry in the Education Department of KPK, Pakistan, demonstrating his robust teaching background.

Research Interests

Dr. Ali’s research encompasses polymer synthesis, composite material fabrication, and nanotechnology applications, particularly for environmental remediation and oil-water separation. His expertise includes designing nanomaterials with smart surfaces and studying the properties of interfacially active composites for efficient pollutant degradation and demulsification.

Publications Top Notes 📚

Dr. Ali’s research has been published in various high-impact journals. Notable publications include:

Preparation of flower like Co3O4/Fe3O4 magnetic microspheres for photodegradation of RhB under UV light (2013, Functional Materials Letters, IF: 2.490)

Key synthesis of magnetic Janus nanoparticles using a modified facile method (2014, Particuology, IF: 3.25)

Novel synthesis of Janus Magnetic nanoparticles and its Applications in the separation of water from heavy crude oil and water emulsion (2015, Fuel, IF: 8.035)

Interfacially active and magnetically responsive composite nanoparticles with raspberry-like structure (2015, Colloids and Surfaces A, IF: 5.518)

Monodisperse and multifunctional magnetic composite core shell microspheres for demulsification applications (2015, Journal of Chinese Chemical Society, IF: 1.967)

Iron oxide-based polymeric magnetic microspheres: from synthesis to demulsification (2015, Journal of Polymer Research, IF: 3.097)

Nisrin Alnaim | Applied physics | Best Researcher Award

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Dr. Nisrin Alnaim | Applied physics | Best Researcher Award

Assistant professor, King Faisal University, Saudi Arabia

Nisrin Alnaim is an accomplished assistant professor at King Faisal University, with a focused background in nanotechnology and polymer physics. Her significant research contributions, teaching engagements, and published works highlight her role as a leader in the interdisciplinary fields of physics and materials science. With a Ph.D. from the University of Bath, her work on electronic nanodevices has cemented her as an expert in liquid crystal research and its application in nanotechnology. She is committed to collaborative, cross-disciplinary research aimed at addressing real-world challenges in technology and science. 🌟

Profile

Scopus

Education:

Nisrin Alnaim has a robust educational background, earning her Ph.D. in physics from the University of Bath, UK, where she focused on electronic nanodevices derived from liquid crystals (2017–2021). She also completed her MSc in Physics at King Faisal University, KSA (2010–2014), with a thesis examining the effects of gamma radiation on polymer nanocomposites. Alnaim began her academic journey with a BSc in Physics with honors from the College of Education for Girls in Al-Ahsa, KSA (2004–2007). 🎓

Experience:

Nisrin Alnaim is currently serving as an assistant professor at King Faisal University, where she has been teaching and conducting research since 2021. Previously, she worked as a lecturer at the same institution (2014–2015). Her dedication to education and mentorship is evident through her involvement in various seminars, conferences, and specialized training programs, both nationally and internationally. 🏫

Research Interest:

Dr. Alnaim’s research is anchored in nanotechnology, focusing on the synthesis and application of nanomaterials using liquid crystal templates. Her interests extend to polymer science, emphasizing environmentally adaptive polymers for uses such as solar cells, storage devices, and eco-friendly packaging. Her work promotes interdisciplinary collaboration among scientists from various fields, including physics, chemistry, and engineering, aiming to develop practical solutions to complex global challenges. 🔬🌱

Publications Top Notes:

Nisrin Alnaim has published several research articles in reputable journals, contributing significantly to her field. Below are selected publications:

Almuslem, A. S., Alnaim, N., Ibrahim, S. S. & Ibrahim, M. A. (2023). Green synthesis and characteristics of cellulose nanocrystal/poly acrylic acid nanocomposite thin film for organic dye adsorption during water treatment. Polymers, 15, 2154. Link 🌊

Alfannakh, H., Alnaim, N. & Ibrahim, S. S. (2023). Thermal stability and non-isothermal kinetic analysis of ethylene–propylene–diene rubber composite. Polymers, 15, 1890. Link 🌡️

Alshoaibi, A., Hussain, F., Mohsin, F., Alnaim, N. & Almulhem, N. (2023). Different concentrations of Ti4+ as a donor and electronic properties of Bi2-xTixO3. Frontiers in Materials, 10, 1004889. Link 🔋

Alnaim, N. & Ibrahim, S. (2022). AC conductivity, dielectric and thermal properties of three-phase hybrid composite: PVA/Bi2O3/cotton microfiber composite. Materials Research Express, 9, 125307. Link

Gharbi, F., Benthami, K., Alsheddi, T., Barakat, M., Alnaim, N., et al. (2022). Structural, thermal, and optical studies of gamma irradiated polyvinyl alcohol-, lignosulfonate-, and palladium nanocomposite film. Polymers, 14, 2613. Link 💡

Nicoleta Radu | Pharmaceutical Science | Interdisciplinary Research Excellence Award

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Assoc. Prof. Dr. Nicoleta Radu | Pharmaceutical Science | Interdisciplinary Research Excellence Award

Dr.Sc.HDR, INCDCP&USAMV-B, Romania

Radu Nicoleta is a distinguished Romanian scientist specializing in life sciences and engineering. With decades of experience spanning research, development, and education, she has become an influential figure in biotechnology. Her work encompasses teaching, research, and ethical guidance, contributing significantly to both academia and applied science.

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Scopus

Education 🎓

Radu Nicoleta’s academic journey is marked by an impressive array of qualifications. She earned her Bachelor’s degree in Engineering Science in 1994, followed by a Master of Science in Inorganic Chemistry in 1995 from POLITEHNICA University of Bucharest. She completed her Ph.D. in Engineering Science in 2005 at the same university and obtained a Master of Science in Biotechnology in 2010.

Experience 🏢

With over 20 years in the field, Radu Nicoleta has held various impactful positions. Currently, she serves as an Associate Professor at the Doctoral School of Biotechnology, University of Agronomic Sciences and Veterinary Medicine of Bucharest. Since 2001, she has been a Scientist at the Biotechnology Department of INCDCP Bucharest. Additionally, she led the Education and Bioethics Commission for the Romanian Society of Bioengineering and Biotechnology from 2008 to 2020.

Research Interest 🔬

Radu Nicoleta’s research interests lie in the intersection of biotechnology, medical biotechnology, and sustainable agriculture. Her work often focuses on innovative approaches to biopreparations, microbial biosorption processes, and the development of eco-friendly biofertilizers.

Awards 🏆

Nicoleta has received recognition for her contributions as an evaluator for esteemed programs like the EU POSCEE, COST, EUREKA, and INNOWIDE. She has also been honored as a reviewer for several high-impact scientific journals, reflecting her influence in the global scientific community.

Publications  Top Notes📚

Radu Nicoleta has contributed extensively to scientific literature. Some of her notable publications include:

“Removal of copper and cobalt from diluted aqueous system by biosorption process”, Revista de Chimie (2006), cited in multiple water treatment studies. Link to article

“The effect generated by urea interaction with calcium nitrate and calcium dihidrogenophosphate”, Revista de Chimie (2007), widely referenced in fertilizer development research. Link to article

“Studies regarding using biomass in bioremediation of wastewater with heavy metal”, Revista de Chimie (2007), which advanced the understanding of eco-friendly wastewater treatment. Link to article

“Studies concerning the recovery of nutrients from industrial wastewaters as fertilizers”, Journal of Environmental Protection and Ecology (2007). Link to article

“Antimicrobial effect of Monascus sp red rice against some bacterial and fungal strains”, Chemical Engineering Transactions (2009). Link to article