Solomon Boamah | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Solomon Boamah | Agricultural and Biological Sciences | Best Researcher Award

Researcher at Gansu Agricultural University, China

Solomon Boamah is a dedicated and results-driven researcher specializing in plant protection, with a strong focus on plant pathology and biocontrol strategies. He holds a BSc in Applied Biology from Ghana and both MSc and PhD degrees in Plant Pathology from Gansu Agricultural University, China. His research centers on plant-microbe interactions, salinity stress management, and sustainable crop protection, with over 11 peer-reviewed publications in respected journals. Solomon has received accolades such as Best International Student in Academics and presented at prestigious forums like the β€œBelt and Road” Young Talents event. He has also served as a peer reviewer for journals including Frontiers in Microbiology and Springer. His technical proficiency spans microbiology, molecular biology, and bioinformatics, complemented by strong leadership roles within academic communities. With a passion for scientific advancement and collaboration, Solomon exemplifies the qualities of a promising and impactful early-career researcher in the field of agricultural and environmental sciences.

Professional Profile 

Google Scholar

Education

Solomon Boamah possesses a strong academic foundation in biological and agricultural sciences. He earned his Bachelor of Science degree in Applied Biology from the University for Development Studies in Ghana, graduating with a Second Class Upper Division. Driven by a desire to deepen his expertise, he pursued further education in China, obtaining a Master of Science in Plant Pathology from Gansu Agricultural University between 2018 and 2021. Continuing at the same institution, he is currently completing his PhD in Plant Pathology, focusing on advanced topics such as biocontrol strategies and plant-microbe interactions. His educational journey reflects a consistent and focused trajectory in plant science, positioning him well for impactful research in sustainable agriculture and plant disease management. With strong academic performance and research productivity, Solomon’s education has provided him with the theoretical knowledge and practical experience required to address contemporary challenges in crop protection and plant health management.

Professional Experience

Solomon Boamah’s professional background spans academia, research, and community service, reflecting a balanced mix of teaching, laboratory work, and leadership. He began his career as a Laboratory Assistant at Anglican Clinic in Ghana, where he conducted medical laboratory tests and assisted in diagnostics. He later served as a science teacher at Bennie Appenteng Senior High School, teaching Biology, Agricultural Science, and Integrated Science while also facilitating laboratory practicals. During his postgraduate studies in China, he took on academic leadership roles, including serving as President of the Ghanaian community in Lanzhou. He currently contributes to scientific publishing as a peer reviewer for reputable journals such as Frontiers in Microbiology and Springer. His diverse experiences underscore his adaptability, communication skills, and commitment to both science and education. Solomon’s hands-on experience in research labs, coupled with his teaching and leadership roles, positions him as a well-rounded and capable early-career professional.

Research Interest

Solomon Boamah’s research interests lie at the intersection of plant pathology, plant-microbe interactions, and sustainable agriculture. His work primarily focuses on understanding how beneficial microorganisms, particularly species of Trichoderma, enhance plant resistance to abiotic and biotic stressors such as salinity and fungal pathogens like Fusarium pseudograminearum. He is deeply engaged in biocontrol strategies, signal transduction pathways in plants, and the use of microbial metabolites to improve crop resilience. Solomon also explores soil microbial dynamics, enzymatic activity, and gene function analysis, integrating microbiology, molecular biology, and bioinformatics into his research. His scientific curiosity extends to the broader application of biological tools in enhancing crop productivity and soil health under climate stress. By targeting sustainable crop protection methods, his research contributes to global efforts in food security and environmental conservation. His interdisciplinary and practical research approach is aligned with current trends in plant science and ecological agriculture.

Award and Honor

Solomon Boamah has received multiple awards and recognitions that reflect his academic excellence and leadership qualities. He was named the Best International Student in Academics at Gansu Agricultural University for the 2023/2024 academic year, recognizing his high academic performance and research contributions. In 2024, he was selected to present at the prestigious β€œBelt and Road” Young Talents conference in Lianyungang, Chinaβ€”a significant honor that highlights his emerging role in global scientific dialogue. Solomon has also held leadership positions, including President of the Ghanaian community in Lanzhou and President of the Biological Science Students’ Association at his undergraduate university. These roles underline his commitment to service, teamwork, and mentoring. His ongoing roles as a peer reviewer for high-impact journals further validate his growing influence in the academic community. These honors and recognitions not only showcase his achievements but also mark him as a rising talent in plant protection and research leadership.

