Edmundo Tulcanaza | Environmental Data Analysis | Best Researcher Award

Mr. Edmundo Tulcanaza | Environmental Data Analysis | Best Researcher Award

Universidad Politecnica De Madrid | Germany

Edmundo Tulcanaza is a seasoned mining engineer and researcher whose work bridges mining, geostatistics, resource economics, and sustainable extraction of strategic minerals. Educated at Universidad de Chile (Mining Engineering, 1966), he pursued postgraduate studies in Geostatistics & Mineral Economics at École des Mines Paris (1971), later completing an MSc in Geospatial Technologies at Universität Münster (2022), and is currently a PhD candidate at Universidad Politécnica de Madrid (2023-2026) studying ecosystems of strategic minerals. Over decades in academia and industry, he has lectured in Chile and Peru, worked as a research assistant at Harvard, been senior engineer in the USA, served as Managing Director of Mineral Resources & Mine Projects at CODELCO Chile, and since 2011 acted as senior consultant for mine asset certification, valuation, and strategic management. His research interests focus on natural capital valuation in mineral ecosystems, mine development risk, exploration decision-making, and resource/reserve reporting under international standards (e.g. NI 43-101, CRIRSCO). Among his major contributions is the book Evaluación de Recursos y Negocios Mineros. He has been awarded recognitions like the Alexander Sutulov award (Chile, 2008) and held leadership roles including in CRIRSCO. His h-index and citation counts are not publicly verified in major indexing services at this time, but his work is widely cited in mining economics and resource estimation. He continues to influence both policy and practice in sustainable mining asset reporting.

Profiles : Orcid |Scopus

Featured Publication

Tulcanaza, E. (2025). “Towards sustainable extraction of lithium-bearing brine resources: Role of natural capital in the High Andes business strategies” in Mineral Economics.”

Amirreza Abed-Elmdoust | Agricultural Data Analysis | Best Researcher Award

Assoc. Prof. Dr. Amirreza Abed-Elmdoust | Agricultural Data Analysis | Best Researcher Award

University of Tehran | Iran

Assoc. Prof. Dr. Amirreza Abed-Elmdoust is an accomplished aquaculture and aquatic sciences researcher with a Ph.D. in Engineering of Natural Resources and Aquatic Sciences from the University of Tehran. His doctoral research focused on metabolic changes in droplet vitrified semen of the endangered Persian sturgeon (Acipenser persicus). He also holds an M.Sc. from the University of Tehran and a B.Sc. from the University of Zabol, both in Natural Resources and Aquatic Sciences. Currently an Assistant Professor at the University of Tehran, Dr. Abed-Elmdoust has extensive experience in aquaculture, fish reproductive biology, cryopreservation, metabolomics, and aquatic toxicology. His prolific research includes over 30 peer-reviewed journal articles, with contributions to the fields of microplastic toxicity, fish immunology, metabolic profiling, and nanotechnology in aquaculture, amassing significant citations – 318 and an h-index -7. He has led multiple applied research projects in collaboration with environmental agencies and aquaculture companies, supervising numerous Ph.D. and M.Sc. theses. His work has been recognized for advancing sustainable aquaculture practices, innovative cryopreservation techniques, and improving fish health and productivity. Dr. Abed-Elmdoust continues to contribute to the scientific community through mentorship, high-impact publications, and applied environmental and aquaculture research.

Profile : Google Scholar

Featured Publications

“Size-dependent effects of microplastic on uptake, immune system, related gene expression and histopathology of goldfish (Carassius auratus)”

“Novel droplet vitrification combined with fish antifreeze protein type III enhances cryoprotection of semen in wild endangered Persian sturgeon Acipenser persicus (Borodin, 1897)”

“Metabolic changes in droplet vitrified semen of wild endangered Persian sturgeon Acipenser persicus (Borodin, 1997)”

“Physicochemical evaluations of chitosan/nisin nanocapsulation and its synergistic effects in quality preservation in tilapia fish sausage”

“Effect of oral administration of GnRHa+nanoparticles of chitosan in oogenesis acceleration of goldfish Carassius auratus”

