Xiaoping Xiao | Environment and Health | Scientific Excellence in Biotechnology Award

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Prof. Dr. Xiaoping Xiao | Environment and Health | Scientific Excellence in Biotechnology Award

Teacher at Gannan Normal University | China

Dr. Xiaoping Xiao demonstrates outstanding scientific merit in biotechnology through his influential research on host–pathogen interactions, vector biology, and molecular mechanisms of infectious diseases, making him highly suitable for the Scientific Excellence in Biotechnology Award. With 858 citations, 25 publications, and an h-index of 13 in his Scopus profile, his work has achieved significant global impact, particularly in elucidating how insects such as mosquitoes regulate immune defense, microbiome balance, and viral susceptibility. His pioneering studies published in top-tier journals, including Nature Microbiology, Nature Metabolism, Life Medicine, Trends in Parasitology, and PLoS Pathogens, have uncovered key pathways such as the Mesh–Duox regulatory axis, neuron-specific antiviral responses, and C-type lectin-mediated microbiome homeostasis, contributing to fundamental advances in vector immunology and infectious disease control. Dr. Xiao’s research has also bridged biotechnology and translational medicine by identifying metabolic and molecular determinants that influence viral entry and disease progression, including novel insights linking glucose-like metabolites to SARS-CoV-2 inhibition. His innovative contributions extend to biotechnology applications demonstrated by multiple authorized patents related to antiviral proteins, bacteriophage technologies, insect-derived immune molecules, and antimicrobial peptide production. Supported by competitive national and provincial research grants, his investigations continue to advance antiviral strategies, innate immune regulation, and vector-pathogen dynamics. Collectively, his high-impact publications, citation strength, translational innovations, and sustained research leadership strongly affirm his suitability for the Scientific Excellence in Biotechnology Award.

Citation Metrics (Scopus)

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Featured Publications


Asiaticoside ameliorates pyrimethanil-induced autophagy-dependent liver injury by suppressing CRHR1

– Ecotoxicology and Environmental Safety, 2025 (Open Access)

Hepatic toxicity assessment of organophosphorus insecticide isazophos on zebrafish – Comparative Biochemistry & Physiology Part C, 2025

Elena-Cocuta Buciumeanu | Ecology Science | Best Researcher Award

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Mrs. Elena-Cocuta Buciumeanu | Ecology Science | Best Researcher Award

National Research and Development Institute for Biotechnology in Horticulture Stefanesti – Arges | Romania

Mrs. Elena-Cocuta Buciumeanu is a leading expert in grapevine virology and horticultural biotechnology, renowned for her pioneering work in understanding virus–host interactions and developing virus-elimination methods. Based at the National Research and Development Institute for Biotechnology in Horticulture Ștefănești–Argeș, Romania, she has contributed over 180 scientific publications, including 21 indexed in Scopus and Web of Science journals. Her research emphasizes molecular diagnostics, biotic–abiotic stress interactions, and the improvement of grapevine health through innovative biotechnological techniques. Dr. Buciumeanu’s notable achievements include the adaptation of electrotherapy and in vitro chemotherapy for virus eradication in grapevines-methods now widely applied in plant biotechnology laboratories. She has successfully managed or collaborated on 33 national and international research projects, focusing on viral detection, epidemiological monitoring, and resistance strategies in viticultural ecosystems. Her research collaborations, including with the Analyse- und Diagnoselabor DLR Rheinpfalz in Germany, demonstrate her integration into the broader European virology research community. Recognized within the International Council for the Study of Viruses and Virus-like Diseases of Grapevine (ICVG), she maintains an active presence in global virology networks. With 95 citations, 20 documents, and an h-index of 5 on Scopus, her scholarly record reflects sustained scientific excellence and innovation. Dr. Buciumeanu’s dedication to applied plant virology and her long-standing impact on grapevine biotechnology establish her as an exemplary nominee for the Best Researcher Award.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Buciumeanu, E. C., Vizitiu, D. E., & Dincă, L. (2020). The most valuable grapevine varieties for wine established by analytical hierarchical process for a sustainable viticulture in Danube terraces viticultural region. “Ion Ionescu de la Brad” University of Agricultural Sciences and Veterinary Medicine Journal. Citation: 5

Radomir, A. M., Guţă, I. C., Buciumeanu, E. C., & Pîrvu, M. L. (2019). Optimization of microwave extraction method of total polyphenols from Melissa officinalis L. vitroplants. Biologie, 28, 112–118. Citation: 5

Buciumeanu, E. C., Guţă, I. C., & Semenescu, F. (2009). A survey of grapevine viruses in native cultivars in old plantations of Ştefăneşti-Argeş vineyard, România. Extended Abstracts of the 16th Meeting of ICVG, Dijon, France, 247–248. Citation: 5

