Dr. Mijung Kim | Botanical Nanotechnology | Botany Scientist Excellence Award

Published on by Botany Scientist

Dr. Mijung Kim | Botanical Nanotechnology | Botany Scientist Excellence Award

R&D center director at GFC Life Science Co., Ltd | South Korea

Dr. Mi Jung Kim is a distinguished plant molecular geneticist and biotechnology expert with extensive experience spanning academia and industry. With a strong foundation in molecular genetics, she has pioneered research in plant-based innovations for therapeutic and cosmetic applications. Her career reflects a unique integration of fundamental plant science with industrial translation, particularly in developing high-value bioactive ingredients from plant cell cultures and extracellular vesicles. She has led national and international research projects, published in SCI-indexed journals, and fostered cross-sector collaborations. Dr. Kim currently serves as the Director of an R&D center focused on plant-derived materials, where she applies advanced genomic and omics technologies to create sustainable and functional ingredients. Her work has had significant impact on cosmetic biotechnology, bridging the gap between scientific discovery and consumer application. Her contributions reflect scientific depth, translational innovation, and leadership, making her a leading figure in the field of applied plant science.

Professional Profile 

Education

Dr. Kim holds a Ph.D. in Molecular Genetics from Korea University, where she specialized in transcriptional regulation of genes related to fatty acid biosynthesis in plants. Her doctoral training laid the groundwork for her future focus on gene expression and metabolic engineering. She also completed a Ph.D. course in Horticultural Science at Sangmyung University, enhancing her understanding of applied plant sciences. Her academic journey reflects a balance between core molecular biology and practical botany applications. She was mentored by renowned professors in plant biology and molecular genetics, which helped shape her research focus on functional genomics and plant biotechnology. The rigorous academic training she received fostered a scientific mindset that she has effectively applied in both academic and industrial settings. Her educational background continues to underpin her research on plant-derived compounds, natural metabolites, and biotechnological innovation.

Professional Experience

Dr. Kim’s professional experience spans renowned academic institutions and high-level industry positions. She began her postdoctoral work at Seoul National University, contributing to plant molecular biology research. As a senior researcher at Temasek Life Sciences Laboratory in Singapore, she led multiple national and collaborative projects, producing impactful research in plant biotechnology. She has been leading the Research and Development Center at a cosmetics materials company, where she integrates academic expertise with commercial product development. Her role involves designing and managing innovative projects focused on plant-derived exosomes and bioactives. She also collaborates with leading companies and universities, such as LG Life & Health, Cosmecca Korea, and Seoul National University. Her career reflects her capability to lead interdisciplinary teams, manage high-impact research, and drive commercial innovation based on solid scientific principles. Her experience is a testament to her leadership and applied scientific acumen.

Research Interests

Dr. Kim’s research focuses on the intersection of plant molecular genetics and applied biotechnology. She is particularly interested in plant-derived extracellular vesicles (EVs) and their applications in skin regeneration, anti-inflammation, and therapeutic delivery. She also explores plant secondary metabolites, cross-kingdom miRNA transfer, and metabolic engineering for enhancing bioactive compound yield. Her work aims to understand and manipulate the molecular mechanisms underlying plant biosynthesis pathways to develop premium cosmetic and therapeutic ingredients. Additionally, she integrates omics technologies—such as transcriptomics and metabolomics—to identify functional compounds and biomarkers. Her broader interest lies in sustainable bioproduction using plant cell cultures and genome editing tools. These areas not only contribute to academic advancement but also offer transformative solutions for industries ranging from cosmetics to pharmaceuticals. Dr. Kim’s interests reflect her passion for advancing plant science while contributing to real-world innovations in health and beauty technologies.