XiaoQi LI | Qualitative Research | Best Researcher Award

Ms. XiaoQi LI | Qualitative Research | Best Researcher Award

Ms. XiaoQi LI | Qualitative Research – huazhong agriculture university | China

Professional Profile

SCOPUS

Education

Ms. LI XiaoQi is currently pursuing her Ph.D. in Landscape Architecture at Huazhong Agricultural University, Wuhan, China, where she focuses on spatial and ecological planning. She previously earned her Master of Landscape Architecture from South China Agricultural University, Guangzhou, where she engaged in cultural landscape studies and planning strategies. Her academic journey began with a Bachelor’s degree in Physical Geography from Hengyang Normal University, laying the foundation for her expertise in environmental systems and terrain analysis.

Experience

Ms. Li has actively contributed to multiple national and institutional research projects. Notably, she participated in a project on the spatial planning and organic renewal of rural ecological livability, funded by the Fundamental Research Funds for the Central Universities of China, where she conducted historical image interpretation, rural settlement analysis, and development strategy formulation. She was also involved in a National Natural Science Foundation project focused on the landscape zoning and spatial structure of traditional settlements in the Wuling Mountains. In addition, she has been an invited speaker at national conferences, including the 12th Landscape Architecture Conference in Henan and the Conference on National Parks and Landscape Recreation in Shanghai, presenting on topics related to agricultural landscape change and public health-oriented park design.

Research Interests

Her primary research interests lie in agricultural landscape change assessment, sustainable landscape management, and the ecological dynamics of karst mountainous regions. She specializes in the use of geographic information systems (GIS), remote sensing image analysis, and historical landscape interpretation, integrating both qualitative and quantitative data approaches. Her work seeks to enhance the understanding of land use transitions, rural revitalization, and ecological planning under environmental stressors such as drought.

Awards

Ms. Li has received numerous recognitions for her academic and project excellence. She was honored with the Three Good Graduate Student Award and the Excellent Student Cadre Award at the school level in 2023. During her master’s program, she was a recipient of the First Class Scholarship. Her design and planning capabilities have earned her the Third Prize in the Excellent Urban Planning Competition of Guangdong Province, the Silver Prize in the International Ai Jing Landscape Design Competition, and First Prizes in both the Science and Technology Innovation Competition and the Hunan Urban-Rural Planning Design Competition. Additionally, she was acknowledged as an Excellent Communist Youth League Member during her undergraduate studies.

Publications

Li, X.Q., & Li, C.F. (2024). “Changes in agricultural landscape patterns and their influencing factors in karst mountainous areas under drought stress” in Ecological Indicators (In Revision).
Li, X.Q., & Yang, Q.C. (2024). “Scientometric insights into human settlements in karst landscape areas: Trends, challenges, and future directions” in Journal of Cleaner Production (In Revision).
Li, X.Q., Yang, Q.C., Lyu, X., Ye, Y., & Zhang, B. (2023). “Multidimensional framework for analyzing the distribution patterns of traditional villages in the karst landscape regions of China” in Ecological Informatics, 77, 102184.
Li, X.Q., & Zhao, J.H. (2023). “Study on the revitalization and protection of the Southern Guangdong Ancient Post Road from the perspective of study tourism—Taking the Xijing Ancient Road as an example” in Modern Urban Research, 04, 49–54.
Zhao, J.H., & Li, X.Q. (2022). “Public participation in the construction of Auckland Botanic Garden in New Zealand” in Chinese Landscape Architecture, 38(10), 44–49.

Emerald Henry – Energy Optimization – Best Researcher Award 

Mr. Emerald Henry - Energy Optimization - Best Researcher Award 

Covenant University - Nigeria

Author Profile

Early Academic Pursuits

Mr. Emerald Henry embarked on an academic journey rooted in mechanical engineering, obtaining a Bachelor's degree from Covenant University, Nigeria. During this period, Emerald's curiosity for the intersection of engineering and data science began to flourish. For the final year project, Emerald delved into multiple approaches to model the power curve of wind turbines, culminating in the development of a state-of-the-art deep learning model. This project not only showcased Emerald's technical prowess but also resulted in a published work, underscoring the impact of the research on renewable energy technologies.

