Stella Girousi | Environmental Science | Women Researcher Award

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Prof Dr. Stella Girousi | Environmental Science | Women Researcher Award 

Prof Dr. Stella Girousi | Aristotle University of Thessaloniki | Greece

Prof. Dr. Stella Girousi is a Professor of Analytical Chemistry at the Aristotle University of Thessaloniki, Greece, where she has been a faculty member since 1999. She earned her PhD in Analytical Chemistry in 1996 and specializes in developing innovative electroanalytical methods, particularly voltammetric techniques and biosensors. Her research focuses on environmental, biological, and food analysis, including the detection of nucleic acids, proteins, and genotoxic compounds, as well as drug-DNA interactions and DNA methylation using advanced nanomaterials and screen-printing technologies. Prof. Girousi has published extensively in high-impact journals, significantly advancing the fields of analytical chemistry, environmental monitoring, pharmacology, and biotechnology.

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Education

Prof. Dr. Stella Girousi’s academic journey in chemistry began with a strong passion for understanding the molecular world and the invisible mechanisms shaping biological, environmental, and technological processes. She pursued advanced studies in analytical chemistry, where she cultivated her skills in chemical analysis and innovative laboratory techniques. During her doctoral studies, she focused her research on developing methods of electroanalysis, setting the foundation for her future expertise in voltammetric techniques and biosensor applications. Her early academic pursuits reflect a balance of rigorous scientific training and curiosity-driven research, which later enabled her to contribute to the advancement of electroanalytical chemistry on both theoretical and applied fronts. These formative years established her reputation as a diligent scholar with a drive for innovation in chemical sciences.

Experience

As a long-standing member of the academic staff at the Aristotle University of Thessaloniki, Prof. Girousi has played a pivotal role in advancing the mission of the Analytical Chemistry Laboratory. Her professional path is characterized by dedication to teaching, mentorship, and leadership in research initiatives. She has guided numerous students and young researchers, providing them with strong foundations in analytical chemistry and inspiring them to engage with real-world problems through scientific inquiry. Beyond her teaching contributions, Prof. Girousi has also taken part in significant institutional collaborations and interdisciplinary projects, enhancing the reputation of her department and strengthening links between academia, industry, and international research communities. Her academic career demonstrates a commitment to the dual roles of education and scientific innovation, nurturing the next generation while expanding the frontiers of knowledge.

Research Focus

Prof. Girousi’s research contributions have had a transformative impact on the field of electroanalytical chemistry. Her work revolves around the development of advanced voltammetric techniques for the determination of metals, utilizing mercury, carbon, and mercury/bismuth thin film electrodes. A cornerstone of her research is the creation and optimization of enzymic and electrochemical DNA biosensors, which serve as highly sensitive tools for detecting nucleic acids, proteins, and genotoxic compounds.

Her investigations into drug-DNA interactions and DNA methylation have opened pathways for understanding critical biological processes, with applications in pharmacology, disease diagnostics, and personalized medicine. Furthermore, Prof. Girousi has been at the forefront of integrating nanomaterials and screen-printing technology into biosensor development, ensuring greater sensitivity, miniaturization, and cost-effectiveness. By bridging electrochemistry with biotechnology, her work not only enhances analytical capabilities but also addresses urgent challenges in environmental monitoring, food safety, and healthcare innovation.

Accolades and Recognition

Prof. Girousi’s career has been marked by recognition from both the academic and scientific communities. Her extensive publication record in leading international journals underscores her influence and credibility in the domain of analytical chemistry. She is also associated with scientific platforms such as ORCID, Scopus, and SciProfiles, which further highlight the visibility and global reach of her research contributions. Beyond formal acknowledgments, her recognition is evident in the trust placed in her expertise by peers, students, and collaborators. Her standing as a professor at one of Greece’s most prestigious universities reflects her stature as both an educator and a pioneering researcher.

Impact and Influence

The impact of Prof. Girousi’s work extends well beyond the laboratory. Her contributions to biosensor technology and electroanalytical chemistry have shaped methodologies used in environmental protection, food quality assurance, and medical diagnostics. By introducing new approaches to detecting trace metals and biologically active molecules, she has provided tools that are both practical and highly reliable. These innovations not only benefit scientists and industries but also contribute to improving public health and environmental sustainability. Her mentorship has produced a generation of researchers who carry forward her values of precision, creativity, and interdisciplinary collaboration, thereby multiplying the reach of her influence.

Publications 

Study of interactions between DNA-ethidium bromide (EB) and DNA-acridine orange (AO), in solution, using hanging mercury drop electrode (HMDE).

Author: IC Gherghi, ST Girousi, AN Voulgaropoulos, R Tzimou-Tsitouridou
Journal: Talanta
Year: 2003

pH: principles and measurement.

Author: S Karastogianni, S Girousi, S Sotiropoulos
Journal: Encyclopedia of food and health
Year: 2016

An Electrochemical Sensor Based on Reduced Graphene Oxide, Gold Nanoparticles and Molecular Imprinted Over‐oxidized Polypyrrole for Amoxicillin Determination.

Author: H Essousi, H Barhoumi, S Karastogianni, ST Girousi
Journal: Electroanalysis
Year: 2020

Conclusion

Prof. Dr. Stella Girousi stands as a distinguished figure in the field of analytical chemistry, combining academic excellence, research innovation, and dedicated mentorship. Her pioneering work in voltammetric techniques and biosensor development has significantly advanced applications across environmental science, biotechnology, food safety, and medical diagnostics. Beyond her scientific achievements, she has shaped generations of scholars through her teaching and guidance, leaving a strong educational legacy. With her continued commitment to innovation and collaboration, Prof. Girousi remains a driving force in shaping the future of analytical chemistry, ensuring her influence will resonate in both scientific progress and societal benefit for years to come.

Jung Dae Lee | Toxicometabolomics | Best Researcher Award | 13625

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Dr. Jung Dae Lee | Toxicometabolomics | Best Researcher Award

Dr. Jung Dae Lee | Dankook University | South Korea 

Dr. Jung Dae Lee, Ph.D., is a Research Professor at the College of Pharmacy, Dankook University, South Korea. His research focuses on human risk assessment of hazardous chemicals, toxicokinetics, and the discovery of biomarkers for pulmonary, hepatic, and other toxicities using metabolomics and multi-omics approaches. With a strong academic foundation from Soonchunhyang University (B.S.), Sungkyunkwan University (Ph.D.), and extensive experience at Dankook University, Dr. Lee has contributed significantly to toxicology and pharmacology research. He has authored numerous high-impact publications on chemical safety, cosmetics, herbal medicine, and toxicometabolomics, advancing knowledge in human health risk assessment and biomarker identification.