Research Skills

Dr. Kim possesses a diverse set of research skills combining classical molecular biology techniques with modern biotechnological tools. Her expertise includes gene expression analysis, transcriptional regulation studies, and metabolic pathway engineering. She is proficient in plant cell and tissue culture, enabling the establishment of scalable systems for producing secondary metabolites and extracellular vesicles. She applies omics-based approaches—including genomics, transcriptomics, and metabolomics—to discover novel bioactives and functional compounds. Her work also involves functional validation using bioassays and genetic engineering, including CRISPR/Cas-based genome editing. In recent years, she has focused on characterizing plant-derived miRNAs and their cross-kingdom functionality in human skin regeneration and inflammation modulation. Additionally, she has experience in scaling up laboratory research for industrial application, reflecting strong translational and project management capabilities. These research skills allow her to bridge the gap between scientific innovation and commercial product development in cosmetic biotechnology.

Awards and Honors

Dr. Kim has led several high-profile research projects and collaborations that have earned recognition within academic and industrial circles. While her specific awards are not listed in the current documentation, her appointment as R&D Center Director and previous leadership roles in international research institutes reflect her professional recognition and credibility. Her contributions have been acknowledged through successful partnerships with top-tier institutions and companies in Korea and abroad. She has also been nominated for awards such as the Botany Scientist Excellence Award, highlighting her continued impact and relevance in the field of plant biotechnology. Her body of work, including high-impact publications and translational innovations, speaks to her stature as a respected scientist. Future recognition is likely as her research continues to influence both fundamental plant biology and applied industrial solutions in cosmetics and therapeutics. Her career is marked by consistent excellence, innovation, and collaborative achievement.

Publications Top Noted

  • Long-Term Risks of Parkinson’s Disease, Surgery, and Colorectal Cancer in Patients With Slow-Transit Constipation
    Year: 2021
    Citations: 13

  • Genomic Analysis Identifies New Loci Associated With Motor Complications in Parkinson’s Disease
    Year: 2020
    Citations: 15

  • Mesenchymal stem cells co-cultured with colorectal cancer cells showed increased invasive and proliferative abilities due to its altered p53/TGF-β1 levels
    Year: 2020
    Citations: 15

  • Subtypes of sleep disturbance in Parkinson’s disease based on the cross-culturally validated Korean version of Parkinson’s disease sleep scale-2
    Year: 2020
    Citations: 12

  • Influences of elbow, shoulder, trunk motion and temporospatial parameters on arm swing asymmetry of Parkinson’s disease during walking
    Year: 2019
    Citations: 23

Conclusion

Dr. Mi Jung Kim stands out as a highly qualified and forward-thinking plant scientist whose work bridges the gap between academic research and practical innovation. Her pioneering contributions to plant-based bioactives and sustainable cosmetic materials exemplify excellence in applied plant science. With a proven record of innovation, collaboration, and leadership, she aligns well with the spirit of the Botany Scientist Excellence Award. Addressing minor gaps in academic visibility and external engagement would only further enhance her distinguished profile. Overall, her candidacy is both credible and compelling, and she is a deserving nominee whose recognition could inspire further interdisciplinary progress in the field of botanical science.

Vishnu Dayal Rajput | Botanical Nanotechnology | Breakthrough Research Award 

Published on by Botany Scientist

Prof. Dr. Vishnu Dayal Rajput | Botanical Nanotechnology | Breakthrough Research Award 

Principal Scientist at Southern Federal University, Russia

Prof. Dr. Vishnu Dayal Rajput is a globally recognized Principal Scientist and Head of the International Laboratory on Nanobiotechnology at Southern Federal University, Russia. He is a pioneer in environmental nanobiotechnology, known for integrating nanomaterials with bioengineering to develop cutting-edge remediation technologies. With over 552 research publications, an h-index of 54, and more than 11,600 citations, his academic influence is exceptional 🌍📚. He is ranked among the world’s top 2% scientists (Stanford 2023 & 2024) and is the second-highest-ranked researcher in environmental science in Russia 🇷🇺. Dr. Rajput’s interdisciplinary work spans nanotechnology, CRISPR, metagenomics, and phytoremediation, reflecting a deep commitment to sustainability and global environmental solutions. He mentors international PhD/postdoc scholars, serves on editorial boards of reputed journals, and is a prominent voice in global scientific communities 🌱🧪. His accolades and invitations to speak at prestigious conferences underscore his authority and leadership in the field. Dr. Rajput represents a blend of innovation, mentorship, and scientific excellence. 🌐🏅