Professional Endeavors

Mr. Emerald Henry's professional career is marked by a diverse array of roles that span across multiple domains of artificial intelligence and machine learning. Currently serving as a Fullstack AI Engineer at TechWave, Emerald spearheads the development of an Autonomous Course Generator, a groundbreaking tool designed to revolutionize skill acquisition. This involves the creation of AI agents capable of curating comprehensive courses tailored to various expertise levels based on user inputs. The integration of multiple AI modules, such as course structure generators and learning video transcript generators, highlights Emerald's ability to streamline complex processes and enhance educational technologies.

Prior to joining TechWave, Emerald contributed significantly as a Data Science & ML Tutor at LCA, where the focus was on natural language processing (NLP) and the deployment of language models from HuggingFace, Google, and OpenAI. The role also involved developing AI agents and chatbots, further honing skills in MLOps practices and the orchestration of machine learning pipelines using Kubeflow.

Contributions and Research Focus

Mr. Emerald's contributions to the field of AI and ML are extensive, particularly in the healthcare sector. As a Data Scientist at Clinton Health, Emerald led the development of healthcare databases tailored for the Nigerian National Healthcare Sector. This role entailed conducting exploratory data analysis (EDA) and designing dashboards that facilitated data-driven decision-making. The creation of HTML-based tools to streamline healthcare data collection further exemplified Emerald's innovative approach to solving real-world problems.

In the realm of medical imaging, Emerald's tenure as an AI Researcher at Covenant University involved investigating fine-tuning foundation CNN models for the automated diagnosis of lesions and cancer from medical images. This research extended to exploring the application of hybrid vision transformers for classification, segmentation, and reconstruction tasks, contributing to the advancement of medical diagnostic tools. Techniques such as federated learning, contrastive learning, and knowledge distillation were leveraged, resulting in published work on their applications in medical imaging.

Accolades and Recognition

Mr. Emerald Henry's academic and professional journey is punctuated with notable accolades and recognition. The published works on vision transformers in medical imaging, fault detection in wind turbines, and neural network-based power curve models have garnered attention in the research community. These publications reflect Emerald's commitment to advancing the field through rigorous research and innovative applications of machine learning technologies.

Impact and Influence

Mr. Emerald's work has had a profound impact on multiple sectors, from education and healthcare to renewable energy. The development of the Autonomous Course Generator at TechWave has the potential to transform the way skills are acquired, making education more accessible and personalized. In healthcare, the databases and analytical tools developed have enhanced data-driven decision-making, ultimately improving patient outcomes. The innovations in wind turbine fault detection and energy forecasting contribute to the efficiency and reliability of renewable energy sources.

Legacy and Future Contributions

Looking ahead, Emerald Henry is poised to continue making significant contributions to the field of AI and ML. The ongoing projects and research initiatives demonstrate a commitment to leveraging technology for social good. Future endeavors may include further advancements in educational technologies, more sophisticated healthcare analytics tools, and continued innovation in renewable energy solutions.

Emerald's legacy will be defined by a relentless pursuit of excellence and a dedication to harnessing the power of AI to address complex challenges across various domains. The combination of technical expertise, innovative thinking, and a commitment to impactful research ensures that Emerald's contributions will continue to resonate in the field of artificial intelligence and beyond.

Notable Publication

 

Emuobosa Orijemie – Environmental Data Analysis – Best Researcher Award 

Dr. Emuobosa Orijemie - Environmental Data Analysis - Best Researcher Award 

University of Ibadan - Nigeria

Author Profile

Early Academic Pursuits

Dr. Emuobosa Akpo Orijemie began his academic journey at the University of Ibadan, Nigeria, where he earned his BSc (Hons) in Botany in 2001. His interest in environmental archaeology led him to pursue an MSc in the same field at the University of Ibadan, which he completed in 2005. He continued to deepen his expertise by obtaining a PhD in Environmental Archaeology from the same institution in 2013. His education laid a strong foundation for his future research endeavors in palynology, archaeobotany, and palaeoenvironments, particularly focusing on the tropics.