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Education

Dr. Jung Dae Lee’s academic journey began with a deep interest in life sciences, laying the groundwork for his future in toxicology and pharmacology. His undergraduate studies in natural sciences equipped him with the fundamental knowledge of biology and chemistry that would later evolve into specialized expertise in human health risk assessment. During these formative years, he developed a passion for understanding the biochemical interactions between chemicals and the human body, particularly focusing on how external substances could trigger internal physiological changes. This curiosity became the cornerstone of his academic pursuits, motivating him to advance into doctoral research in pharmacy, where he immersed himself in cutting-edge toxicological studies. His commitment to rigorous inquiry and scientific exploration distinguished him as a scholar prepared to contribute meaningfully to public health and safety.

Experience

Upon transitioning from his academic studies to his professional career, Dr. Lee positioned himself at the intersection of toxicology, pharmacology, and public health. As a research professor, he has worked within academic institutions renowned for their commitment to advancing pharmaceutical sciences. In his role, he not only mentors emerging researchers but also designs and executes comprehensive research projects aimed at evaluating human exposure to hazardous chemicals. His professional endeavors extend beyond the laboratory, involving collaboration with colleagues across disciplines to integrate toxicology with regulatory science, ensuring that his findings inform safer guidelines for the use of chemicals in everyday products. Through his work, he has become a key figure in bridging experimental science with societal applications, ensuring that human health remains at the forefront of toxicological research.

Research Focus

Dr. Lee’s contributions to science are both diverse and impactful, with a research focus that highlights the importance of biomarker discovery, metabolomics, and toxicokinetic studies. His pioneering work in identifying biomarkers for pulmonary and hepatic toxicity has provided essential insights into early detection methods for chemical-induced damage. By employing metabolomics and multi-omics technologies, he has advanced the understanding of how hazardous substances affect biological systems at molecular and systemic levels. His investigations into the toxicokinetics of preservatives such as parabens, triclosan, and other commonly used compounds have offered critical data on their internal exposure and potential risks. Additionally, his work on cosmetics, herbal medicines, and disinfectants has addressed pressing issues of consumer safety, often linking laboratory evidence with practical health recommendations. These contributions underscore his commitment to protecting public health through science-driven solutions.

Accolades and Recognition

Over the years, Dr. Lee has earned recognition within the scientific community for his influential research and scholarly publications. His extensive list of peer-reviewed papers, many published in respected toxicology and pharmacology journals, reflects both his academic rigor and his dedication to knowledge dissemination. His role as a co-first author and lead researcher in multiple studies highlights his leadership in collaborative research settings. The recognition he has received is not only a testament to his individual achievements but also an acknowledgment of his ability to work collectively toward solving complex scientific challenges. By consistently producing high-quality research, he has positioned himself as a respected voice in toxicological sciences, garnering respect from both academic peers and regulatory authorities.

Impact and Influence

The impact of Dr. Lee’s work extends well beyond academia, influencing public health policies, consumer safety regulations, and risk assessment frameworks. His studies on the toxic effects of cosmetic preservatives, herbal medicines, and disinfectants have provided scientific evidence that supports safer product formulation and regulatory decision-making. By addressing real-world concerns—such as the safety of cosmetics, the effects of environmental chemicals, and the risks associated with daily consumer exposure—his research has enhanced the well-being of communities while shaping industry practices. Furthermore, his integration of metabolomics in toxicology has inspired a new wave of researchers to adopt multi-omics approaches, further broadening the field’s scientific horizons. His influence continues to ripple across academic, industrial, and regulatory sectors, demonstrating the relevance and importance of his work.

Publications 

Effects of Exposure of PHMG-p, a Humidifier Disinfectant Component, on Eye Dryness: A Study on a Rat Model Based on 1H-NMR Metabolomics.

Author: Jung Dae Lee; Hyang Yeon Kim; Soo Bean Oh; Hyeyoon Goo; Kyong Jin Cho; Gi-Wook Hwang; Suhkmann Kim; Kyu-Bong Kim
Journal: International Journal of Molecular Sciences
Year: 2025

Metabolomics profiling of valproic acid-induced symptoms resembling autism spectrum disorders using 1H NMR spectral analysis in rat model.

Author: Hyang Yeon Kim; Yong-Jae Lee; Sun Jae Kim; Jung Dae Lee; Suhkmann Kim; Mee Jung Ko; Ji-Woon Kim; Chan Young Shin; Kyu-Bong Kim
Journal: Journal of Toxicology and Environmental Health
Year: 2022

Analytical method development and percutaneous absorption of propylidene phthalide, a cosmetic ingredient.

Author: Ji-Young Kim; Jueng Eun Im; Jung Dae Lee; Kyu-Bong Kim
Journal: Toxicology and Environmental Health
Year: 2021

Conclusion

In summary, Dr. Jung Dae Lee stands as a distinguished researcher whose academic dedication, professional excellence, and innovative contributions have significantly advanced the fields of toxicology, pharmacology, and human risk assessment. His pioneering work in biomarker discovery, metabolomics, and toxicokinetics not only enhances scientific understanding but also directly impacts public health, consumer safety, and regulatory practices. With a proven record of high-quality research and a vision for the future, he continues to shape both the scientific community and society at large. His career reflects a legacy of integrity, innovation, and influence, ensuring that his contributions will resonate far beyond the laboratory and inspire the next generation of scientists.

Jose J. Garcia-Trejo | Bioenergetics | Distinguished Scientist Award

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Prof. Dr. Jose J. Garcia-Trejo | Bioenergetics | Distinguished Scientist Award 

Prof. Dr. Jose J. Garcia-Trejo | National Autonomous University of Mexico | Mexico

Prof. Dr. José J. García-Trejo is a Full Professor at the National Autonomous University of Mexico (UNAM), Faculty of Chemistry, Department of Biology. His academic training and research are rooted in Biomedical Basic Research, with advanced expertise in bioenergetics, biomembranes, microbial physiology, and mitochondrial function. He has extensive teaching experience at undergraduate and postgraduate levels, offering courses in biochemistry, microbial physiology, and specialized workshops on mitochondria, oxidative phosphorylation, and ATP synthesis. Prof. García-Trejo has also conducted postdoctoral research at the University of Oregon, USA, and is fluent in Spanish, English, and Portuguese, enabling him to engage effectively in international academic collaboration.

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Education

From an early stage, Prof. Dr. José J. García-Trejo demonstrated a strong commitment to scientific learning and discovery. His educational journey began with a focus on Biomedical Basic Research at the National Autonomous University of Mexico (UNAM), where he built a strong foundation in the core areas of biochemistry, molecular biology, and cellular physiology. This early training sparked his lifelong interest in the intricate mechanisms of life at the molecular level, particularly those involving bioenergetics and cellular processes. His pursuit of advanced academic degrees provided him with a rigorous understanding of experimental design, research methodology, and scientific problem-solving. By combining theoretical learning with laboratory-based exploration, he cultivated the skills that would later position him as a leader in his field. His postdoctoral work abroad further broadened his perspective, allowing him to collaborate with distinguished scientists and strengthen his expertise in cutting-edge biochemical and molecular biology research.