Buciumeanu, E. C., Vizitiu, D. E., Dincă, L., & Radomir, A. M. (2021). Use of analytic hierarchy process on the choice of grapevine varieties suitable for a sustainable viticulture and market demands in the viticultural center Stefanesti. Scientific Papers. Series B. Horticulture, 65(1). Citation: 4

Ionela-Cătălina, G., & Buciumeanu, E. C. (2020). The behaviour of grapevine under virus infection and drought stress combination. AgroLife Scientific Journal, 9(2). Citation: 4

Huihui Chen | Environmental Biotechnology | Best Researcher Award

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Huihui Chen | Environmental Biotechnology | Best Researcher Award

Associate Professor at Shanghai University | China

Ms. Huihui Chen is an Associate Professor and Master’s Supervisor at the Department of Environmental Science and Engineering, Shanghai University. With a strong background in environmental engineering and a research portfolio spanning sustainable waste management, hydrothermal processes, and low-carbon development strategies, Ms. Chen has established a solid reputation in advancing the field of environmental science. She has contributed significantly to the valorization of organic solid waste, sustainable energy recovery, and the study of environmental risk substances, making her a key figure in the development of green technologies and eco-industrial practices.

Profile

Scopus

Education

Ms. Huihui Chen received her Bachelor’s and Master’s degrees in Environmental Engineering from Kunming University of Science and Technology, where she was directly admitted into the master’s program due to her academic excellence. She then pursued her doctoral studies at Fudan University, earning a Ph.D. in Environmental Engineering. Her outstanding performance was recognized with the Shanghai Outstanding Graduate Award and the Shanghai Tongji Gaotingyao Environmental Protection Technology Development Foundation Outstanding Young Doctoral Student Talent Award. During her doctoral journey, she also spent time as a visiting scholar at the Green Chemistry Centre of Excellence and the Biorenewables Development Centre at the University of York in the United Kingdom, which broadened her academic vision and international research collaborations.

Experience

Ms. Huihui Chen’s professional journey has been marked by progressive academic and research roles. Following her doctoral graduation, she continued at Fudan University as a postdoctoral researcher, supported by the prestigious Shanghai Super Postdoctoral Fellowship. She later joined Shanghai University as a lecturer and advanced to the position of Associate Professor. At Shanghai University, she has been actively engaged in both teaching and research, offering courses such as Air Pollution Control Engineering, Organic Chemistry, Organic Solid Waste Resource Recovery Engineering, and Environmental Engineering Project. Beyond her teaching contributions, Ms. Chen has led multiple funded research projects, including those supported by the National Natural Science Foundation of China and several commissioned projects from government agencies, research laboratories, and industrial partners.

Research Interest

Ms. Huihui Chen’s research interests center on the comprehensive treatment and valorization of organic solid waste through the integration of thermochemical and biochemical processes. Her work investigates the migration and transformation of environmental risk substances during waste treatment and disposal, aiming to develop effective strategies for pollution control and risk mitigation. She also actively contributes to low-carbon and sustainable development planning, with a focus on eco-industrial park design and the development of methodologies for Chinese Certified Emission Reduction projects. Through her interdisciplinary research, she bridges environmental science, engineering, and sustainability studies, ensuring that her findings have both scientific value and practical applications for sustainable development.

Awards

Throughout her academic career, Ms. Huihui Chen has received several honors that reflect her scholarly excellence and leadership in the field. These include the Outstanding Young Doctoral Student Talent Award and the Shanghai Outstanding Graduate Award during her doctoral studies, as well as the highly competitive Shanghai Super Postdoctoral Fellowship. Her research outputs have been widely recognized, with several of her publications ranked as Highly Cited Papers, underscoring their influence and visibility in the global environmental science community.

Publications Top Notes

Ms. Huihui Chen has authored more than thirty peer-reviewed papers in internationally renowned journals. Selected publications include:

Title: Roles of different anions on hydrochar formation of lignocellulosic biomass.
Year: 2025

Title: Role of Accumulated Alkali and Alkaline-Earth Chloride Salts in Hydrochar Formation Produced from Lignocellulosic Biomass.
Year: 2023

Title: Hydrothermal pretreatment of sewage sludge enhanced the anaerobic degradation of cationic polyacrylamide (cPAM).
Year: 2021

Title: Mesophilic and thermophilic anaerobic digestion of aqueous phase generated from hydrothermal liquefaction of cornstalk: Molecular and metabolic insights.
Year: 2020

Title: Chemicals from lignocellulosic biomass: a critical comparison between biochemical, microwave and thermochemical conversion methods.
Year: 2020

Title: Characterization and utilization of aqueous products from hydrothermal conversion of biomass for bio-oil and hydro-char production.
Year: 2019

Title: Hydrothermal conversion of sewage sludge: Focusing on the characterization of liquid products and their methane yields.
Year: 2019

Conclusion

In summary, Ms. Huihui Chen has built a distinguished academic and research career that combines deep technical expertise with a vision for sustainable environmental solutions. Through her contributions to solid waste valorization, sustainable energy recovery, and low-carbon planning, she has addressed critical environmental challenges and provided innovative pathways for green development. Her publications, leadership in funded projects, and recognition by the scientific community highlight her as a rising leader in environmental engineering. With her ongoing research and commitment to education, Ms. Chen continues to make impactful contributions to both scientific knowledge and practical environmental sustainability.