Professional Endeavors

Dr. Orijemie’s professional career is marked by a series of esteemed positions and fellowships. He began as a Lecturer in the Department of Archaeology and Anthropology at the University of Ibadan in 2010, where he was promoted to Senior Lecturer in 2019. His international experience includes a Newton International Postdoctoral Research Fellowship at the McDonald Institute for Archaeological Research, University of Cambridge, UK (2016-2017). He has also been a Visiting Researcher and Scholar at prestigious institutions such as the University of Nebraska-Lincoln and the University of Witwatersrand, South Africa.

In 2022, Orijemie expanded his teaching influence as a Visiting Lecturer in the Department of Pure and Applied Botany at the Federal University of Agriculture, Abeokuta, Nigeria. Currently, he is an Alexander von Humboldt Research Fellow at the Max Planck Institute for Geoanthropology, Jena, Germany, further enhancing his research capabilities and international collaborations.

Contributions and Research Focus

Dr. Orijemie specializes in palynology and archaeobotany, with a keen focus on studying preserved pollen, spores, phytoliths, and dinocysts to reconstruct ancient environments and human-landscape interactions. His work is pivotal in deciphering the cultural dynamics and environmental conditions of the tropics, particularly in Africa. He employs archaeobotanical evidence to investigate food pathways, addressing food security and insecurity in African rainforests.

His research integrates palaeo-science with human-ecology data, aiming to provide a comprehensive understanding of human-landscape interactions within environmental contexts. Orijemie’s interdisciplinary approach has led to significant insights into the relationship between ancient human activities and environmental changes, contributing valuable knowledge to the fields of environmental archaeology and anthropology.

Accolades and Recognition

Dr. Orijemie has been the recipient of numerous grants and awards, underscoring his contributions to his field. Notable among these are the Newton Postdoctoral Research Fellowship Funds (£99,000.00) and the McDonald Institute for Archaeological Research Fieldwork Grants (£8,500.00). His travel grants from INQUA, PALSEA, and various other institutions have facilitated his participation in international conferences and workshops, fostering global scholarly exchange.

He has also received substantial support for his research, including the MacArthur Doctoral Research Grant from the University of Ibadan (USD 2,300) and various conference travel funds from prestigious institutions such as the University of Kiel, Germany, and the International Quaternary Association (INQUA).

Impact and Influence

Dr. Orijemie’s research has had a profound impact on the understanding of palaeoenvironmental changes and human-environment interactions. His work on Holocene vegetation and climatic changes in Nigeria, published in journals like Quaternary Science Advances, provides critical insights into the historical climatic patterns and their implications for contemporary environmental issues. His interdisciplinary studies, combining palynology with archaeobotany, have advanced the knowledge of ancient agricultural practices and their environmental consequences.

His findings on the ecological consequences of iron smelting in Nigeria and the archaeobotanical legacy of agroforestry in African rainforests have been instrumental in understanding the long-term sustainability of agricultural practices. Orijemie’s research also extends to the forensic use of palynology, demonstrating its applicability in modern scientific investigations.

Legacy and Future Contributions

Dr. Orijemie’s legacy is one of pioneering research and significant academic contributions to environmental archaeology. His work continues to shape the understanding of ancient human activities and their environmental impacts, providing valuable lessons for addressing current environmental and food security challenges. As an Alexander von Humboldt Research Fellow, he is poised to further his research on human-environment interactions, potentially leading to new discoveries and methodologies.

Looking ahead, Orijemie aims to expand his interdisciplinary research, integrating more advanced technologies and collaborative approaches to further unravel the complexities of past human-environment interactions. His future contributions will likely continue to influence the fields of archaeology, anthropology, and environmental science, cementing his position as a leading figure in these disciplines.

