Chenhui Yang | Phytochemistry | Best Researcher Award

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Prof. Chenhui Yang | Phytochemistry | Best Researcher Award

Prof at Northeast Forestry University, China

Prof. Chenhui Yang is a distinguished researcher at the State Key Laboratory of Utilization of Woody Oil Resource, Northeast Forestry University, China. He earned his Ph.D. in Chemical Engineering and Technology from Harbin Institute of Technology in 2020 and began his independent academic career in 2021. His research focuses on the high-value utilization of biomass-based nanomaterials and their functional optimization for sustainable energy applications, including photosynthesis enhancement, bioelectricity, and biohydrogen generation via microbial fuel cells. Prof. Yang has published in top-tier journals such as Nature Communications, Angewandte Chemie, Nano Energy, and others, reflecting the quality and impact of his work. He has secured multiple national and enterprise research grants and contributes significantly to the fields of biomaterials, green energy, and the circular economy. As a rapidly emerging scientist, Prof. Yang demonstrates exceptional potential to lead innovative, environmentally responsible solutions for global energy and sustainability challenges.

Professional Profile 

Education 🎓

Prof. Chenhui Yang received his Ph.D. in Chemical Engineering and Technology from Harbin Institute of Technology in 2020 under the supervision of Prof. Miao Yu, a renowned expert in the field. During his doctoral studies, he focused on advanced chemical processes and the development of functional materials, laying the foundation for his current research in biomass-based nanomaterials and sustainable energy technologies. His education combined rigorous theoretical training with innovative experimental approaches, equipping him with a multidisciplinary perspective that bridges chemistry, material science, and environmental engineering. Prior to his doctoral studies, he completed his undergraduate and master’s education with a strong emphasis on chemical engineering fundamentals, analytical techniques, and applied research. This academic background provided Prof. Yang with the expertise necessary to transition seamlessly into independent research. His educational journey reflects a commitment to excellence and innovation, forming the backbone of his contributions to green energy, environmental sustainability, and high-performance biomaterials.

Professional Experience 💼

Prof. Chenhui Yang holds a deep professional interest in the high-value utilization of biomass-based nanomaterials and their application in advancing sustainable technologies. His work is centered on exploring the physicochemical and photochemical properties of renewable biomaterials to enhance their performance in green energy systems, such as bioelectricity and biohydrogen production through microbial fuel cells. He is particularly focused on integrating nanotechnology and environmental engineering to develop innovative solutions that address critical challenges in clean energy generation and resource efficiency. Prof. Yang is also committed to advancing the principles of the circular economy, aiming to convert waste biomass into functional, eco-friendly materials. His research bridges chemical engineering, materials science, and biotechnology, with the overarching goal of contributing to a more sustainable and energy-resilient future. Through interdisciplinary collaboration and scientific innovation, Prof. Yang seeks to make a meaningful impact in the fields of renewable energy, biomaterials, and environmental sustainability.

Research Interest 🔬

Prof. Chenhui Yang’s research interests lie at the intersection of biomass valorization, nanotechnology, and sustainable energy systems. He is particularly focused on the development and functional optimization of biomass-based nanomaterials for use in clean and renewable energy applications. His work explores the conversion of natural biomass into high-performance materials that exhibit enhanced photo-physicochemical properties, making them suitable for photosynthetic enhancement, bioelectricity, and biohydrogen production through microbial fuel cells (MFCs). Driven by the urgent need for environmentally responsible solutions, Prof. Yang investigates how to improve the efficiency, scalability, and sustainability of these green energy systems. His research integrates principles of chemical engineering, materials science, and environmental science to design energy solutions that align with the goals of the circular economy. Ultimately, his work contributes to advancing the global transition toward renewable energy sources, with a strong emphasis on environmental friendliness, energy efficiency, and resource sustainability.