 

Ulises Durán | Environmental Biotechnology | Outstanding Scientist Award

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Dr. Ulises Durán | Environmental Biotechnology | Outstanding Scientist Award

Full Professor at Universidad Autónoma Metropolitana campus Iztapalapa, Mexico

Ulises Durán Hinojosa is a distinguished environmental biotechnology researcher with over fifteen years of dedicated academic and investigative contributions to the fields of anaerobic digestion, wastewater treatment, and organic waste bioconversion. Currently serving as a Full Professor at the Universidad Autónoma Metropolitana, campus Iztapalapa, he has earned national recognition as a leading scholar and innovator in microbial-driven environmental technologies. His work stands at the interface of applied microbiology and sustainable environmental engineering, focusing on the microbial, biochemical, and technological dynamics of organic waste treatment and resource recovery systems. He is consistently sought out as a principal investigator and collaborator in national and international projects that advance scientific understanding and address critical challenges in energy recovery and pollution reduction.

Profile

Scopus

Education

Dr. Durán’s academic journey is deeply rooted in the Universidad Autónoma Metropolitana, where he completed his BSc in Biochemical Engineering, MSc in Biotechnology, and PhD in Environmental Engineering. This academic continuity reflects his commitment to institutional growth and knowledge development. His training encompasses a multidisciplinary approach that bridges engineering, biotechnology, and environmental science, allowing him to develop a strong foundation for tackling complex environmental challenges through biological and chemical innovation.

Experience

Professionally, Durán has developed a robust research portfolio that integrates experimental science with practical environmental applications. He has led or collaborated in eight funded research projects focusing on sludge valorization, decentralized biowaste treatment systems, and electrochemical treatment methods. His editorial involvement includes serving as a guest editor for a 2025 special issue on “Biotechnology and Materials for Wastewater Treatment” in Applied Sciences and reviewing for high-impact journals such as Bioresource Technology, Environmental Technology, and the Journal of Water Process Engineering. His professional standing is further reinforced by his designation as a National Researcher, an acknowledgment of excellence in scientific output and impact in Mexico.

Research

Durán’s research interests are centered on anaerobic digestion and methanogenesis, with particular emphasis on hybrid biological reactor systems and the use of electrochemical pretreatments for enhanced sludge degradation. He is also known for his work on microbial community dynamics using metagenomics tools, enabling deeper insights into how environmental stressors, such as antibiotics, influence microbial ecology and reactor performance. His contributions to wastewater biotechnology extend to the optimization of microbial consortia for improved methane yield and pollutant removal, reinforcing his status as a pioneer in sustainable waste management practices.

Awards

In recognition of his pioneering work, Ulises Durán was nominated in 2025 for the International Award in Environmental Biotechnology Research. This nomination highlights his leadership in developing technologies that contribute to circular economy principles, energy recovery, and environmental resilience. His capacity to integrate academic research with practical applications has led to meaningful outcomes in public health and environmental sustainability.

Publications

Durán has authored or co-authored 18 JCR-indexed publications, with 12 appearing in Q1 journals. He has served as first or corresponding author in eight of these, demonstrating both scientific leadership and originality. Selected key publications include:

  1. Durán U., et al. (2025). “Microbial community shifts by antibiotic exposure in swine wastewater,” Journal of Water Process Engineering, IF: 6.3 – cited by 5 articles.

  2. Mendoza-Tinoco T.P., Durán U., et al. (2024). “Water electrolysis in anaerobic digestion,” Bioresource Technology, IF: 9.7 – cited by 12 articles.

  3. Ochoa-Hernández M.E., Durán U., et al. (2023). “Active microbiota in UASB and hybrid reactors,” Journal of Environmental Management, IF: 8.0 – cited by 10 articles.

  4. Durán U., et al. (2022). “Methanogenic inhibition by antibiotics,” Environmental Technology & Innovation, IF: 6.7 – cited by 8 articles.

  5. Durán U., et al. (2010). “Vinyl acetate in acetoclastic methanogenesis,” Bioresource Technology, IF: 9.7 – cited by 42 articles.

  6. Durán U., et al. (2019). “New technologies for emerging micropollutant removal,” in Topics on Water Contaminants and Pollution, Clave Editorial – cited by 7 articles.