Citations

A total of 269 citations for his publications, demonstrating the impact and recognition of her research within the academic community.

zhanpeng qin – Electrochemical energy storage – Best Researcher Award

Mr. zhanpeng qin - Electrochemical energy storage - Best Researcher Award

Tsinghua university - China

Author Profile

Early Academic Pursuits

Mr. Zhanpeng Qin's academic journey commenced with a robust foundation laid during his undergraduate years at Hohai University. There, he delved into a diverse array of subjects encompassing mechanical principles, engineering materials, and electronics, among others. This multidisciplinary approach not only broadened his knowledge base but also nurtured his innate curiosity for exploring the intersections of various fields. It was during this formative period that Qin's passion for research began to take shape, propelling him towards his current trajectory in academia.

Professional Endeavors

Upon embarking on his master's journey at Tsinghua University, Qin's academic pursuits evolved to encompass the realms of Intelligent Manufacturing. His transition to Tsinghua marked a pivotal moment in his career, where he was exposed to cutting-edge research and state-of-the-art facilities. Under the mentorship of esteemed faculty members, he honed his skills in electrochemical energy storage and machine learning, areas that would later become the focal points of his research endeavors.

Contributions and Research Focus

Mr. Qin's research primarily revolves around the health state assessment of lithium-ion batteries, a critical area within the realm of electrochemical energy storage. His seminal work, published in the prestigious Journal of Power Sources, demonstrates a groundbreaking approach that combines partial Electrochemical Impedance Spectroscopy (EIS) with interpretable machine learning techniques. This innovative methodology not only enhances the accuracy and speed of battery health estimation but also contributes to advancing the practical applications of EIS technology.

Accolades and Recognition

Mr. Qin's contributions to the field have garnered widespread recognition, as evidenced by the publication of his research in high-impact journals. His work has not only been cited extensively but has also been lauded for its significance in advancing the frontiers of electrochemical energy storage and machine learning. Furthermore, his achievements have been acknowledged through various awards and accolades, further solidifying his status as a promising young researcher in the field.

Impact and Influence

Mr. Qin's research has had a profound impact on both academia and industry, offering novel solutions to pressing challenges in the realm of energy storage. By pushing the boundaries of conventional methodologies and embracing interdisciplinary approaches, he has paved the way for transformative advancements in battery health analysis. Moreover, his collaborative efforts with industry stakeholders have facilitated the translation of his research findings into real-world applications, thus bridging the gap between theory and practice.

Legacy and Future Contributions

As Qin continues to chart new territories in his academic journey, his legacy is poised to endure through the students he mentors and the research he inspires. His commitment to excellence and innovation serves as a beacon for future generations of researchers, encouraging them to push beyond conventional boundaries and explore new frontiers. Looking ahead, Qin remains steadfast in his dedication to advancing knowledge and driving positive change, thereby shaping the future landscape of electrochemical energy storage and beyond.

In summary, Zhanpeng Qin's journey from his early academic pursuits to his current standing as a respected researcher exemplifies a trajectory marked by dedication, innovation, and impact. His contributions to the field stand as a testament to the transformative power of interdisciplinary research and serve as inspiration for aspiring scientists worldwide.

Notable Publication

 

 

Liyuan Liu – Renewable energies – Women Researcher Award 

Ms. Liyuan Liu - Renewable energies - Women Researcher Award 

Newcastle University - United Kingdom

Author Profile

Early Academic Pursuits

Ms. Liyuan Liu embarked on his academic journey at Northwestern Polytechnical University in Xi'an, China, where he pursued a Bachelor of Aeronautical Engineering, specializing in Aircraft Design from September 2010 to June 2014. This foundational period honed his technical skills and sparked an enduring interest in applying sophisticated engineering principles to real-world problems. His performance at this stage was distinguished, culminating in his recognition as an Outstanding Student Pacesetter, and being ranked 5th among undergraduates at the university in 2014.