Conclusion

In conclusion, Solomon Boamah exemplifies the qualities of a dedicated and impactful researcher in the field of plant protection. With a solid educational background and practical experience in laboratory research, teaching, and academic leadership, he has demonstrated consistent growth and productivity. His research, focused on sustainable disease management and plant stress physiology, addresses critical challenges in agriculture and offers innovative solutions through biological control and microbial ecology. Recognized for both his academic performance and leadership capabilities, Solomon has earned respect within his academic circles and has begun contributing to global scientific discussions. His active involvement in peer-reviewed publishing and conference presentations confirms his readiness to transition into more advanced research roles. With a strong work ethic, multidisciplinary skills, and a clear vision for sustainable agriculture, Solomon Boamah is well-positioned to make lasting contributions to plant science and environmental resilience. He is a highly suitable candidate for recognition through awards and advanced research opportunities.

Publications Top Notes

  • Title: Evaluation of salicylic acid (SA) signaling pathways and molecular markers in Trichoderma-treated plants under salinity and Fusarium stresses. A Review
    Authors: S Boamah, T Ojangba, S Zhang, N Zhu, R Osei
    Year: 2023
    Citations: 15

  • Title: Trichoderma longibrachiatum (TG1) Enhances Wheat Seedlings Tolerance to Salt Stress and Resistance to Fusarium pseudograminearum
    Authors: S Boamah, S Zhang, B Xu, T Li
    Year: 2021
    Citations: 49

  • Title: Trichoderma longibrachiatum TG1 increases endogenous salicylic acid content and antioxidants activity in wheat seedlings under salinity stress
    Authors: S Boamah, S Zhang, B Xu, T Li, A CalderΓ³n-Urrea
    Year: 2022
    Citations: 18

  • Title: Comprehensive effects of lifestyle reform, adherence, and related factors on hypertension control: A review
    Authors: T Ojangba, S Boamah, Y Miao, X Guo
    Year: 2023
    Citations: 63

  • Title: Effects of combined application of salicylic acid and proline on the defense response of potato tubers to newly emerging soft rot bacteria (Lelliottia amnigena)
    Authors: R Osei, C Yang, L Wei, M Jin, S Boamah
    Year: 2022
    Citations: 8

  • Title: Effect of short-term heat stress on life table parameters of green peach aphid [Myzus persicae (Sulzer)(Hemiptera: Aphididae)]
    Authors: Y Niaz, I ul Haq, HA Ghramh, S Boamah
    Year: 2022
    Citations: 10

  • Title: Antioxidant Enzymes and Heat-Shock Protein Genes of Green Peach Aphid (Myzus persicae) Under Short-Time Heat Stress
    Authors: A Tamkeen, I Ul Haq, C Li, S Boamah
    Year: 2021
    Citations: 23

  • Title: Isolation, identification, and pathogenicity of Lelliottia amnigena causing soft rot of potato tuber in China
    Authors: R Osei, C Yang, L Cui, T Ma, Z Li, S Boamah
    Year: 2022
    Citations: 21

  • Title: Trichoderma longibrachiatum TG1 Colonization and Signal Pathway in Alleviating Salinity and Fusarium pseudograminearum Stress in Wheat
    Authors: S Boamah, S Zhang, B Xu, N Zhu, E Li
    Year: 2025

  • Title: Mortality, Enzymatic Antioxidant Activity and Gene Expression of Cabbage Aphid (Brevicoryne brassicae L.) in Response to Trichoderma longibrachiatum T6
    Authors: R Inayat, A Khurshid, S Boamah, S Zhang
    Year: 2022

Mostafa koozehgar kaleji | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Mostafa koozehgar kaleji | Agricultural and Biological Sciences | Best Researcher Award

Dr at Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran

Mostafa Koozegar Kaleji is an accomplished researcher in the field of agroecology and sustainable agriculture. He holds a Ph.D. from Gorgan University of Agricultural Sciences and Natural Resources and has over two decades of experience in agricultural research and management. His research focuses on soil-plant interactions, ecosystem services, and plant physiology, with more than 20 peer-reviewed journal articles and several international conference presentations to his credit. Mostafa demonstrates strong technical skills in statistical analysis, GIS, and crop modeling, and has contributed to agricultural education through co-authoring three books. His professional roles include serving as an agricultural specialist and production manager, where he bridges scientific research with practical agricultural practices. While he has made significant strides in research productivity and knowledge dissemination, future focus on high-impact publications and international collaborations could further enhance his profile. Overall, he is a dedicated scholar making valuable contributions to the advancement of sustainable agriculture.