Research Skill🔎

Prof. Chenhui Yang possesses a diverse and advanced set of research skills that enable him to drive innovation in the fields of biomaterials and sustainable energy. He is highly proficient in biomass conversion techniques, nanomaterial synthesis, and characterization methods such as spectroscopy, electron microscopy, and surface analysis, which are essential for understanding the structure–function relationship of engineered materials. His expertise extends to designing and optimizing microbial fuel cells (MFCs) and other bioenergy systems, with a focus on enhancing their performance through photo-physicochemical tuning. Prof. Yang is skilled in experimental design, data interpretation, and cross-disciplinary integration, combining principles of chemical engineering, materials science, and biotechnology. He has demonstrated competence in securing and managing research grants, leading collaborative projects, and publishing in high-impact journals. His analytical thinking, problem-solving abilities, and commitment to environmentally sustainable solutions reflect the depth and applicability of his research skills in addressing global energy challenges.

Award and Honor🏆

Prof. Chenhui Yang has been the recipient of several prestigious awards and honors in recognition of his outstanding contributions to the fields of biomaterials and sustainable energy research. Since beginning his independent academic career at Northeast Forestry University, he has secured multiple national and provincial-level research grants, demonstrating the significance and impact of his scientific work. Additionally, his innovative research has attracted enterprise funding, reflecting strong industry relevance and application potential. Prof. Yang’s publications in leading international journals such as Nature Communications, Angewandte Chemie, and Nano Energy have earned him recognition among his peers and the wider scientific community. His achievements at an early stage in his career highlight both academic excellence and research leadership. These accolades affirm his status as a rising figure in green energy research, positioning him as a key contributor to the advancement of environmentally friendly technologies and the circular bioeconomy.

Conclusion📝

Prof. Chenhui Yang is highly suitable for the Best Researcher Award, especially within the domains of green energy, sustainable materials, and environmental science. His early career trajectory, high-impact publications, and relevant research scope make him a strong contender.

To further elevate his competitiveness, demonstrating broader societal engagement, mentoring impact, and international collaborations would make his profile even more compelling.

Publications Top Noted📚

  • Yang, Chenhui (Co-author)

    • Year: 2025

    • Title: Transient Force Measurement and Mechanism Analysis of Nanosecond Laser Ablation of Al/Ti Alloys Using Polyvinylidene Fluoride Sensors

    • Journal: Sensors (Switzerland)

  • Yang, Chenhui (Co-author)

    • Year: 2025

    • Title: Nitrogen-doped carbon dots enhanced pollutant degradation and bioelectricity generation in bioelectrochemical systems

    • Journal: Journal of Environmental Chemical Engineering

Anindita Ghosh Basu | Plant Biochemistry | Best Researcher Award

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Mrs. Anindita Ghosh Basu | Plant Biochemistry | Best Researcher Award

Research scholar at University of North Bengal, India

Mrs. Anindita Ghosh Basu is a dedicated research scholar in the Department of Botany at the University of North Bengal, specializing in plant stress physiology. Her academic journey reflects consistent excellence, having completed her B.Sc. and M.Sc. with distinction, followed by a B.Ed. Currently, her research focuses on the effects of micro- and nanoplastics on terrestrial plants, a pressing environmental issue. She has authored three review articles in reputed international journals such as Chemosphere and Water Research, with one original research article under review. Her scholarly contributions have garnered 36 citations, and she has actively participated in international conferences, earning a Best Poster Presentation award. Though in the early stages of her career, her research shows significant potential for real-world impact in pollution mitigation and ecological resilience. With a strong foundation and growing visibility in the scientific community, Mrs. Basu is emerging as a promising young scientist in plant environmental physiology.

Professional Profile 

Education 🎓

Mrs. Anindita Ghosh Basu has pursued a strong and consistent academic path in the field of botany. She began her education with outstanding performance, securing 83% in the Madhyamik examination. She completed her Bachelor of Science (B.Sc.) in Botany from Jhargram Raj College, where she built a solid foundation in plant sciences. Continuing her academic journey, she earned her Master of Science (M.Sc.) in Botany from Darjeeling Government College, graduating with 78% marks and a first-class distinction. To complement her scientific background with educational training, she completed a Bachelor of Education (B.Ed.), equipping herself with teaching and pedagogical skills. Currently, she is pursuing her doctoral research in the Department of Botany at the University of North Bengal. Her research focuses on plant stress physiology, particularly investigating the effects of micro- and nanoplastics on terrestrial plants. Her academic journey demonstrates diligence, discipline, and a deep commitment to scientific advancement in plant biology.