Experience

Prof. García-Trejo has established himself as a respected academic leader through his long-standing association with UNAM. As a Full Professor in the Faculty of Chemistry, Department of Biology, he has been deeply engaged in both teaching and mentoring at undergraduate and postgraduate levels. His teaching portfolio includes biochemistry, microbial physiology, bioenergetics, and specialized workshops on mitochondria and ATP synthesis. Known for his clarity in explaining complex processes and his ability to adapt courses in both Spanish and English, he has made advanced scientific knowledge accessible to a diverse student body. Beyond the classroom, his professional endeavors extend to laboratory leadership, where he oversees research projects that integrate structural biology, enzymology, and microbial physiology. Through his dual commitment to teaching and research, he has shaped a generation of students and young scientists who are now contributing to academic and professional sectors worldwide.

Research Focus

The central theme of Prof. García-Trejo’s research lies in understanding the biochemical and physiological mechanisms that underpin life. His investigations focus on bioenergetics, biomembranes, oxidative phosphorylation, and ATP synthesis. A significant portion of his work explores the structure and function of microbial enzymes, including pyrophosphatases, and their roles in cellular energy regulation. He has also contributed to advancing knowledge about the mitochondrial electron transport chain and the processes that sustain cellular respiration. By bridging microbial physiology with molecular mechanisms, his research provides insights with implications for medicine, biotechnology, and bioengineering. His ability to integrate theory with practice has not only advanced scientific understanding but also provided valuable tools and methodologies for ongoing research in the field.

Accolades and Recognition

Over the course of his career, Prof. García-Trejo has earned recognition as a dedicated researcher, educator, and mentor. His academic path, marked by achievements at one of the most prestigious universities in Latin America and his postdoctoral experience abroad, has brought him professional respect in both national and international circles. His leadership in teaching and research has been acknowledged through invitations to participate in academic collaborations, seminars, and workshops. While he remains deeply committed to his students, his contributions to the global scientific community have also been widely recognized. His ability to balance academic rigor with mentorship reflects the respect he commands within his institution and beyond.

Impact and Influence

Prof. García-Trejo’s influence extends far beyond his laboratory and classrooms. Through his teaching, he has inspired countless students to pursue careers in biochemistry, molecular biology, and related fields. Many of his mentees have gone on to become researchers and professionals who continue to expand upon the scientific questions he has championed. His research contributes not only to academic understanding but also to practical applications in health, energy, and biotechnology. By fostering scientific curiosity and critical thinking, he has strengthened UNAM’s role as a hub of innovation and learning. Internationally, his collaborations and multilingual proficiency have enabled him to connect with researchers worldwide, contributing to the cross-pollination of ideas and methodologies across disciplines.

Publications

Structure of dimeric mitochondrial ATP synthase: Novel F0 bridging features and the structural basis of mitochondrial cristae biogenesis.

Author: F Minauro-Sanmiguel, S Wilkens, JJ García
Journal: Proceedings of the National Academy of Sciences
Year: 2005
Citation: 252

A missense mutation of cytochrome oxidase subunit II causes defective assembly and myopathy.

Author: S Rahman, JW Taanman, JM Cooper, I Nelson, I Hargreaves, B Meunier
Journal: The American Journal of Human Genetics
Year: 1999
Citation: 171

Structure, functioning, and assembly of the ATP synthase in cells from patients with the T8993G mitochondrial DNA mutation: comparison with the enzyme in Rho0 cells completely.

Author: JJ Garcı́a, I Ogilvie, BH Robinson, RA Capaldi
Journal: Journal of Biological Chemistry
Year: 2000
Citation: 155

Conclusion

Prof. Dr. José J. García-Trejo embodies the ideal blend of passionate educator, innovative researcher, and dedicated mentor. His academic journey reflects a lifelong pursuit of excellence, from his foundational training in Biomedical Basic Research to his impactful contributions in bioenergetics, biomembranes, and microbial physiology. Through his professional endeavors at UNAM and beyond, he has influenced countless students, advanced international scientific collaborations, and strengthened the role of biochemical sciences in addressing fundamental questions of life. His legacy is not only in his scientific discoveries but also in the thriving community of scholars he has inspired. Looking ahead, his ongoing work promises to deliver new insights and open pathways for innovation, ensuring that his influence continues to shape both present and future generations of scientists.

Delara Akhter | Bioinformatics | Best Researcher Award

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Dr. Delara Akhter | Bioinformatics | Best Researcher Award

Dr. Delara Akhter | Sylhet Agricultural University | Bangladesh

Dr. Delara Akhter, Professor at Sylhet Agricultural University, Bangladesh, is a distinguished researcher with over 14 years of contributions in Genetics and Plant Breeding. She has completed 6 research projects, with 2 ongoing, published extensively in reputed journals, authored 2 books, and earned over 425 citations with an h-index of 12. Her research spans stress physiology, organelle interactions, and bioinformatics, fostering advancements in crop improvement. A dedicated teacher, mentor, and collaborator with international institutions, Dr. Akhter exemplifies academic excellence and innovation, making her a strong candidate for the Best Research Award.

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Education

Dr. Delara Akhter’s journey in the field of agricultural sciences began with a deep-rooted curiosity about the genetic mechanisms that shape plant life. From an early stage, she cultivated a keen interest in molecular biology and genetics, recognizing their potential to address pressing agricultural challenges. Her academic pursuits were driven by a passion for understanding how plants respond to stress, adapt to their environment, and can be improved through breeding and biotechnology. With a strong foundation in genetics and plant breeding, she steadily built her expertise, laying the groundwork for an inspiring career as a researcher, educator, and mentor. Her academic path reflects perseverance, intellectual curiosity, and a lifelong dedication to advancing agricultural innovation.

Experience

In her professional journey, Dr. Akhter has established herself as a respected Professor at Sylhet Agricultural University, where she combines teaching excellence with impactful research. Her professional endeavors extend beyond the classroom as she has guided undergraduate and postgraduate students with a balanced mix of theoretical knowledge and practical insight. She has successfully completed several research projects and continues to engage in new ones that explore the dynamic interactions of genetics, physiology, and environmental stresses in plants. As a department leader, she has promoted academic excellence, supported faculty development, and created a stimulating research culture. Through international collaborations with renowned scientists in China and Japan, she has expanded the reach of her work while fostering knowledge exchange across borders.

Research Focus

Dr. Akhter’s research has significantly contributed to plant science, particularly in plant breeding, stress physiology, organelle interaction, genetics, and bioinformatics. Her studies shed light on how plants respond to abiotic stresses, offering pathways for developing resilient crop varieties. By integrating advanced genetic tools with traditional breeding practices, she aims to enhance productivity and sustainability in agriculture. Her research findings have been disseminated through leading journals such as Gene, The Plant Journal, and The Crop Journal, where they have been widely cited by peers. In addition to journal publications, she has authored books with ISBN recognition, providing valuable references for researchers and students. She also contributes as a reviewer for reputed journals, ensuring the integrity and quality of scientific publications in her field.