Professional Profile 

Scopus Profile
ORCID Profile

Education

Mostafa Koozegar Kaleji has a solid academic foundation in agricultural sciences with a focus on agroecology. He earned his Ph.D. in Agroecology from Gorgan University of Agricultural Sciences and Natural Resources (2018–2023), where he engaged in advanced research on sustainable agricultural systems and plant-soil interactions. He previously completed his M.Sc. in Agroecology at Islamic Azad University, Karaj Branch (2012–2014), conducting studies that laid the groundwork for his interest in organic and ecological farming practices. His academic journey began with a B.Sc. in Agronomy and Plant Breeding at Islamic Azad University, Qaemshahr Branch (2007–2011), where he developed core competencies in crop science and genetics. This progression reflects a consistent and deepening focus on the ecological dimensions of agriculture. Throughout his education, Mostafa demonstrated a commitment to applying science toward real-world sustainability issues, which is evident in the breadth of his research work and the practical impact of his academic training.

Professional Experience

Mostafa Koozegar Kaleji has accumulated over 20 years of professional experience in agriculture, combining scientific research with practical field implementation. Since 2013, he has served as an Agricultural Specialist and Production Manager with the Jahad-e-Agriculture Organization in Mazandaran Province, where he oversees production planning and promotes the use of modern agricultural technologies. Earlier in his career, he contributed as a researcher at the Cotton Research Institute (2002–2003), working on varietal evaluation and crop improvement. From 2001 to 2012, he worked as an Agricultural Expert with the Babolsar Defense Organization, managing cultivation programs and contributing to food security efforts. This diverse experience across research, management, and field operations gives him a unique perspective that bridges academic knowledge and agricultural practice. His long-standing involvement in agricultural development demonstrates both leadership and hands-on expertise, which significantly enriches his research perspective and positions him as a valuable asset in applied agricultural innovation.

Research Interest

Mostafa Koozegar Kaleji’s research interests are centered around the core themes of agroecology and sustainable \

. He is particularly focused on plant physiology, soil-plant interactions, ecosystem services, and the use of organic and biological fertilizers in crop production systems. His work frequently explores how symbiotic relationships, such as mycorrhizal fungi and nitrogen-fixing bacteria, can improve crop yield, quality, and environmental resilience. He is also deeply engaged in evaluating and mapping ecosystem services in various agroecosystems, using tools like GIS and modeling software. These interests reflect a strong alignment with global agricultural sustainability goals, including reducing chemical inputs, enhancing biodiversity, and improving soil health. His dedication to applied research allows him to develop practical solutions for farming challenges while also contributing to the scientific literature. Overall, his research is marked by a systems-thinking approach, integrating ecological principles into agricultural production for long-term sustainability and resilience.

Award and Honor

While the CV does not list specific awards or honors explicitly, Mostafa Koozegar Kaleji’s extensive publication record and invited participation in international conferences suggest recognition within his professional community. His academic contributionsβ€”spanning over 20 peer-reviewed articles and co-authorship of several booksβ€”demonstrate a high level of scholarly commitment and output, which in itself is often indicative of peer acknowledgment. He has been involved in conferences in Spain, Russia, Georgia, and Iran, which implies international exposure and professional validation. Additionally, his senior roles in governmental agricultural organizations suggest trust and respect from institutional bodies. Publishing in interdisciplinary journals, contributing to capacity building through books, and engaging in workshops on biotechnology and organic farming further reinforce his status as a respected expert. Formalizing these accomplishments through research awards or fellowships would be a logical next step to reflect his contributions more visibly and position him for broader academic recognition and funding opportunities.

Conclusion

In conclusion, Mostafa Koozegar Kaleji stands out as a dedicated and productive researcher whose career reflects a strong alignment with the values of sustainable and science-based agriculture. With a Ph.D. in Agroecology and over two decades of combined academic and field experience, he bridges the gap between research and practice. His publication record, technical skillset, and involvement in international and local agricultural development initiatives underscore his contribution to both scientific advancement and applied solutions in farming. While there is room to enhance his global recognition through more high-impact publications and leadership in international collaborations, his achievements to date are commendable and impactful. His work contributes meaningfully to ecological resilience, food security, and sustainable crop management. Mostafa is a prime candidate for research-focused accolades, and his profile is well suited for awards that value sustained contribution, interdisciplinary expertise, and real-world agricultural impact. With continued growth, he is poised to become a leading figure in agroecological research.