  7. Durán U., et al. (2017). “Solid-State Fermentation for Lignocellulase Production,” in Fermentation Processes, InTech – cited by 15 articles.

Conclusion

In conclusion, Ulises Durán Hinojosa exemplifies the caliber of researcher deserving of international recognition for his sustained contributions to environmental biotechnology. His scientific rigor, editorial leadership, and commitment to sustainable innovation mark him as a key contributor to the global effort to address ecological challenges through microbial and bioprocess engineering.

Baran SEVEN | Heavy metal toxicity | Young Scientist Award

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Dr. Baran SEVEN | Heavy metal toxicity | Young Scientist Award

R&D SPECİALİST at TST ORTHOPEDICS, India

Dr. Samadrita Sengupta is an accomplished Assistant Professor in the Department of Food and Nutrition at West Bengal State University, Barasat, Kolkata, India. With a strong foundation in food science and nutrition, she has made significant contributions to the advancement of food processing technologies and non-dairy food innovations. Her work primarily focuses on the development of soy-based functional foods and the exploration of bioactive compounds for health promotion. She is recognized for her interdisciplinary research that bridges food science with human health, making notable strides in areas such as hypercholesterolemia management through fortified foods.

Profile

Scopus

Education:

Dr. Sengupta pursued her education in food and nutrition with a dedicated focus on integrating biotechnology and food processing innovations. Her academic journey was shaped by a passion for advancing nutritional science through research and development. She has continuously expanded her expertise by engaging in thesis-based research that involved the processing technologies of fruits, dairy, and non-dairy products, along with the functional evaluation of oilseeds.

Experience:

Currently serving as an Assistant Professor at West Bengal State University, Dr. Sengupta has accumulated considerable experience in teaching and research in food science. Her professional endeavors include guiding students, leading independent research projects, and presenting her findings at prestigious national and international conferences. She has spearheaded research projects examining the functional and nutritional properties of innovative food products and has contributed to academic discussions through numerous publications in reputed journals.

Research Interest:

Dr. Sengupta’s research interests lie at the intersection of food processing, nutrition science, and functional food development. Her major areas of focus include non-dairy product innovation, such as the creation of soy yogurt, soy cheese, and soy rasgulla, and the health benefits of bioactive food components. Particularly, she is investigating the cholesterol-lowering effects of bitter gourd seed oil, rich in α-Eleostearic acid, when incorporated into soy yogurt. Additionally, she has explored the application of nano-micronutrients in promoting health and preventing diseases, opening new frontiers in functional food research.

Award:

Given her outstanding contributions to food science and nutrition, Dr. Samadrita Sengupta is a strong nominee for the Biotechnology Scientist Award. Her innovative development of non-dairy functional foods, coupled with her research on bioactive components such as α-Eleostearic acid for managing hypercholesterolemia, exemplifies her eligibility for this honor. Her impactful research and continuous efforts to advance nutritional science underscore her significant role in the biotechnology and food science community.

Publication:

Dr. Sengupta has an impressive publication record with 15 journal papers, a citation index of 472, an h-index of 11, and an i10 index of 11, according to Google Scholar. A selection of her key publications includes:

  • Sengupta, S. (2021). Development and characterization of soy-based probiotic yogurt: An alternative non-dairy functional food. Journal of Food Science and Technology (Cited by 45).

  • Sengupta, S. (2020). Cholesterol-lowering effects of α-Eleostearic acid fortified soy yogurt in hypercholesterolemic models. Food Research International (Cited by 38).

  • Sengupta, S. (2019). Impact of nano micronutrients on metabolic health: A food science perspective. International Journal of Food Sciences and Nutrition (Cited by 52).

  • Sengupta, S. (2018). Functional and nutritional properties of soy-based dairy alternatives. LWT – Food Science and Technology (Cited by 60).

  • Sengupta, S. (2017). Processing and evaluation of fruit-based non-dairy desserts. Journal of Food Processing and Preservation (Cited by 31).

  • Sengupta, S. (2016). Evaluation of oilseed fortification on nutritional profile of functional foods. Journal of Functional Foods (Cited by 42).

  • Sengupta, S. (2015). Emerging trends in non-dairy food processing technologies. Food Technology and Biotechnology (Cited by 32).

Conclusion:

Dr. Samadrita Sengupta exemplifies academic excellence, innovative research, and impactful contributions to the fields of food science and nutrition. Her pioneering work in developing functional, non-dairy food products, and exploring bioactive compounds’ health benefits demonstrates her commitment to bridging food technology with human wellness. With a robust publication record, leadership in research projects, and ongoing investigations into functional foods and micronutrients, Dr. Sengupta is an outstanding candidate for the Biotechnology Scientist Award. Her work continues to inspire advancements in nutrition and food processing technologies both nationally and internationally.