Professional Experience 💼

Mrs. Anindita Ghosh Basu is an emerging research scholar in the Department of Botany at the University of North Bengal, with a growing professional portfolio in plant environmental physiology. Her primary area of expertise lies in plant stress physiology, with current doctoral research focused on understanding the effects of micro- and nanoplastics on terrestrial plant systems. Though early in her research career, she has made commendable contributions by publishing three comprehensive review articles in reputable international journals such as Chemosphere and Water Research. She has also authored one original research article currently under review. Mrs. Basu has presented her work at two international conferences, earning the Best Poster Presentation award at one, which reflects peer recognition of her scientific rigor. In addition to her research, she maintains academic visibility through platforms like Google Scholar and ResearchGate. Her professional experience, though at a formative stage, showcases promise, dedication, and academic potential.

Research Interest 🔬

Mrs. Anindita Ghosh Basu’s research interests lie primarily in the field of plant stress physiology, with a particular focus on the impact of environmental pollutants on plant systems. Her current doctoral research explores the effects of micro- and nanoplastics on terrestrial plants, a cutting-edge and globally relevant area of study addressing the rising threat of plastic pollution in ecosystems. She is deeply interested in understanding how pollutants alter physiological, biochemical, and morphological processes in plants, aiming to uncover mechanisms of stress tolerance and resilience. Her broader interests include pollutant-induced stress responses, bioremediation, and the ecological implications of anthropogenic activities on plant health. Through her published review articles, she has also explored the influence of microplastics on aquatic flora, airborne pollutants on tree biology, and mitigation strategies through phytoremediation. Her work is driven by a passion for environmental sustainability and a commitment to using plant science to address pressing ecological challenges.

Research Skill🔎

Mrs. Anindita Ghosh Basu possesses a well-developed set of research skills rooted in experimental botany and environmental plant physiology. Her primary strength lies in designing and conducting studies related to plant responses under stress conditions, particularly from emerging pollutants like micro- and nanoplastics. She demonstrates proficiency in scientific literature review, data analysis, and critical evaluation, as evident from her three published review articles in reputed international journals. Her ability to synthesize complex scientific information and identify research gaps showcases her analytical and conceptual thinking. Additionally, she is skilled in laboratory techniques related to plant physiology, including stress assessment parameters and pollutant exposure experiments. Her experience presenting at international conferences has enhanced her communication skills, enabling her to effectively convey research findings to both academic and broader audiences. She is also adept in using academic platforms like Google Scholar and ResearchGate, enhancing her visibility and collaboration potential within the scientific community.

Award and Honor🏆

Mrs. Anindita Ghosh Basu has received early recognition for her academic and research excellence in the field of botany. Among her notable achievements is the Best Poster Presentation Award at an international scientific conference, highlighting the quality and impact of her research on plant stress physiology. This honor reflects her ability to communicate complex scientific concepts effectively and the relevance of her work to current environmental challenges. Her publications in prestigious, peer-reviewed journals such as Chemosphere and Water Research further attest to her scholarly merit and the recognition of her research within the scientific community. Although still in the early phase of her career, these accolades demonstrate a strong foundation of academic credibility and potential for future contributions to plant science. As she continues her research, her growing publication record and active participation in international forums position her well for further honors and awards in the botanical sciences.

Conclusion📝

Ms. Anindita Ghosh Basu is a promising early-career researcher with a focused area of work in plant stress physiology, specifically targeting pollution impacts—an area of growing global relevance. While she may not yet meet the full maturity and breadth expected of a ‘Best Researcher’ in an open-age competition, she shows exceptional potential and a clear trajectory toward impactful contributions.

Suggested Path Forward:

  • She would be a strong candidate for an “Emerging Researcher” or “Young Scientist” award category, if available.