Publications Top Notes

  • Title: Interplay Between ROS and Hormones in Plant Defense Against Pathogens

    • Authors: Haghpanah, M.; Namdari, A.; Koozehgar Kaleji, M.; Nikbakht-dehkordi, A.; Arzani, A.; Araniti, F.

    • Year: 2025

    • Citation: DOI: 10.3390/plants14091297

  • Title: Evaluation, Quantification, and Mapping of Ecosystem Services in Canola Agroecosystems

    • Authors: Koozehgar Kaleji, M.; Kazemi, H.; Kamkar, B.; Amirnejad, H.; Hosseinalizadeh, M.

    • Year: 2023

    • Citation: DOI: 10.1007/s11355-023-00552-y

  • Title: Inoculation with Mycorrhiza and Azotobacter chroococcum Affects the Quantitative and Qualitative Characteristics of Eryngium caeruleum at Different Planting Densities

  • Title: Quantitative and Qualitative Performance of Froriepia subpinnata as Affected by Mycorrhizal Symbiosis, Compost Tea, and Vermicompost

 

Christopher Milton Mathew | Agricultural and Biological Sciences | Best Researcher Award

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Prof. Dr. Christopher Milton Mathew | Agricultural and Biological Sciences | Best Researcher Award

Emeritus Professor at Franco Flinders University, Australia

Emeritus Professor Christopher Milton Mathew Franco is an esteemed researcher in the field of biotechnology, with significant contributions in both academia and industry. He is currently an Emeritus Professor at Flinders University in Australia, within the College of Medicine and Public Health. Prof. Franco’s research journey began with postdoctoral studies in the UK and Germany, before he ventured into the biopharmaceutical industry, where he led a drug discovery team and filed 11 patent families for therapeutic compounds. He has consistently demonstrated a commitment to translational research, focusing on innovations that bridge the gap between scientific discovery and real-world applications. Prof. Franco’s work encompasses sustainable agricultural biotechnology, marine bioproducts, and bioprocesses that aim to address pressing global challenges such as environmental sustainability and healthcare improvements.

Professional Profile

Education

Professor Franco’s educational background is rooted in strong academic training, beginning with his undergraduate studies in the biological sciences. He pursued further advanced education, undertaking postdoctoral research at prestigious institutions such as the University of Manchester in the UK and the University of TΓΌbingen in Germany. These experiences laid the foundation for his scientific career, equipping him with a deep understanding of biotechnology and biopharmaceuticals. His diverse academic training allowed him to thrive in both industrial and academic research settings, where he has continued to expand his knowledge base and contribute to cutting-edge discoveries in biotechnology, particularly in drug development, plant-based products, and marine bioproducts.

Professional Experience

Prof. Franco’s professional journey blends academia and industry, with roles that have cemented his reputation as a leader in biotechnology. He served as a professor of biotechnology at Flinders University, where he also led the Medical Biotechnology Department. His significant contributions in industry include leading a drug discovery and development team at a global biopharmaceutical company. In this role, he was the chief inventor of 11 patent families for therapeutic compounds, illustrating his capacity to drive innovation in biotechnology. Prof. Franco has also been deeply involved in collaborative projects with commercial partners, advancing biotechnological solutions in agriculture and sustainability. He is a pioneer in developing bacterial inoculants for crops and establishing the Flinders Centre for Marine Bioproducts Development, enhancing Australia’s presence in the growing blue bioeconomy sector.

Research Interests

Prof. Franco’s research interests lie at the intersection of biotechnology, sustainability, and innovation. His work focuses on bioproducts and bioprocesses, particularly those derived from plant and marine sources. He is deeply invested in the development of agricultural biotechnology, with an emphasis on bacterial inoculants that improve crop yields sustainably. One of his major achievements is the creation of bacterial inoculants for rice, soybean, and chickpea crops, which are being commercialized with industry partners to enhance agricultural productivity. Additionally, Prof. Franco is dedicated to marine bioproducts, specifically the production of therapeutic compounds from marine natural products, which present significant challenges due to their limited supply. His research aims to optimize the production of these compounds using innovative bioprocesses, contributing to the growing blue bioeconomy and addressing global health and environmental concerns.