Accolades and Recognition

Over the years, Dr. Akhter’s scholarly achievements have earned her recognition both locally and internationally. With more than 425 citations and a commendable h-index, her research has gained visibility and impact within the global scientific community. Her contributions to genetics and plant breeding are acknowledged not only through her publications but also through her membership in professional bodies such as GNOBB. As an academic leader, she is valued for her mentorship and guidance, having inspired many students to pursue advanced studies and careers in plant sciences. Her collaborations with international institutions further reflect her recognition as a trusted and respected partner in agricultural research.

Impact and Influence

The impact of Dr. Akhter’s work extends well beyond academia. By addressing key issues such as plant stress physiology and genetic improvement, her research supports agricultural sustainability and food security — challenges that are of critical importance in today’s world. She has influenced policy discussions and practical agricultural strategies through her publications, while also shaping young scientists who carry forward her legacy of rigorous inquiry. Her mentorship has produced a ripple effect, creating a new generation of scholars and practitioners equipped with the knowledge and skills to tackle future challenges. Her contributions to international collaborations also reflect her role in bridging scientific communities and fostering global solutions.

Publications

A rice gene, OsPL, encoding a MYB family transcription factor confers anthocyanin synthesis, heat stress response and hormonal signaling.

Author: D Akhter, R Qin, UK Nath, J Eshag, X Jin, C Shi
Journal: Gene
Year: 2019
Citation: 50

A Comprehensive Review of C. capsularis and C. olitorius: A Source of Nutrition, Essential Phytoconstituents and Pharmacological Activities.

Author: A Biswas, S Dey, S Huang, Y Deng, ZM Birhanie, J Zhang, D Akhter, L Liu
Journal: Antioxidants
Year: 2022
Citation: 41

LTBSG1, a New Allele of BRD2, Regulates Panicle and Grain Development in Rice by Brassinosteroid Biosynthetic Pathway.

Author: R Qin, D Zeng, C Yang, D Akhter, M Alamin, X Jin, C Shi
Journal: Genes
Year: 2019
Citation: 29

Conclusion

In every facet of her career, Dr. Delara Akhter embodies the qualities of a visionary researcher, dedicated teacher, and committed mentor. Her academic pursuits, professional achievements, and impactful research have not only advanced the field of genetics and plant breeding but have also empowered countless students and collaborators worldwide. By bridging science with practical agricultural solutions, she continues to address pressing challenges of sustainability and food security. With a legacy already established and a future filled with promise, Dr. Akhter stands as a beacon of excellence, innovation, and inspiration in agricultural science.

Xinyang Song | Remote Sensor | Excellence in Research Award

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Mrs. Xinyang Song | Remote Sensor | Excellence in Research Award

Mrs. Xinyang Song | Beijing Institute of Space Mechanics and Electronics | China

Mrs. Xinyang Song, Senior Engineer at the Beijing Institute of Space Mechanics and Electronics, has made significant contributions to the field of thermal control technology for optical remote sensors. Her work focuses on the development of advanced low-temperature thermal control systems and precise temperature regulation for large-aperture, high-resolution optical instruments, ensuring stability and accuracy in remote sensing applications. Through her research and innovations, she has advanced the reliability of space-borne sensors, directly supporting progress in aerospace engineering and remote sensing technology.

Author Profile

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Education

From an early stage, Mrs. Xinyang Song demonstrated a strong interest in engineering sciences and applied technology, with a keen curiosity about how precision and innovation drive advancements in aerospace. Her academic journey was marked by an exceptional ability to connect theoretical concepts with practical applications, particularly in the fields of mechanics, electronics, and thermal systems. These foundations provided her with the knowledge and confidence to explore thermal control technology as a specialized discipline. Driven by a passion for scientific exploration, she laid the groundwork for a professional career dedicated to enhancing remote sensing instruments that play a crucial role in space missions.

Experience

As a Senior Engineer at the Beijing Institute of Space Mechanics and Electronics, Mrs. Song has been deeply engaged in projects involving the thermal control design of remote sensors. Her professional endeavors emphasize tackling highly complex challenges related to the stability, sensitivity, and reliability of spaceborne instruments. She has focused on the development of low-temperature thermal control systems as well as precise temperature regulation for large-aperture, high-resolution optical sensors. These efforts are not only technical achievements but also represent valuable contributions to China’s advancement in space technology. Her career reflects a blend of dedicated research, problem-solving ability, and innovation that continues to inspire peers and young researchers.

Research Focus

Mrs. Song’s core research lies in the thermal management of advanced optical remote sensing devices. Recognizing that even slight variations in temperature can affect the accuracy of large-aperture optical sensors, she has pioneered innovative thermal control solutions to ensure both performance and stability. Her studies have supported the creation of sensors that operate under extreme conditions, enabling the collection of reliable and precise data from space. Beyond technology development, she has contributed to broader scientific missions by providing thermal control strategies that improve sensor lifespans, energy efficiency, and mission reliability. Her expertise positions her as a leader in the intersection of thermal science and aerospace engineering, a field critical for future exploration and monitoring applications.

Accolades and Recognition

Mrs. Song’s dedication to her profession has earned her recognition within her institution and among the wider scientific community. She has been regarded as a driving force behind significant advancements in thermal control technology for optical instruments, and her innovative approaches have been cited as examples of excellence in applied research. Her work has not only strengthened the research capacity of her institution but also contributed to the development of China’s standing in the field of space science and technology. While her achievements speak for themselves, her recognition is also reflected in her leadership, mentorship, and collaborative spirit across multiple projects.

Impact and Influence

The impact of Mrs. Song’s research extends far beyond laboratory success. Her innovations have contributed to enhanced imaging capabilities for remote sensors, providing benefits for environmental monitoring, disaster management, climate research, and resource mapping. These applications have direct influence on society by offering precise data critical to decision-making and sustainable development. Within the professional community, she has served as a role model for young engineers and researchers, encouraging them to pursue excellence in applied sciences. Her influence demonstrates the power of focused research to create advancements that serve both the scientific community and humanity at large.

Publication

Research on thermal control design of an infrared cryogenic optical remote sensor based on a low altitude orbit.

Author: Song Xinyang , Xia Chenhui , Ma Yue
Journal:  Applied Thermal Engineering
Year: 2025

Conclusion

Mrs. Xinyang Song’s journey reflects a remarkable blend of academic brilliance, professional dedication, and innovative vision. From her early academic pursuits to her pioneering research in thermal control systems for optical remote sensors, she has consistently demonstrated excellence in addressing some of the most pressing challenges in aerospace technology. Her contributions have not only advanced the precision and reliability of spaceborne instruments but have also generated broader societal impact through applications in environmental monitoring and sustainable development. With a legacy already established and a clear vision for the future, Mrs. Song stands as a distinguished researcher whose work will continue to inspire innovation, guide future generations, and strengthen global progress in space science and technology.