  • If not, her candidacy for the Best Researcher Award would benefit from:

    • At least one to two published experimental studies.

    • Engagement in collaborative or funded projects.

    • Joining professional societies and increasing her academic outreach.

Publications Top Noted📚

  • “Effect of plastic pollution on freshwater flora: A meta-analysis approach to elucidate the factors influencing plant growth and biochemical markers”

    • Authors: D. Ghosh, A. Sarkar, A.G. Basu, S. Roy

    • Journal: Water Research, Vol. 225, Article 119114

    • Year: 2022

    • Cited by: 33

  • “Impact of microplastics on aquatic flora: Recent status, mechanisms of their toxicity and bioremediation strategies”

    • Authors: A.G. Basu, R.S. Paul, F. Wang, S. Roy

    • Journal: Chemosphere, Vol. 370, Article 143983

    • Year: 2025

    • Cited by: 3

  • “Changes in Biological Parameters of Trees by Airborne Pollutants”

    • Authors: DSR Anindita Ghosh Basu, Dr. Rita Som Paul

    • Journal: ÈKOBIOTEH

    • Year: 2020

Asima Imtiyaz | Plant Biochemistry | Best Researcher Award

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Ms. Asima Imtiyaz | Plant Biochemistry | Best Researcher Award 

Research Scholar at Uttaranchal University, India 

Ms. Asima Imtiyaz is a dedicated healthcare researcher currently pursuing her Ph.D. in Chemistry at Uttaranchal University. With a solid academic foundation, she holds a Master’s in Chemistry and a Bachelor’s in Science, complemented by various qualifications, including a Basic Computer Applications course. Her research focuses on green chemistry, nanotechnology, and sustainable applications, with multiple publications in areas such as nanomaterial synthesis and photocatalysis. Asima has actively participated in international conferences, presenting papers on topics like nanotechnology in agriculture and the synthesis of cobalt nanoparticles. In addition to her academic pursuits, she has attended faculty development programs and completed an internship with the International Council for Circular Economy. Known for her interpersonal skills, teamwork, and time management, she is a proactive learner with a passion for continuous development. Asima’s extracurricular achievements, including national-level sports participation and cultural involvement, further demonstrate her well-rounded personality.

Professional Profile 

Education 🎓 

Ms. Asima Imtiyaz is currently pursuing her Ph.D. in Chemistry at Uttaranchal University, focusing on sustainable and green chemistry research. She holds a Master’s in Chemistry from Alpine Institute of Management and Technology, where she earned a 7.5 CGPA, and a Bachelor’s in Science from Govt Degree College Kandi, with a CGPA of 7.66. Her educational journey reflects a strong foundation in chemistry, further supplemented by a Basic Computer Applications course. Asima has demonstrated her academic excellence through various published papers and book chapters on topics such as metal-organic frameworks, nanotechnology, and photocatalysis, showcasing her depth in both theoretical and practical chemistry. Additionally, she has attended several international conferences and faculty development programs to enhance her research knowledge and skills. Her passion for learning and contribution to the field of chemistry makes her a promising researcher in the academic community.

Professional Experience 💼 

Ms. Asima Imtiyaz has gained valuable professional experience through her extensive involvement in research and academic development. As a research scholar in Chemistry, she has contributed to several studies focusing on green chemistry, nanotechnology, and sustainable applications, particularly in the areas of nanoparticle synthesis and photocatalysis. She has published multiple papers and book chapters in reputable journals, demonstrating her ability to conduct in-depth research. Additionally, Asima has presented her work at international conferences, showcasing her ability to communicate complex scientific ideas effectively. Her professional journey also includes completing an internship with the International Council for Circular Economy, where she gained practical insights into sustainability practices. Furthermore, she has attended various Faculty Development Programs (FDPs) and workshops, which have further honed her analytical, computational, and research skills. Asima’s experience reflects a strong commitment to advancing her career and contributing to the field of chemistry and sustainable technologies.