Awards and Honors

Throughout his distinguished career, Prof. Franco has received numerous awards and honors in recognition of his contributions to biotechnology. His extensive research and innovative solutions have earned him international acclaim, including industry recognition for his role in advancing agricultural biotechnology and sustainable practices. As an Emeritus Professor at Flinders University, he continues to be a respected figure in academic and scientific circles. Prof. Franco’s pioneering work has been acknowledged through various professional appointments and leadership roles, such as his tenure as Associate Head of Faculty for International Relations at Flinders University. His work in developing patented biotechnological processes and his continued impact on the biopharmaceutical and agricultural sectors underscores his standing as a leader in his field, with a lasting legacy in biotechnology research and commercialization.

Conclusion

Emeritus Professor Christopher Milton Mathew Franco is undoubtedly a strong candidate for the Best Researcher Award due to his extensive contributions to biotechnology, demonstrated by high-impact publications, patents, successful industry collaborations, and innovative research that addresses global challenges. His ongoing efforts in both sustainable agriculture and marine bioproducts have the potential to significantly improve health and environmental sustainability. To further enhance his influence, expanding public engagement and interdisciplinary research collaboration would be beneficial.

Publications Top Noted

  • Streptomyces mahasarakhamensis sp. nov., an Endophytic Actinobacterium Isolated from Jasmine Rice and its Potential as Plant Growth Promoter

    • Authors: S. Sukpanoa, O. Kaewkla, C. Suriyachadkun, P. Klankeo, C.M.M. Franco
    • Year: 2024
    • Citations: 0

  • Exploring Indonesian Sponge-Associated Marine Aspergillus hortai: Characterization of Bioactive Compounds with Potential Anti-Escherichia coli Properties

    • Authors: W.N. Fadillah, N. Sukarno, D. Iswantini, N. Hanif, M. Waite, C.M.M. Franco
    • Year: 2024
    • Citations: 0

  • Production of Alginate Oligosaccharides (AOSs) Using Enhanced Physicochemical Properties of Immobilized Alginate Lyase for Industrial Application

    • Authors: S. Kaur, R.E. Abraham, C.M.M. Franco, M. Puri
    • Year: 2024
    • Citations: 1

  • Oleaginous Microbial Lipids’ Potential in the Prevention and Treatment of Neurological Disorders

    • Authors: M.T. Alhattab, L.S. Moorthy, D. Patel, C.M.M. Franco, M. Puri
    • Year: 2024
    • Citations: 6

  • Marine Sponge-Derived Natural Products: Trends and Opportunities for the Decade of 2011-2020

    • Authors: M.F. Mehbub, Q. Yang, Y. Cheng, C.M.M. Franco, W. Zhang
    • Year: 2024
    • Citations: 1

  • Description of Streptomyces naphthomycinicus sp. nov., an Endophytic Actinobacterium Producing Naphthomycin A and its Genome Insight for Discovering Bioactive Compounds

    • Authors: O. Kaewkla, M.V. Perkins, A. Thamchaipenet, T. Chumroenphat, C.M.M. Franco
    • Year: 2024
    • Citations: 1

  • Streptomyces phytophilus sp. nov., an Endophytic Actinobacterium with Biosynthesis Potential as an Antibiotic Producer

    • Authors: O. Kaewkla, C. Suriyachadkun, C.M.M. Franco
    • Year: 2023
    • Citations: 1

  • Development of Sustainable Downstream Processing for Nutritional Oil Production

    • Authors: S. Rollin, A. Gupta, C.M.M. Franco, S.P. Singh, M. Puri
    • Year: 2023
    • Citations: 1

  • Streptomyces spinosus sp. nov. and Streptomyces shenzhenensis subsp. oryzicola subsp. nov. Endophytic Actinobacteria Isolated from Jasmine Rice and Their Genome Mining for Potential as Antibiotic Producers and Plant Growth Promoters

    • Authors: O. Kaewkla, S. Sukpanoa, C. Suriyachadkun, T. Chumroenphat, C.M.M. Franco
    • Year: 2022
    • Citations: 11

  • Correction to: Revealing the Underlying Mechanisms Mediated by Endophytic Actinobacteria to Enhance the Rhizobiaβ€”Chickpea (Cicer arietinum L.) Symbiosis

    • Authors: T. Xu, Q.A.T. Vo, S.J. Barnett, Y. Zhu, C.M.M. Franco
    • Year: 2022
    • Citations: 1

 

Dr. Chaosai Liu | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Chaosai Liu | Agricultural and Biological Sciences | Best Researcher Award

Lecturer at Henan University of Technology, China

Chaosai Liu is a lecturer at Henan University of Technology, specializing in grain storage safety and its application. With a passion for advancing the science behind grain preservation, Liu’s research focuses on the theoretical and practical aspects of grain storage, particularly in relation to heat and moisture transfer, porosity distribution, and fungal activity within stored grain. Liu’s work has contributed significantly to the improvement of grain storage safety, benefiting both the agricultural industry and food security efforts. Through years of academic pursuit and collaborative projects, Liu has positioned themselves as a leading researcher in the field, contributing not only in research but also in the innovation of new methodologies, such as the anisotropic porosity distribution model and fungal heat production models for grain bulk. Their influence continues to grow, thanks to their dedication to advancing knowledge in this specialized area.