Professional Endeavors

After completing his bachelor’s degree, Liyuan Liu continued to expand his expertise and experience across various roles that leveraged his engineering background and burgeoning interest in data science. He joined the Ministry-of-Education Key Laboratory of Fluid Mechanics in China as a Cloud HPC Engineer, where he led the development of an automated cloud platform for scientific computing. His role evolved into that of a Data Analyst at the same institution, where he applied advanced statistical methodologies to model complex, chaotic systems. Liu then pursued a Ph.D. in Engineering and Information Technology at The University of Melbourne, where he developed machine learning models for the super-resolution reconstruction of turbulent flows, significantly improving model accuracy and computation speed.

Contributions and Research Focus On Renewable energies

Ms. Liyuan Liu's research has predominantly focused on integrating machine learning with traditional engineering disciplines. His Ph.D. research at The University of Melbourne resulted in novel applications of machine learning to improve the accuracy and efficiency of simulations in turbulent flows, pertinent to renewable energy systems. This work was critical in advancing the field of engineering by incorporating AI into the analysis and design processes. Liu continued to build on this foundation through various roles post-PhD, including positions at Newcastle University and the National Institutes of Science and Technology in Rouen, France. Here, he led initiatives in forecasting chemical reactions for hydrogen and developed scalable machine learning models on cloud platforms like AWS and Google Cloud.

Accolades and Recognition

Ms. Liyuan Liu's innovative research and contributions have earned him various awards and recognition. Notably, he was a recipient of the National Scholarship from the Ministry of Education of the People’s Republic of China in 2013. He also secured top positions in the Network Mathematical Contest in Modelling in China and received an Honorable Mention in the Mathematical Contest in Modeling in the USA. His academic excellence and leadership in machine learning applications were further recognized with the Third Prize in the Australian Fluid Mechanics Society Data Visualization Competition in 2020.

Impact and Influence

Ms. Liu's work has significantly impacted the field of data science and engineering, particularly through his contributions to machine learning applications in physical systems and simulations. His research has enhanced the accuracy and efficiency of predictive models, which are critical for optimizing the performance of renewable energy systems and other complex engineering tasks. His expertise in both traditional engineering and advanced machine learning techniques positions him as a bridge between these often separate disciplines, fostering a more integrated approach in research and development.

Legacy and Future Contributions

Looking ahead, Liyuan Liu is positioned to continue making significant contributions to the fields of machine learning and engineering. His ongoing projects and collaborations indicate a commitment to advancing the integration of AI technologies in scientific and engineering applications. His future research will likely continue to focus on enhancing model accuracies and computational efficiencies, potentially revolutionizing how complex engineering problems are solved through AI. His dedication to continuous learning and adaptability suggests that he will remain at the forefront of technological advancements, contributing to both academic and practical advancements in his field.

Notable Publication

 

Muhammad Alhamid – Energy and Utilities Analytics – Best Researcher Award 

Prof. Muhammad Alhamid - Energy and Utilities Analytics - Best Researcher Award 

Universitas Indonesia - Indonesia

Author Profile

Early Academic Pursuits

Prof. Muhammad Idrus Alhamid's academic journey began with a Sarjana Teknik degree from the Mechanical Engineering Department at the University of Indonesia in 1978. Following this, he pursued his Doctorate (Dr.) at Katholieke Universiteit in Leuven, Belgium, completing his studies in 1989. His academic background provided him with a strong foundation in mechanical engineering, particularly focusing on areas such as ventilation, air conditioning, refrigeration, energy, and safety within buildings.

Professional Endeavors

Prof. Alhamid's professional career spans a diverse range of roles and responsibilities. He has served as a Professor and Researcher at the Mechanical Engineering Department of Universitas Indonesia, where he has been actively engaged in teaching and research. Additionally, he has conducted training sessions on various topics related to mechanical engineering, including ventilation and air conditioning systems, refrigeration technology, and energy efficiency.

His expertise extends beyond academia, as he has also held managerial positions within the university, including roles as Head of the Mechanical Engineering Department and various divisional leadership roles. Furthermore, Dr. Alhamid has been involved in accreditation processes for universities and has served on advisory boards related to building installations.