Research Interest 🔬

Ms. Asima Imtiyaz’s research interests lie primarily in the fields of green chemistry, nanotechnology, and sustainable materials. She is particularly focused on the synthesis and applications of metal oxide nanoparticles, with an emphasis on their photocatalytic, antimicrobial, and environmental applications. Her work explores the green synthesis of nanoparticles using plant extracts, such as those from Iris Kashmiriana, highlighting the potential of eco-friendly methods in nanomaterial production. Asima’s research also delves into the fabrication of metal-organic frameworks (MOFs) and their hybrid composites, aiming to expand their applications in various industries. Additionally, she investigates the role of nanotechnology in agriculture and food science, exploring its potential for improving crop production and food preservation. Her work on the pharmacological and photocatalytic properties of nanoparticles showcases her interest in the intersection of materials science, chemistry, and environmental sustainability, with a focus on advancing green technologies for real-world applications.

Research Skill🔎

Ms. Asima Imtiyaz possesses a strong set of research skills, underpinned by her academic training and hands-on experience in chemistry and nanotechnology. She is adept at synthesizing metal oxide nanoparticles using green chemistry methods, particularly utilizing plant extracts like Iris Kashmiriana. Her skills include advanced characterization techniques, such as X-ray diffraction (XRD), scanning electron microscopy (SEM), and Fourier-transform infrared spectroscopy (FTIR), which she uses to analyze the structural, morphological, and chemical properties of synthesized materials. Asima is proficient in conducting both qualitative and quantitative analyses, employing techniques to assess the photocatalytic, antimicrobial, and antioxidant activities of nanoparticles. Her research also involves writing and presenting scientific papers, where she demonstrates effective communication and critical thinking. Additionally, Asima has gained expertise in computational and analytical techniques, attending faculty development programs to further refine her research methodologies. Her broad skill set positions her as a promising researcher in sustainable chemistry and nanotechnology.

Award and Honor🏆

Ms. Asima Imtiyaz has earned recognition for her academic excellence and research contributions. While the resume does not explicitly mention specific formal awards, she has been an active participant in academic and extracurricular activities that reflect her commitment to excellence. Notably, she has presented her research at international conferences, showcasing her work on nanotechnology and sustainable chemistry, which speaks to her emerging reputation in her field. Additionally, Asima has participated in various Faculty Development Programs (FDPs), indicating her dedication to continuous professional growth. Her involvement in sports, particularly as a national-level Kho-Kho player, and her achievement as a gold medalist in an open chess event, highlight her versatility and ability to excel beyond the academic realm. These accomplishments underscore her well-roundedness and potential for future recognition in both academic and professional circles. With further progress in her research, Asima is likely to receive formal awards for her contributions to the scientific community.

Conclusion📝

Asima Imtiyaz shows strong potential as a young and emerging researcher with an evident passion for sustainable and applied chemistry. She is actively engaged in research, academic development, and scientific discourse. While she may not yet meet the criteria for a top-tier “Best Researcher Award” at a national or international level due to the absence of high-impact publications and measurable research impact, she is a strong candidate for “Emerging Researcher” or “Promising Young Researcher” awards.

Recommendation:
Encourage her to:

  • Publish in indexed journals.

  • Highlight measurable impacts of her work (citations, societal contributions).

  • Expand collaboration and leadership roles in research projects.

With these enhancements, she will be a strong contender for future major research awards.

Publications Top Noted📚

  • Title: Green synthesized ruthenium oxide nanoparticles mediated through Iris Kashmiriana (Mazar-Graveyard) plant extract and antimicrobial activity
    Authors: A Imtiyaz, A Singh
    Journal: Journal of Inorganic and Organometallic Polymers and Materials
    Year: 2024
    Cited by: 5

  • Title: Applications of Nanotechnology in Agriculture and Food Science: A Review
    Authors: A Singh, A Imtiyaz
    Journal: Asian Journal of Chemistry
    Year: 2023
    Cited by: 4

  • Title: A study of the fabrication of different-dimensional metal–organic frameworks and their hybrid composites for novel applications
    Authors: A Imtiyaz, A Singh
    Journal: Journal of Inorganic and Organometallic Polymers and Materials
    Year: 2023
    Cited by: 3