Professional Profile 

🎓 Education

Prof. Dr. Rajput’s academic journey began in India with an M.Sc. in Agricultural Biotechnology (2005–2007) from Chandra Shekhar Azad University of Agriculture & Technology, Kanpur, 🇮🇳 where he laid the groundwork in molecular biology and plant science. He further pursued a Doctor of Science in Natural Science (2012–2015) from the University of Chinese Academy of Sciences, Beijing 🇨🇳 — one of the top institutions for advanced interdisciplinary research. His doctoral work specialized in the interaction of nanoparticles and heavy metals with plants and microbial systems, setting a strong foundation for his current innovations in nanoremediation. 📘🔬 His educational training combined biotechnology, plant physiology, nanotechnology, and environmental science — a fusion that now drives his multi-pronged research approach. In addition to formal education, Dr. Rajput has completed several short-term teaching, research, and training programs worldwide, enhancing his global perspective and practical problem-solving capabilities. 📖🌍

💼 Professional Experience

Dr. Rajput has steadily climbed the academic and research ladder with commitment and excellence. He started as a Project Assistant at the Center for Plant Biotechnology in Hisar (2009), then as Senior Research Fellow at CSSRI, Karnal, contributing to soil salinity research. 🇮🇳 He joined Southern Federal University, Russia, in 2016 as a Senior Researcher, and quickly advanced to Leading Researcher (2020), and finally to Principal Scientist & Lab Head (2024–present) 🇷🇺. Over the years, he has also taken on honorary roles such as Adjunct Professor at Lovely Professional University, Chitkara University, and Graphic Era Hill University in India 🌱🧑‍🏫. His responsibilities include supervising research, teaching international students, and managing interdisciplinary projects involving nano-enhanced environmental technologies. His global exposure includes Mevlana lectures in Turkey, Erasmus+ programs, and key international conference roles. 🎤🌏 His multifaceted experience across countries, institutions, and disciplines makes him a leading name in nanobiotechnology and environmental sustainability.

🧪 Research Interest

Dr. Rajput’s research interests lie at the intersection of nanotechnology, biotechnology, and environmental science 🌿⚗️. He focuses on developing sustainable solutions for soil and water pollution using nano-biochar, metal-tolerant microbes, CRISPR tools, and metagenomics. A core area of his study is how nanoparticles and heavy metals interact with plant systems, soil biota, and the rhizosphere, and how these interactions can be leveraged for remediation 🧬💧. His innovations include nano-enhanced phytoremediation, microbial modulation, and engineered biochars for agricultural and environmental use. He is also exploring bio-nanoengineering approaches to manipulate soil microbial communities for improved plant growth and detoxification of polluted environments 🌱🦠. Dr. Rajput’s work aims to bridge the gap between molecular insights and real-world environmental challenges through advanced nanobiotech tools. His commitment to interdisciplinary research is evident in his publications, grants, international lectures, and collaborations. 🔍🌍

🧠 Research Skills

Prof. Rajput possesses a diverse and advanced set of research skills that have positioned him as a leader in environmental biotechnology 🧪📊. He is proficient in nanoparticle synthesis and characterization, biochar engineering, and soil-plant-microbe interaction analysis. His lab routinely utilizes electron microscopy, spectroscopy, and molecular biology tools like CRISPR and metagenomics 🧬🧫. He is skilled in designing and executing large-scale phytoremediation and rhizospheric microbiome projects, often combining lab experiments with field trials. His statistical and data interpretation skills allow for high-quality publications in top-tier journals, with meticulous attention to reproducibility and scalability 🔍📈. Dr. Rajput also demonstrates excellent grant writing, project coordination, and international collaboration skills, enabling him to secure and manage multi-institutional projects. He trains scholars in scientific writing, advanced biotechnological techniques, and experimental design, ensuring a new generation of researchers in his field 🧑‍🔬📚.