Professional Profile

Education

Chaosai Liu holds a doctoral degree, which laid the foundation for their deep commitment to the study of grain storage safety. After completing their doctoral studies, Liu continued to enhance their expertise through engagement in various national and provincial-level research projects. This academic trajectory enabled them to develop specialized knowledge in areas like heat-moisture transfer models and the dynamics of grain bulk storage. The doctoral training not only solidified their understanding of the underlying theories but also equipped them with the practical skills needed for applied research in food safety and grain storage technologies. Liu’s education has provided them with both theoretical knowledge and hands-on experience, further strengthening their ability to lead impactful projects in the field of agricultural sciences.

Professional Experience

Liu’s professional experience spans multiple years of academic and research involvement, primarily centered around grain storage safety. As a lecturer at Henan University of Technology, Liu has been at the forefront of scientific research in the agricultural field, guiding both students and researchers. Liu’s role involves contributing to several large-scale research initiatives, such as the National Grain Public Welfare Research Project of China and the Key R&D projects in Henan Province. In addition to hosting a scientific and technological research project in Henan Province, Liu has led postdoctoral innovation projects, showcasing their ability to mentor and foster innovation. Their work has involved collaborating with top-tier institutions like the Academy of National Food and Strategic Reservation Administration, where they developed a multi-field coupling theory for grain bulk, reflecting their extensive professional network and reputation in the industry.

Research Interests

Chaosai Liu’s research interests lie primarily in the area of grain storage safety, with a specific focus on the physical and biological processes involved in the preservation of stored grains. They have developed groundbreaking models, including an anisotropic porosity distribution model for grain bulk and a coupled heat-moisture transfer model, both of which contribute to a better understanding of the dynamics of grain storage. Liu’s work also delves into the microbiological aspects of grain preservation, with a particular emphasis on fungal heat production, which has important implications for maintaining the quality of stored grains. Through these innovations, Liu seeks to improve the storage conditions of grains, minimizing loss due to environmental factors and ensuring food security. Their research has wide applications, benefiting agricultural producers, food industries, and researchers in the field of post-harvest technologies.

Awards and Honors

Chaosai Liu has received several awards and honors that reflect the impact and quality of their research. Among these is a second-place award from the Henan Provincial Department of Education, as well as a third-place award from the China Grain and Oil Society, recognizing the significance of their contributions to the field of grain storage and safety. Liu’s innovative work has also resulted in the successful filing of six invention patents, underscoring their role as a thought leader and innovator in grain preservation technologies. These accolades highlight Liu’s exceptional research skills, recognition within the scientific community, and commitment to advancing agricultural safety practices. Their achievements are indicative of the recognition they have earned, both regionally and nationally, for their substantial contributions to the field.

Conclusion

Chaosai Liu has made notable contributions to the field of grain storage safety and related theories, with substantial research experience, innovative work, and recognition through awards and patents. Their leadership in major research projects and collaborations with reputable institutions showcases their capacity for impactful research. While there are areas for improvement, particularly in expanding publications, books, and editorial roles, Liu’s research contributions make them a strong candidate for the Best Researcher Award.