Contributions and Research Focus On Energy and Utilities Analytics

Prof. Alhamid's research interests revolve around sustainable energy technologies, particularly focusing on renewable energy sources and energy-efficient systems. He has been involved in numerous research projects aimed at developing renewable energy solutions such as solar thermal cooling systems, organic Rankine cycle power generation, and adsorption technology for refrigeration and cooling.

His contributions to the field also include the development of energy-efficient heat exchangers, refrigeration systems using eco-friendly refrigerants, and innovative cooling technologies for vaccine transportation in rural areas. Dr. Alhamid's research efforts align with global initiatives to mitigate climate change by reducing greenhouse gas emissions and promoting sustainable energy practices.

Accolades and Recognition

Prof. Alhamid's dedication and contributions to the field of mechanical engineering have earned him recognition both nationally and internationally. He has been an active member of professional associations such as the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) and the International Solar Energy Society (ISES). Moreover, he has received research grants from prestigious institutions and organizations to support his innovative research endeavors.

Impact and Influence

Through his extensive research, teaching, and professional engagements, Dr. Alhamid has made significant contributions to the advancement of mechanical engineering, particularly in the areas of energy efficiency and sustainable technologies. His work has not only expanded the knowledge base within the field but has also influenced policy-making and industry practices towards more sustainable and environmentally friendly solutions.

Legacy and Future Contributions

Prof. Alhamid's legacy lies in his pioneering efforts to develop sustainable energy technologies and his dedication to educating future generations of engineers. His research has laid the groundwork for continued innovation in renewable energy systems and energy-efficient technologies. As he continues to mentor students and collaborate with colleagues worldwide, Dr. Alhamid's influence on the field of mechanical engineering is sure to endure, leaving a lasting impact on academia, industry, and society as a whole.

Citations

A total of 1076 citations for his publications, demonstrating the impact and recognition of her research within the academic community.

Ajaya Behera – Green Composite Award – Best Researcher

Dr. Ajaya Behera - Green Composite Award - Best Researcher

Utkal University - India

Author Profile

Early Academic Pursuits

Dr. Ajaya Kumar Behera embarked on his academic journey with a strong foundation in chemistry. Graduating with a Master's degree from Utkal University, India, he then pursued further studies at the prestigious Indian Institute of Technology (IIT) Kharagpur. Here, he completed his M.Tech and Ph.D. degrees, delving deeper into the realms of polymer chemistry and materials science. During his formative years, Dr. Behera showcased exceptional academic prowess, qualifying the Graduate Aptitude Test in Engineering (GATE) in 2006 and the Council of Scientific and Industrial Research (CSIR) – University Grants Commission (UGC) National Eligibility Test (NET) in 2007.

Professional Endeavors

Following his academic pursuits, Dr. Behera transitioned into an illustrious career in academia. He commenced as a Lecturer in Chemistry at Rajendra Jr. College, Balangir, Odisha, where he honed his teaching skills and mentored aspiring chemists. Subsequently, he joined the esteemed P.G. Department of Chemistry at Utkal University, Bhubaneswar, India, first as an Assistant Professor (Stage I) and later progressing to Assistant Professor (Stage II). Throughout his tenure, Dr. Behera has been deeply involved in both teaching and research, nurturing the next generation of scientists while pushing the boundaries of scientific knowledge through his innovative research endeavors.

Contributions and Research Focus On Green Composite Award

Dr. Behera's research primarily revolves around the fascinating intersection of polymer science, materials chemistry, and environmental sustainability. He has made significant contributions to the development of biodegradable composites utilizing natural fibers like jute and soy-based resins. His work spans a diverse range of applications, from oil spill treatment to solid waste management, showcasing the versatility and potential impact of his research. Additionally, Dr. Behera's investigations into the synthesis and characterization of novel materials, including nano-biocomposites and conductive polymers, have garnered considerable attention within the scientific community.