  • Title: Green synthesis of iron oxide nanoparticles from Iris Kashmiriana (Mazar-Graveyard) Plant Extract: Its characterization of biological activities and photocatalytic activity
    Authors: A Imtiyaz, A Singh, A Bhardwaj
    Journal: Journal of Industrial and Engineering Chemistry
    Year: 2025
    Cited by: 2

  • Title: Comparative Analysis and Applications of Green Synthesized Cobalt Oxide (Co3O4) Nanoparticles: A Systematic Review
    Authors: A Imtiyaz, A Singh, R Gaur
    Journal: BioNanoScience
    Year: 2024
    Cited by: 2

  • Title: Transition metal oxides (TMOs) as Photocatalysts: an updated review of synthesis, applications, and future implications
    Authors: A Imtiyaz, A Singh
    Journal: Graphene and 2D Materials
    Year: 2025

  • Title: Pharmacological and Photocatalytic Study of Green Synthesized Cobalt Oxide (Co3O4) Nanoparticles Using Iris Kashmiriana Plant Extract
    Authors: A Imtiyaz, A Singh
    Journal: Next Research
    Year: 2025

  • Title: Bio-fabrication of cobalt oxide nanoparticles using walnut shell extract: antibacterial, antioxidant, and photocatalytic potential
    Authors: A Imtiyaz, A Singh, M Chaudhary
    Journal: Chemical Papers
    Year: 2025

Sang Yeol Lee | Plant Physiology | Best Researcher Award

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Prof. Dr. Sang Yeol Lee | Plant Physiology | Best Researcher Award

Professor at Gyeongsang National University, South Korea

Prof. Dr. Sang Yeol Lee is a renowned scientist in molecular biology, plant sciences, and biochemistry, with over 290 SCI-indexed international publications. He has made groundbreaking contributions to plant stress responses, enzymology, and cellular mechanisms. He earned his B.S. and M.S. from Seoul National University and a Ph.D. in Biochemistry from KAIST, followed by a postdoctoral fellowship at the NIH, USA. Since 1985, he has been a professor at Gyeongsang National University, currently serving as a Distinguished Professor. His career includes research positions at Kyoto University and NIH, along with leadership roles such as President of the Korean Society for Molecular and Cellular Biology (KSMCB) and Director of the National Core Research Center (NCRC). Recognized with multiple prestigious awards, including Best Scientist honors from KAIST, KSMCB, and NAS, Prof. Lee continues to shape global scientific advancements through his research and academic leadership.

Professional Profile 

Education 🎓

Prof. Dr. Sang Yeol Lee has an extensive academic background in biochemical and life sciences. He earned his B.S. in Food Science & Engineering from Seoul National University in 1980, where he developed a strong foundation in scientific research. He then pursued an M.S. in Enzymology from the same institution, completing it in 1982, focusing on biochemical processes and enzymatic functions. To further advance his expertise, he obtained a Ph.D. in Biochemistry from KAIST in 1985, specializing in molecular and cellular biology. Seeking international exposure, he completed a postdoctoral fellowship at the National Institutes of Health (NIH), USA, from 1987 to 1989, where he worked on advanced biochemical research. His educational journey across prestigious institutions equipped him with the knowledge and skills that have contributed to his outstanding research career, leading to significant advancements in molecular biology, enzymology, and plant sciences.

Professional Experience 💼

Prof. Dr. Sang Yeol Lee has had a distinguished career spanning several decades in academia and research. Since 1985, he has been a professor at Gyeongsang National University (GNU), where he currently serves as a Distinguished Professor. His international research experience includes positions as a Research Professor at Kyoto University, Japan (1990-1991), and at the National Institutes of Health (NIH), USA (1991-1992). He has held significant leadership roles, including serving as the Director of the National Core Research Center (NCRC) and as President of the Korean Society for Molecular and Cellular Biology (KSMCB) in 2015. Additionally, he has been an advisor and appraiser for major research organizations such as KOSEF and the Next Generation BioGreen 21 Project. His extensive contributions in research, academic leadership, and policy development have played a crucial role in advancing molecular biology, plant sciences, and biochemical research in Korea and internationally.