Publications Top Noted

  • Title: Analysis of Heat and Moisture Transfer and Fungi-Induced Hot Spots in Maize Bulk with Different Broken Kernel Contents
    Authors: Chaosai Liu, Guixiang Chen, Deqian Zheng, Jun Yin, Chenxing Cui, Huankun Lu
    Year: 2025
    Citation: Liu, C., Chen, G., Zheng, D., Yin, J., Cui, C., & Lu, H. (2025). Analysis of Heat and Moisture Transfer and Fungi-Induced Hot Spots in Maize Bulk with Different Broken Kernel Contents. Agriculture, 15(3), 338. https://doi.org/10.3390/agriculture15030338
  • Title: Numerical Simulation of Backfilling Construction for Underground Reinforced Concrete Grain Silos
    Authors: Longfei Yue, Guixiang Chen, Chenxing Cui, Chaosai Liu, Boyi Zhao
    Year: 2024
    Citation: Yue, L., Chen, G., Cui, C., Liu, C., & Zhao, B. (2024). Numerical Simulation of Backfilling Construction for Underground Reinforced Concrete Grain Silos. Buildings, 14(12), 3907. https://doi.org/10.3390/buildings14123907
  • Title: Element Tests and Simulation of Effects of Vertical Pressure on Compression and Mildew of Wheat
    Authors: Chaosai Liu, Guixiang Chen, Yang Zhou, Deqian Zheng, Zhongjie Zhang
    Year: 2022
    Citation: Liu, C., Chen, G., Zhou, Y., Zheng, D., & Zhang, Z. (2022). Element Tests and Simulation of Effects of Vertical Pressure on Compression and Mildew of Wheat. Computers and Electronics in Agriculture, 2022, 107447. https://doi.org/10.1016/j.compag.2022.107447
  • Title: A Scientometric Review of Grain Storage Technology in the Past 15 Years (2007–2022) Based on Knowledge Graph and Visualization
    Authors: Guixiang Chen, Jia Hou, Chaosai Liu
    Year: 2022
    Citation: Chen, G., Hou, J., & Liu, C. (2022). A Scientometric Review of Grain Storage Technology in the Past 15 Years (2007–2022) Based on Knowledge Graph and Visualization. Foods, 11(23), 3836. https://doi.org/10.3390/foods11233836
  • Title: Visualization Analysis of Cross Research between Big Data and Construction Industry Based on Knowledge Graph
    Authors: Guixiang Chen, Jia Hou, Chaosai Liu, Kui Hu, Jun Wang
    Year: 2022
    Citation: Chen, G., Hou, J., Liu, C., Hu, K., & Wang, J. (2022). Visualization Analysis of Cross Research between Big Data and Construction Industry Based on Knowledge Graph. Buildings, 12(11), 1812. https://doi.org/10.3390/buildings12111812
  • Title: Effect of Vertical Pressure on Temperature Field Distribution of Bulk Paddy Grain Pile
    Authors: Mengmeng Ge, Guixiang Chen, Chaosai Liu, Deqian Zheng, Wenlei Liu
    Year: 2022
    Citation: Ge, M., Chen, G., Liu, C., Zheng, D., & Liu, W. (2022). Effect of Vertical Pressure on Temperature Field Distribution of Bulk Paddy Grain Pile. Applied Sciences, 12(20), 10392. https://doi.org/10.3390/app122010392
  • Title: Investigation on Compression and Mildew of Mixed and Separated Maize
    Authors: Chaosai Liu, Guixiang Chen, Yang Zhou, Longfei Yue, Wenlei Liu
    Year: 2022
    Citation: Liu, C., Chen, G., Zhou, Y., Yue, L., & Liu, W. (2022). Investigation on Compression and Mildew of Mixed and Separated Maize. Food Science & Nutrition, 10(7), 2985. https://doi.org/10.1002/fsn3.2985
  • Title: Experimental and Numerical Study of Pressure Drop Characteristics of Soybean Grain under Vertical Pressure
    Authors: Wenlei Liu, Guixiang Chen, Chaosai Liu, Deqian Zheng, Mengmeng Ge
    Year: 2022
    Citation: Liu, W., Chen, G., Liu, C., Zheng, D., & Ge, M. (2022). Experimental and Numerical Study of Pressure Drop Characteristics of Soybean Grain under Vertical Pressure. Applied Sciences, 12(14), 6830. https://doi.org/10.3390/app12146830
  • Title: Compression and Fungal Heat Production in Maize Bulk Considering Kernel Breakage
    Authors: Chaosai Liu
    Year: 2022
    Citation: Liu, C. (2022). Compression and Fungal Heat Production in Maize Bulk Considering Kernel Breakage. Applied Sciences, 12(10), 4870. https://doi.org/10.3390/app12104870
  • Title: Experimental Study on Measurement of Interfacial Pressure in Granular Materials
    Authors: Chaosai Liu
    Year: 2022
    Citation: Liu, C. (2022). Experimental Study on Measurement of Interfacial Pressure in Granular Materials. Geotechnical Testing Journal, 45(3), 10215. https://doi.org/10.1520/gtj20210015

 

Cornelia Kasper | Agricultural and Biological Sciences | Best Researcher Award

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Prof. Dr. Cornelia Kasper | Agricultural and Biological Sciences | Best Researcher Award