Accolades and Recognition

Dr. Behera's dedication and contributions to the field of chemistry have been recognized through various prestigious awards and accolades. Notably, he was honored with the 3rd National Award for Technology Innovation in Green Polymeric Materials & Products by the Department of Chemicals & Petrochemicals, Government of India, in 2013. Furthermore, his research presentations have been lauded with awards at prominent conferences, such as the Best Poster Award at the MACRO-2010 conference held at IIT Delhi and the MTM-2020 conference at SVNIT Surat, Gujarat.

Impact and Influence

Dr. Behera's work has left a lasting impact on both academia and industry. His research findings have contributed to the development of eco-friendly alternatives to conventional materials, addressing pressing environmental concerns. Moreover, through his mentorship and academic endeavors, Dr. Behera has inspired numerous students and fellow researchers to delve into the realms of green chemistry and sustainable materials, fostering a culture of innovation and environmental stewardship.

Legacy and Future Contributions

As Dr. Behera continues his academic journey, his legacy of pioneering research and commitment to sustainability will undoubtedly endure. With a steadfast focus on addressing contemporary challenges through interdisciplinary research, he aims to further expand the frontiers of knowledge in polymer science and materials chemistry. Through his continued efforts, Dr. Behera endeavors to leave a profound and lasting impact on the scientific community, paving the way for a greener and more sustainable future.

Citations

  • Citations   364
  • h-index       11
  • i10-index    12

Notable Publication

 

 

Ghazala Aziz – Environment Award – Excellence in Research

Ms. Ghazala Aziz - Environment Award - Excellence in Research 

Saudi Electronic University - Saudi Arabia

Author Profile

Early Academic Pursuits

Ms. Ghazala Aziz commenced her academic journey with a Bachelor of Arts in Economics, followed by a Master of Arts from the esteemed Aligarh Muslim University in India. Building upon her foundational knowledge, she pursued a Doctor of Philosophy in Public Economics from the same institution. These formative years not only provided her with a robust understanding of economic theories but also instilled in her a passion for research and academia.

Professional Endeavors

Ms. Aziz's professional journey has been characterized by a dedication to teaching and scholarly inquiry. She began her teaching career at the Department of Economics, Aligarh Muslim University, India, where she taught undergraduate classes for three years. Presently, she serves as an Assistant Professor at the Saudi Electronic University (SEU), Jeddah, KSA, where she teaches both undergraduate and Masters classes in the College of Administration and Financial Sciences. Her expertise lies in various subjects including Global Economics, Statistics, Quantitative Methods, and Principles of Finance, among others.

Contributions and Research Focus On Environment Award

Ms. Aziz's research interests span a wide array of topics within the realm of economics. Her academic contributions include presentations and publications on issues such as financing human development in India, primary education policies, fiscal federalism, poverty eradication efforts, and the impact of global financial crises on India. Notably, her work reflects a keen interest in addressing socio-economic challenges, advocating for policy reforms, and exploring the intersection of economic theories with real-world issues.

Accolades and Recognition

Ms. Aziz's scholarly contributions have garnered recognition both nationally and internationally. She has presented her research findings at various prestigious conferences and seminars, demonstrating her expertise and thought leadership in the field of economics. Additionally, her published works have contributed to academic discourse and have been featured in esteemed journals and edited volumes. Such accolades attest to the quality and relevance of her research endeavors.

Impact and Influence

Through her teaching, research, and active participation in academic forums, Dr. Aziz has made a significant impact on the field of economics. Her insights into issues such as poverty alleviation, education policies, and sustainable development have not only enriched scholarly discourse but also have the potential to inform policy decisions and societal interventions. Furthermore, her role as a mentor and educator has inspired and shaped the minds of countless students, fostering a new generation of economists and policy analysts.

Legacy and Future Contributions

As Ms. Aziz continues her academic journey, her legacy is marked by a commitment to excellence in teaching, research, and service to society. Her future contributions are poised to further advance our understanding of complex economic phenomena and to propose innovative solutions to pressing global challenges. Through her interdisciplinary approach and dedication to academic rigor, Dr. Aziz is poised to leave a lasting imprint on the field of economics and contribute meaningfully to the betterment of communities worldwide.

Citations

  • Citations   211
  • h-index       9
  • i10-index    6

Notable Publication