 

Xianfeng Yu | Animal Reproduction | Best Researcher Award

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Prof Dr. Xianfeng Yu | Animal Reproduction | Best Researcher Award

Prof Dr. Xianfeng Yu | Jilin University | China

Prof. Dr. Xian-Feng Yu is a distinguished Professor at the College of Animal Sciences, Jilin University, China, with extensive expertise in animal cloning, stem cell biology, and reproductive biotechnology. He earned his Ph.D. in Animal Science and Technology from Sunchon National University, Korea, and has made groundbreaking contributions, including cloning the world’s first red fluorescent genetically modified cat, high-yielding dairy cows, and the resurrection of a world champion camel. His research focuses on embryonic development, IVF/IVC technologies, and stem cell characterization, with over 35 high-impact publications. Prof. Yu’s pioneering work continues to advance veterinary medicine, biotechnology, and sustainable livestock improvement.

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Education

Prof. Dr. Xian-Feng Yu began his academic journey with a strong passion for veterinary sciences and animal biotechnology. His early studies provided him with a deep understanding of veterinary medicine, pathology, and clinical applications, laying the groundwork for his future in reproductive and genetic sciences. During his advanced studies, he specialized in animal reproductive physiology and molecular biology, focusing on the characterization of embryonic stem-like cells and gene cloning. His academic pursuits sharpened his expertise in the intricate mechanisms of embryonic development and stem cell behavior, fostering a mindset of innovation and scientific rigor. From the beginning, he demonstrated exceptional dedication to research, which later enabled him to explore and push the frontiers of cloning technology and reproductive biotechnology.

Experience

Prof. Yu’s professional career has been defined by both academic excellence and groundbreaking research endeavors. As a dedicated faculty member at Jilin University, he advanced from a lecturer to a full professor, training young scientists while leading pioneering projects in animal biotechnology. He also gained valuable global exposure as a visiting scholar and postdoctoral researcher at esteemed institutions, where he collaborated with leading experts in reproductive biology and biotechnology. Beyond academia, he played a crucial role in biotechnology centers abroad, spearheading projects involving animal cloning and embryo research. These diverse experiences enriched his scientific outlook and allowed him to build bridges between academia, applied science, and industrial biotechnology, strengthening his global presence as a research leader.

Research Focus

Prof. Yu’s research contributions have been pivotal in the field of animal cloning and reproductive biotechnology. His expertise spans animal cloning, in vitro fertilization and embryo culture, embryonic stem cell isolation, and molecular characterization of pluripotency genes. Among his most notable achievements is the cloning of a world champion camel, resurrected from decade-old preserved tissues, which gained global attention for its scientific and cultural significance. He also pioneered the cloning of the world’s first red fluorescent genetically modified cat, a breakthrough in transgenic animal research. Additionally, he contributed to the cloning of high-yielding dairy cows, which holds transformative potential for sustainable livestock industries. His work consistently combines molecular genetics, embryology, and biotechnology to address practical challenges in agriculture and veterinary medicine while also opening new doors in genetic engineering and conservation biology.

Accolades and Recognition

Prof. Yu’s exceptional body of work has earned him recognition both nationally and internationally. His scientific achievements, particularly in animal cloning and genetic modification, are widely cited and celebrated as breakthroughs that showcase the possibilities of modern biotechnology. By publishing extensively in high-impact journals across disciplines like reproductive biology, genetics, and molecular development, he has cemented his reputation as a thought leader. His collaborations with world-renowned scientists and contributions to high-profile projects highlight his standing in the global research community. Furthermore, his ability to translate complex scientific principles into practical applications has brought him professional acclaim and the trust of peers, institutions, and industry stakeholders.

Impact and Influence

The impact of Prof. Yu’s research extends far beyond academic circles. His pioneering work has provided transformative tools for animal breeding, livestock improvement, and the conservation of endangered species. The cloning of high-yielding dairy cows demonstrates his role in enhancing food security, while his work with camels has both economic and cultural resonance in regions that rely on these animals. His research on embryonic stem cells and transgenic animals also contributes to advancing biomedical sciences, with potential applications in regenerative medicine and genetic therapies. Moreover, as an educator and mentor, he has shaped the next generation of researchers, ensuring that his knowledge and expertise continue to influence the scientific community for years to come.

Publications

ER Stress Disrupts MFN2-Related Mitophagy via HRD1-PINK1/ Parkin Axis in Bovine Embryos.

Authors: Shu-Ming Shi; Li-Ying Liu; Zhi-Chao Chi; Lin-Yi Qu; Jing-Hang Li; Guan-Lin Jia; Yu-Yan He; Yong-Xun Jin; Ming-Jun Zhang; Xian-Feng Yu
Journal: Theriogenology
Year: 2025

Galangin Regulates Oxidative Stress Levels in Porcine Embryos Through Interaction with the Neh1 Domain of Nrf2.

Authors: Zhi-Chao Chi; Shu-Ming Shi; Li-Ying Liu; Lin-Yi Qu; Jing-Hang Li; Guan-Lin Jia; Yu-Yan He; Lin-Xuan Li; Yong-Xun Jin; Ming-Jun Zhang et al.
Journal: Antioxidants
Year: 2025

Salidroside Supplementation Affects In Vitro Maturation and Preimplantation Embryonic Development by Promoting Meiotic Resumption.

Authors: Shuming Shi; Zhaojun Geng; Xianfeng Yu; Bing Hu; Liying Liu; Zhichao Chi; Linyi Qu; Mingjun Zhang; Yongxun Jin
Journal: Genes
Year: 2023

Hydroxyurea affects in vitro porcine oocyte maturation through increased apoptosis and oxidative stress.

Authors: Wei Gao; Yongxun Jin; Jindong Hao; Siyi Huang; Dongxu Wang; Fushi Quan; Mingjun Zhang; Jiabao Zhang; Wenzhi Ren; Xianfeng Yu
Journal: Bioscience Reports
Year: 2021

Conclusion

Prof. Dr. Xian-Feng Yu stands as a pioneering figure whose career has seamlessly integrated academic rigor, innovative research, and global collaboration. From his early academic dedication to his transformative achievements in animal cloning and stem cell research, he has consistently pushed the boundaries of reproductive biotechnology. His contributions not only enhance scientific understanding but also create tangible benefits for agriculture, veterinary medicine, and biodiversity conservation. Through his mentorship and international collaborations, he continues to shape the future of biotechnology while inspiring the next generation of researchers. His legacy is one of vision, impact, and enduring commitment to advancing science for the betterment of society.

Xiyuan Huang | Computer Science | Young Innovator Award

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Ms. Xiyuan Huang | Computer Science | Young Innovator Award 

Ms. Xiyuan Huang | Beijing Union University | China 

Ms. Xiyuan Huang, a student researcher at Beijing Union University, has demonstrated exceptional academic brilliance in the field of Artificial Intelligence and time-series analysis. As the first author of a Q1 journal publication in Expert Systems with Applications (IF 7.5), she introduced TCDformer, an innovative transformer-based model for long-term sports momentum prediction, highlighting her ability to design cutting-edge deep learning architectures with real-world impact. Her contributions reflect not only technical expertise but also a forward-looking vision for advancing AI-driven sports analytics and forecasting research.