🏅 Awards and Honors

Prof. Rajput’s research has earned him prestigious global accolades. He is part of the World’s Top 2% Scientists (Stanford University Rankings, 2023 & 2024) 🌟. He received the Hindustan Harit Kranti Award (2022) for agricultural innovation and was honored with Best Reviewer Award by Plants journal with a $500 prize. His breakthrough research in nanoremediation won him multiple Diploma Awards from Russian and international scientific bodies 🥇🌍. He was also granted the Young Scientist Award at Agri-meet India 2025 and repeatedly honored by the Rector of Southern Federal University for his scientific contributions. His efforts in reviewing over 222 manuscripts have earned him recognition from publishers like Elsevier. Dr. Rajput is an editorial board member of high-impact journals like Biochar and Eurasian Journal of Soil Science, and he plays active roles in organizing international conferences 🌐📢. These honors reflect not only academic excellence but a consistent commitment to advancing science for global benefit.

🏁 Conclusion

Dr. Vishnu D. Rajput exhibits exceptional qualifications for the Breakthrough Research Award, with strong credentials in innovation, research leadership, global recognition, and scientific excellence. His work exemplifies a high-impact, transformative trajectory, especially in environmental remediation using advanced nanobiotechnology. While further strengthening in patenting and societal application would add additional dimensions, his current profile more than meets the expectations for such a prestigious award.

Publications Top Noted

  • Recent developments in enzymatic antioxidant defence mechanism in plants with special reference to abiotic stress
    • VD Rajput et al.
    Biology, 10(4), 267
    2021 – 584 citations

  • Effects of zinc-oxide nanoparticles on soil, plants, animals and soil organisms: a review
    • VD Rajput et al.
    Environmental Nanotechnology, Monitoring & Management, 9, 76–84
    2018 – 417 citations

  • Beneficial microbiomes for bioremediation of diverse contaminated environments for environmental sustainability: present status and future challenges
    • D Kour, VD Rajput et al.
    Environmental Science and Pollution Research, 28, 24917–24939
    2021 – 318 citations

  • ZnO and CuO nanoparticles: a threat to soil organisms, plants, and human health
    • V Rajput et al.
    Environmental Geochemistry and Health, 1–12
    2019 – 304 citations

  • Effect of nanoparticles on crops and soil microbial communities
    • VD Rajput
    Journal of Soils and Sediments, 1–9
    2017 – 280 citations

  • The mechanisms of biochar interactions with microorganisms in soil
    • AV Gorovtsov, VD Rajput et al.
    Environmental Geochemistry and Health, 42, 2495–2518
    2020 – 262 citations

  • Accumulation of nanoparticles in the soil-plant systems and their effects on human health
    • V Rajput et al.
    Annals of Agricultural Sciences, 65(2), 137–143
    2020 – 254 citations

  • Recent trends in nano-fertilizers for sustainable agriculture under climate change for global food security
    • KK Verma, VD Rajput et al.
    Nanomaterials, 12(1), 173
    2022 – 236 citations

  • Coping with the challenges of abiotic stress in plants: New dimensions in the field application of nanoparticles
    • VD Rajput et al.
    Plants, 10(6), 1221
    2021 – 221 citations

  • Toxicity of copper oxide nanoparticles on spring barley (Hordeum sativum distichum)
    • V Rajput et al.
    Science of The Total Environment, 645, 1103–1113
    2018 – 214 citations

  • Foliar application of zinc oxide nanoparticles: An effective strategy to mitigate drought stress in cucumber seedling by modulating antioxidant defense system and osmolytes
    • MI Ghani, VD Rajput et al.
    Chemosphere, 289, 133202
    2022 – 205 citations