Research Interest 🔬

Prof. Dr. Sang Yeol Lee’s research interests lie in molecular biology, plant sciences, enzymology, and biochemical stress responses. His work focuses on understanding plant stress tolerance mechanisms, particularly in relation to oxidative stress, redox signaling, and protein function in plants. He has made significant contributions to identifying key molecular pathways that regulate plant immunity, stress adaptation, and circadian rhythms. His studies on thioredoxin proteins, peroxiredoxins, and protein chaperones have provided critical insights into how plants respond to environmental challenges such as heat, salt, and oxidative stress. Additionally, his research extends to signal transduction, kinase regulation, and epigenetic modifications in plant development and defense. With over 290 SCI-indexed publications, his work has significantly influenced plant molecular biology and agricultural biotechnology, contributing to the development of stress-resistant crops. His research continues to shape advancements in plant stress physiology and biochemical adaptation strategies in response to climate change.

Award and Honor🏆

Prof. Dr. Sang Yeol Lee has received numerous prestigious awards and honors in recognition of his outstanding contributions to molecular biology, plant sciences, and biochemistry. His achievements include the Distinguished Research Award from Gyeongsang National University (2004) and multiple Best Scientist Awards from organizations such as the Korean Society for Molecular and Cellular Biology (KSMCB), the National Academy of Sciences (NAS), and the Ministry of Education, Science, and Technology (MOEST). He was also recognized as one of Korea’s Best Scientists by the Association of Korean Journalists (2004) and received The Best 100-Scientific Achievements of Korea Award (2022). His scientific leadership earned him the Distinguished Alumni Award from KAIST (2013). With a career marked by national and international accolades, Prof. Lee’s research has significantly influenced plant molecular biology, enzymology, and biotechnology, reinforcing his status as one of Korea’s most distinguished scientists in life sciences.

Research Skill🔎

Prof. Dr. Sang Yeol Lee possesses exceptional research skills in molecular biology, biochemistry, plant sciences, and enzymology. His expertise includes protein biochemistry, redox signaling, gene expression analysis, and stress physiology in plants. He has extensive experience in molecular cloning, protein purification, structural biology, and functional genomics, which he has applied to understanding plant stress responses and cellular adaptation mechanisms. His work on thioredoxin proteins, peroxiredoxins, and kinase signaling pathways has provided groundbreaking insights into oxidative stress regulation, plant immunity, and environmental stress tolerance. Additionally, he is skilled in epigenetic analysis, transcriptomics, and advanced biochemical assays, which have contributed to his over 290 SCI-indexed publications. His ability to integrate cutting-edge biochemical techniques with plant molecular biology has enabled him to make significant contributions to agricultural biotechnology, particularly in developing stress-resistant crops and understanding plant adaptation to climate change. His diverse research skill set continues to advance scientific knowledge in plant sciences.

Conclusion📝

Prof. Sang Yeol Lee is a highly accomplished researcher with exceptional contributions to molecular biology and plant sciences. His impressive publication record, leadership in scientific societies, and multiple prestigious awards strongly support his candidacy for the Best Researcher Award. While he already holds a distinguished position, enhancing international collaborations and industrial applications could further solidify his legacy. Based on his credentials, he is an excellent choice for the award.

Publications Top Noted📚

  • NTRC mediates the coupling of chloroplast redox rhythm with nuclear circadian clock in plant cellsSang-yeol Lee et al., Molecular Plant, 2025

  • FAD and NADPH binding sites of YUCCA6 are essential for chaperone activity and oxidative stress tolerance in Arabidopsis thalianaSang-yeol Lee et al., Plant Physiology and Biochemistry, 2025

  • S-nitrosylation switches the Arabidopsis redox sensor protein, QSOX1, from an oxidoreductase to a molecular chaperone under heat stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2024 (3 citations)

  • Functional changes of OsTrxm from reductase to molecular chaperone under heat shock stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2023