Author Profile 

Scopus

Education

From the very beginning of her academic journey, Ms. Xiyuan Huang demonstrated a natural curiosity for solving complex problems through technology. Her passion for mathematics, data patterns, and intelligent systems laid the foundation for her engagement with artificial intelligence. She immersed herself in the study of algorithms, statistics, and computational models, finding inspiration in the ability of AI to transform raw data into meaningful predictions. Her early academic focus was not only on acquiring knowledge but also on developing critical thinking skills that would later help her design innovative models. This formative phase nurtured a deep commitment to scientific inquiry, and she quickly emerged as a diligent student with a vision to merge theory with practical applications.

Experience

While still pursuing her academic degree, Ms. Huang stepped into research roles that bridged the gap between academia and applied innovation. She contributed as a student researcher at Beijing Union University, where her responsibilities extended beyond coursework to involve hands-on projects in artificial intelligence. Her professional endeavors have been defined by her ability to take theoretical frameworks and transform them into implementable solutions. By collaborating with mentors and peers, she cultivated a research style rooted in collaboration, technical precision, and forward-looking exploration. She also actively explored opportunities to work on projects that connected AI with real-world forecasting challenges, particularly in the context of sports analytics, reflecting her drive to make research impactful and relevant.

Research Focus

At the heart of Ms. Huang’s scholarly work lies her focus on artificial intelligence, deep learning architectures, and time-series forecasting. Her most distinguished contribution is the development of TCDformer, a novel transformer-based model designed for long-term sports momentum prediction. Published in the prestigious Expert Systems with Applications journal (JCR Q1, IF 7.5), this research highlights her capacity to address complex predictive tasks with elegance and efficiency. The model reflects not only technical innovation but also a fresh perspective on how AI can be leveraged to understand dynamic human behaviors such as sports performance. Beyond her publication, she has been actively engaged in refining methods of time-series analysis, creating pathways for AI-driven insights across domains including healthcare, economics, and social sciences. Her contributions emphasize innovation, methodological rigor, and a drive to explore uncharted territories of AI research.

Accolades and Recognition

Ms. Huang’s research achievements have gained recognition within academic circles for their originality and potential for real-world application. Being the first author of a high-impact international journal publication at an early career stage stands as a testament to her dedication and intellectual maturity. Her work has also drawn appreciation for bridging the divide between theoretical AI research and practical applications, particularly in sports analytics—a growing interdisciplinary field. The Academic Brilliance Recognition Award nomination further reflects the acknowledgment of her scholarly potential and innovative spirit by the wider research community. Each accolade she receives not only honors her current achievements but also sets the stage for her continued advancement in the field of AI.

Impact and Influence

The influence of Ms. Huang’s work extends well beyond her immediate academic environment. By designing TCDformer, she has opened new opportunities for sports scientists, analysts, and trainers to better understand patterns of momentum and performance. This demonstrates the transformative power of AI in reshaping traditional approaches to sports analytics. Her impact also lies in inspiring peers and fellow students to pursue bold research questions, emphasizing that impactful contributions can emerge at any stage of one’s career. Moreover, her focus on time-series forecasting provides a versatile framework that can be adapted to multiple domains, ensuring that her research has a ripple effect across disciplines. Her influence is steadily shaping a culture of curiosity, rigor, and innovation among emerging researchers.

Publications

TCDformer-based momentum transfer model for long-term sports prediction.

Author: Hui Liu, Xiyuan Huang, Jiacheng Gu

Journal: Expert Systems with Applications

Year: 2025

Conclusion

Ms. Xiyuan Huang exemplifies the qualities of a promising researcher whose work combines academic excellence, innovation, and practical relevance. Her early academic pursuits built a strong intellectual foundation, while her professional endeavors and groundbreaking contributions in AI and time-series forecasting demonstrate both skill and vision. Recognized for her achievements through publications and nominations, she continues to inspire peers and expand the impact of AI research in sports analytics and beyond. With her dedication, creativity, and forward-looking mindset, Ms. Huang is poised to make enduring contributions that will shape the future of artificial intelligence and its applications in diverse fields.

Mehrdad Esmaeilipour | Biomaterials | Best Keynote Speaker

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Mr. Mehrdad Esmaeilipour | Biomaterials | Best Keynote Speaker 

Mr. Mehrdad Esmaeilipour | Islamic Azad University of Bushehr | Iran

Mr. Mehrdad Esmaeilipour, an accomplished Electronics Engineer from Islamic Azad University of Bushehr, Iran, is recognized for his pioneering contributions to green technology, digital health, and sustainable innovation. With extensive experience as a Senior Electronics Engineer at Arya Plasma Gostar Pars Company, he has led groundbreaking projects in air purification, water filtration, and wastewater treatment using advanced plasma systems. As the founder of Parsa Pardazesh Bushehr Sanat Company, he has combined entrepreneurship with mentorship, creating opportunities for young engineers. His patented inventions, scholarly publications, and international conference contributions highlight his dedication to advancing environmental sustainability and wearable technologies, while his numerous global awards underscore his impact as an innovative researcher and leader in electronics.

Author Profile 

Education

From the very beginning of his academic journey, Mr. Mehrdad Esmaeilipour demonstrated a strong inclination toward innovation and problem-solving in the field of electronics. His educational foundation was built on a deep understanding of electronics engineering, where he honed both theoretical knowledge and practical skills. During his academic years, he immersed himself in circuit design, control systems, and automation, cultivating a passion for harnessing technology to improve human life. His early focus on robotics and applied electronics paved the way for his later breakthroughs in sustainable technologies, wearable devices, and smart systems. His academic pursuit was never limited to classrooms; he actively engaged in hands-on projects, collaborative learning, and mentoring peers, proving himself to be both a dedicated learner and an inspiring leader.

Experience

Mr. Esmaeilipour has built a distinguished professional career characterized by leadership, innovation, and a strong sense of social responsibility. As a Senior Electronics Engineer, he played a vital role in developing advanced plasma-based systems for air purification, water filtration, and wastewater treatment. His professional journey is marked by his ability to lead technical teams, manage large-scale projects, and design cutting-edge integrated circuits that enhanced efficiency and sustainability in environmental applications. Beyond engineering, his entrepreneurial spirit drove him to establish his own company, where he combined technical expertise with business acumen. This venture not only contributed to technological growth but also provided job opportunities, empowering students and young engineers to gain real-world experience. His professional endeavors reflect a balance of technical brilliance and visionary leadership.

Research Focus

At the heart of his professional identity lies an unwavering commitment to research and innovation. Mr. Esmaeilipour’s contributions span across green technology, digital health, robotics, and artificial intelligence applications in electronics. One of his most notable innovations is the conceptualization and patenting of a smart bracelet designed for visually impaired individuals, integrating artificial intelligence to enhance navigation and emergency support. His research focus extends to cold plasma technology for environmental sustainability, energy-efficient systems, and the development of intelligent controllers in robotics. He has authored several academic books on photovoltaic systems, electrical safety, and advanced control strategies, providing valuable resources to students and professionals alike. His scholarly articles further demonstrate his dedication to bridging the gap between research and practical applications, making his work influential both in academia and industry.

Accolades and Recognition

The global recognition Mr. Esmaeilipour has received stands as a testament to his exceptional contributions to science, technology, and innovation. His work has earned him multiple international awards, celebrating his advancements in wearable technology, environmental sustainability, and electronics research. From global innovation awards to honors in industry impact and academic achievement, his accolades highlight the significance of his work in addressing real-world challenges. He has also been invited as a speaker and presenter at international conferences, where his insights into artificial intelligence, cold plasma systems, and advanced control methods have inspired fellow researchers and industry leaders. These recognitions are not just symbols of personal success but also affirm his role as a driving force in shaping the future of sustainable engineering.

Impact and Influence

Beyond his technical contributions, Mr. Esmaeilipour has made a lasting impact on communities, institutions, and the global research ecosystem. Through his leadership in industrial projects, he has directly contributed to cleaner environments and safer technological practices. His entrepreneurial efforts have provided employment opportunities and fostered innovation in local industries. As a mentor, he has guided students and young engineers, encouraging them to pursue creative solutions in robotics and electronics. His published works, conference presentations, and patented inventions continue to influence researchers and practitioners worldwide, creating a ripple effect that extends far beyond his immediate projects. His influence lies not only in the technologies he has developed but also in the people he has inspired and empowered.

Publications

Design, Construction and Performance Comparison of Fuzzy Logic Controller and PID Controller for Two-Wheel Balance Robot(Smart Sensors).

Author: M Esmaeilipour, MH Zalzar
Journal: Applied Mathematics on Science and Engineering
Year: 2025

Advances and Challenges in Lithium-Ion Battery Technology

Author: M Esmaeilipour
Journal: Electrical, Mechanical, Information
Year: 2025

Conclusion

In every stage of his journey, Mr. Mehrdad Esmaeilipour has exemplified the qualities of an innovative engineer, visionary entrepreneur, and dedicated mentor. His academic foundation, professional expertise, and research contributions have consistently advanced the fields of electronics, sustainability, and digital health. The recognition he has earned worldwide reflects not only his technical brilliance but also his enduring commitment to using technology for the greater good. As he continues to push the boundaries of innovation, his legacy will be defined by the meaningful impact he leaves on industries, communities, and future generations of engineers.

Shanshan Liu | Environmental monitoring | Best Researcher Award

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Prof. Shanshan Liu | Environmental monitoring | Best Researcher Award 

Prof. Shanshan Liu | Handan University | China

Prof. Shanshan Liu, a distinguished faculty member at the College of Chemistry, Chemical Engineering and Materials, Handan University, is recognized for her impactful research in environmental materials and pollutant detection technologies. With a Ph.D. from Zhengzhou University (2023) and over 20 SCI-indexed publications, her innovative work on nano carbon dot materials has advanced applications in humidity sensing, water content analysis, heavy metal ion detection, and anti-tumor therapies. Her contributions provide valuable theoretical and practical insights for sustainable environmental monitoring and biomedical applications, marking her as a promising researcher and a strong contender for the Best Researcher Award.

Author Profile 

Scopus

Education

Prof. Shanshan Liu’s academic journey reflects her unwavering dedication to science and innovation. From her earliest studies, she demonstrated a strong curiosity about the environment and materials science, a passion that later guided her towards advanced research. Her formal training in chemistry and materials science provided her with a solid foundation to explore the complex intersections between materials, environment, and health. With a Ph.D. in materials science, she sharpened her expertise in designing advanced functional materials, with a particular focus on environmental applications. This academic background not only nurtured her scientific rigor but also inspired her to engage in forward-looking research that addresses global challenges.

Experience

Currently serving as a professor at the College of Chemistry, Chemical Engineering and Materials at Handan University, Prof. Liu plays an influential role as a teacher, mentor, and researcher. Her professional career combines academic instruction with groundbreaking research, ensuring that her students receive both theoretical knowledge and exposure to cutting-edge innovations. Through her active involvement in university-led research projects, she contributes to strengthening her institution’s academic reputation while also creating opportunities for young researchers to grow. Her work is anchored in a vision that combines environmental sustainability with material science, reflecting her dedication to both scientific excellence and societal betterment.

Research Focus

Prof. Liu’s research primarily centers on environmental materials and pollutant detection technologies. Her pioneering work with nano carbon dot materials has opened new possibilities in multiple areas. She has developed innovative approaches for detecting water content in organic solvents and monitoring air humidity with high sensitivity and precision. Furthermore, her research extends to environmental pollution control, specifically targeting the detection of heavy metal ions using carbon dot fluorescence performance. Notably, her exploration of bio anti-tumor nanomaterials marks an important interdisciplinary contribution, linking materials science with biomedical research. These studies not only address pressing environmental and health-related challenges but also establish new pathways for developing sustainable sensing technologies and novel therapeutic solutions.

Accolades and Recognition

Prof. Liu’s commitment to research excellence is reflected in her impressive academic output, with more than 20 publications in SCI-indexed journals and a citation index exceeding 200. These achievements highlight the recognition her work has received within the scientific community. She has also been entrusted with leading several funded research projects at Handan University, demonstrating the trust placed in her ability to deliver impactful outcomes. While she has yet to publish books or patents, her strong research record and continuous engagement in institutional projects illustrate her rising influence in the field. Her nomination for the Best Researcher Award further acknowledges her outstanding contributions and the promise of even greater achievements ahead.

Impact and Influence

The impact of Prof. Liu’s research extends well beyond academic publications. Her innovations in pollutant detection provide valuable insights for environmental monitoring and public health protection, offering practical solutions to urgent global issues such as water quality, air purity, and toxic exposure. Her exploration of nanomaterials for biomedical applications is also influencing future directions in cancer treatment research, showing how cross-disciplinary collaboration can lead to meaningful breakthroughs. Beyond her personal research, she serves as a role model for her students and colleagues, inspiring them with her dedication, perseverance, and vision for science as a driver of positive change.

Publications

Surface Amide–Mediated Synthesis of Bright Blue Fluorescent Carbon Dots for High-Sensitivity Detection of Hg2+ Ions.

Author: Shanshan Liu, Xiaojia Zhao, Hongying Guo, Yongfeng Cai, Tao Zhang
Journal: Luminescence
Year: 2025

The Role and Recent Progress in Hydrogen Production Using Carbon Dots-Based Photocatalysts.

Author: Shanshan Liu, Junqi Chen, Yongfeng Cai, Yunping Lai, Tao Zhang
Journal: Energy Technology
Year: 2025

Hydrothermal Synthesis of Nitrogen-Doped Carbon Dots for Selective Fe3+ Detection.

Author: Shanshan Liu, Weijie Liu, Xiuhong Chen, Yunping Lai & Tao Zhang
Journal: Fluorescence
Year: 2025

Conclusion

Prof. Shanshan Liu’s academic journey and professional contributions reflect a blend of passion, innovation, and commitment to advancing science for the benefit of society. Through her pioneering work in environmental materials and pollutant detection technologies, she has not only enriched the field of materials science but also provided practical solutions for pressing environmental and health challenges. Her growing influence, proven research excellence, and dedication to mentorship establish her as an inspiring figure in academia. With a clear vision for future breakthroughs, she stands as a deserving candidate for the Best Researcher Award, embodying both scholarly excellence and societal impact.

 

Jinhua Zhu | Separation Sciences | Best Researcher Award

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Prof Dr. Jinhua Zhu | Separation Sciences | Best Researcher Award 

Prof Dr. Jinhua Zhu | Henan University | China

Prof. Dr. Jinhua Zhu, a distinguished Professor and Doctoral/Master’s Supervisor at Henan University, is recognized as an Outstanding Youth of Henan Province. Her research centers on life separation science and the theory and application of chromatography technology, with impactful contributions in active component screening and functional drug delivery systems. She has published extensively in leading journals and has led numerous national and provincial research projects, advancing both theoretical and applied aspects of analytical chemistry.

Author Profile
Orcid

Education

Prof. Dr. Jinhua Zhu began her academic journey with a strong foundation in chemistry, cultivating an early passion for scientific inquiry and innovation. Her undergraduate studies provided her with a comprehensive understanding of core chemical principles, analytical thinking, and practical laboratory skills. This academic base ignited her curiosity in analytical chemistry, encouraging her to pursue advanced research in the field. As she progressed into doctoral studies, she immersed herself deeply in the study of separation science, chromatography, and applied chemical methodologies. Her doctoral training not only sharpened her research abilities but also nurtured her interest in solving real-world challenges related to drug discovery, environmental monitoring, and biochemical analysis. These formative years set the stage for her emergence as a respected academic, shaping her professional identity and building the foundation for her future contributions.

Experience

After completing her academic preparation, Prof. Zhu embarked on a professional journey that showcased her dedication to both teaching and research. She began her career in higher education, taking on roles that balanced classroom instruction with laboratory exploration. Her teaching portfolio has grown to include key undergraduate and graduate courses such as Instrumental Analysis, Separation Technology, and Modern Environmental Analysis Technology. Through these courses, she has not only transferred technical knowledge but also instilled scientific curiosity and critical problem-solving skills in her students. Alongside teaching, she pursued postdoctoral research, gaining deeper insights into advanced chemical analysis and international exposure through academic exchange programs. Her visiting scholarship abroad further broadened her scientific vision, allowing her to connect with global research trends and establish meaningful collaborations. Over time, her professional trajectory advanced steadily, reflecting her commitment to both academic excellence and innovative research leadership.

Research Focus

At the core of Prof. Zhu’s work lies her extensive contribution to life separation science and chromatography technology. Her research delves into both theoretical advancements and practical applications, making her work highly impactful in modern analytical chemistry. She has been particularly dedicated to the screening of bioactive components with hypoglycemic and anti-inflammatory properties, which has significant implications for therapeutic drug development. Another important dimension of her research is the construction and application of functional drug delivery systems, aimed at enhancing the effectiveness and precision of medical treatments. By combining fundamental chemical principles with applied research goals, Prof. Zhu bridges the gap between laboratory research and societal needs. Her publications in respected journals such as Separation and Purification Technology, Analytica Chimica Acta, Colloids and Surfaces B, and Talanta reflect her ability to contribute knowledge that is both novel and widely recognized in the scientific community.

Accolades and Recognition

Prof. Zhu’s academic journey has been marked by numerous awards, grants, and recognitions that highlight her leadership in chemistry and separation science. She has successfully led a variety of funded research projects, ranging from national-level grants to provincial programs that underscore her innovative contributions. Being recognized as an Outstanding Youth of Henan Province reflects not only her academic achievements but also her role as a model for emerging researchers in her region. These honors demonstrate her ability to consistently produce high-quality research, mentor the next generation of chemists, and push the boundaries of analytical methodologies. Her leadership in securing key projects at both national and provincial levels stands as testimony to her expertise, trustworthiness, and scientific vision.

Impact and Influence

The influence of Prof. Zhu extends beyond academic publications and research projects—her impact resonates within the broader scientific community and in real-world applications. Her work in drug delivery systems and natural product analysis offers pathways toward improved medical therapies, addressing health challenges such as diabetes and inflammation-related diseases. By developing innovative chromatography technologies, she has provided researchers with more efficient and precise analytical tools that can be applied in pharmaceutical, environmental, and food sciences. As a mentor and teacher, she has inspired numerous students, cultivating a culture of curiosity, discipline, and innovation in scientific practice. Her dual role as a researcher and educator ensures that her influence is both immediate in advancing scientific frontiers and long-lasting through the students she continues to guide.

Publication

Dual-monomer magnetic molecularly imprinted polymer for highly efficient luteolin separation from natural products.

Author: Yunfeng Yuan, Xiaoqi Liu, Chenjia Jiang, Haodong Zhou, Jinhua Zhu, Abdelhadi El Jaouhari, Xiuhua Liu, Minghua Lu*
Journal: Separation and Purification Technology,
Year: 2025

Three-dimensional ordered macro-microporous ZIF-8-α-Glu microreactors for α-glucosidase inhibitors screening from green tea.

Author: Xiaoqi Liu, Haodong Zhou, Chenjia Jiang, Yunfeng Yuan, Jinhua Zhu, Minghua Lu*
Journal: Talanta
Year: 2025

Phenylboronic acid functionalized magnetic ferroferric oxide nanoparticles and capillary electrophoresis for efficient isolation of flavonoid compounds from leaves of Lonicera japonica Thunb.

Author: Chenjia Jiang, Xiaoqi Liu, Yunfeng Yuan, Haodong Zhou, Jinhua Zhu, Minghua Lu*
Journal: Chromatography A,
Year: 2025

Conclusion

Prof. Dr. Jinhua Zhu stands as a leading figure in the field of analytical and separation science, with her research bridging theoretical chemistry and real-world biomedical applications. Through her pioneering work in chromatography, bioactive compound screening, and functional drug delivery systems, she has advanced both scientific knowledge and practical healthcare solutions. Her impactful publications, successful research leadership, and dedication to mentoring young scholars highlight her as a role model in academia. With continued innovation and global collaborations, Prof. Zhu’s contributions are set to leave a lasting legacy, shaping the future of separation science and strengthening its role in improving human health and well-being.