Head of Institute at BOKU, Department fΓΌr Biotechnologie, Institut fΓΌr Zell- und Gewebekulturtechnologien, Austria

Cornelia Kasper is a renowned professor and researcher in the field of biotechnology, specializing in Tissue Engineering, Stem Cell Technology, and Bioprocess Engineering. She earned her Diploma in Chemistry from the University of Hannover in 1994, followed by a Dr. rer. nat. in 1998 for her dissertation on technical chemistry. Kasper later completed her Habilitation on β€œNew approaches in cell culture techniques” at the University of Hannover in 2007, where she was awarded the Venia Legendi in Technical Chemistry. She has since held numerous leadership roles in both academia and research, including Head of the Cell Culture and Tissue Engineering Group at Leibniz University Hannover (2000-2011) and Full Professor at the University of Natural Resources and Life Sciences (BOKU) in Vienna since 2011. Her academic journey exemplifies a career built on academic rigor, innovative research, and significant contributions to her field.

Professional Profile

Education

Cornelia Kasper’s educational journey began at the University of Hannover, where she earned a Diploma in Chemistry in 1994. Her academic career then progressed through a Ph.D. in 1998, where she focused on Technical Chemistry at the Institute for Technical Chemistry. During her doctoral studies, she developed expertise in areas like bioprocessing and bioreactor design, which laid the foundation for her later work in Tissue Engineering. Kasper further pursued academic excellence by completing her Habilitation at the University of Hannover in 2007, where she specialized in cell culture technologies and received the Venia Legendi in β€œTechnische Chemie.” This qualification allowed her to teach and supervise PhD students, and it was during this period that she began to deepen her expertise in stem cell research. Her educational background is marked by both theoretical knowledge and practical, cutting-edge research.

Professional Experience

Cornelia Kasper’s professional career spans multiple institutions and leadership roles, demonstrating her influence in the fields of biotechnology and regenerative medicine. After completing her dissertation, she was employed as an EU Liaison Officer at the University of Hannover until 2000. From 2000 to 2011, she led the Cell Culture and Tissue Engineering Group at the Institute for Technical Chemistry, Leibniz University Hannover. Her leadership extended to the β€œRebirth” Cluster of Excellence, where she headed the Young Researcher Group on β€œLarge Scale Cultivation.” Since 2011, Kasper has been a Full Professor at the University of Natural Resources and Life Sciences (BOKU), where she is also the Head of the Institute for Cell and Tissue Culture Technologies. Additionally, she has served in several important administrative positions, including Chair of the Equal Opportunity Working Party and Co-Chair of the Doc School β€œBiomaterials and Interfaces,” shaping both academic policy and research agendas.

Research Interests

Cornelia Kasper’s research is primarily focused on Tissue Engineering, Stem Cell Technologies, and Bioprocess Engineering. Her work explores the design and development of bioreactors for large-scale stem cell cultivation, as well as the optimization of cell culture conditions to enhance cell differentiation, expansion, and product development. A key aspect of her research includes the functionalization of biomaterials for use in regenerative therapies, as well as developing new methods for stem cell isolation and characterization. Kasper has made significant contributions to the development of efficient protocols for cell-based assays and therapies, with the ultimate goal of applying these findings in regenerative medicine. Her work aims to bridge the gap between laboratory research and clinical applications, with a focus on scalable, reproducible processes for stem cell manufacturing. Her research also explores the integration of novel technologies to improve cell-based therapy products.

Awards and Honors

Cornelia Kasper has received multiple prestigious awards and honors throughout her career, recognizing her contributions to scientific research and innovation. Her academic achievements began with her doctoral and Habilitation qualifications, which solidified her as a leader in her field. Kasper has been an active member of several influential societies in the field of biotechnology and regenerative medicine, including the Austrian Association of Molecular Life Sciences and Biotechnology (Γ–GMBT). Her research has earned her high recognition, including over 180 publications in leading scientific journals and a high h-index of 43 as of 2024. She is also an editor for several respected volumes in the β€œAdvances in Biochemical Engineering and Biotechnology” series (Springer). In addition, Kasper has been honored with roles such as Chair of the Equal Opportunity Working Party at BOKU and Co-Chair of the Doc School β€œBiomaterials and Interfaces,” further affirming her leadership in both research and academia.

Conclusion

Cornelia Kasper is highly deserving of the Best Researcher Award due to her substantial contributions to Tissue Engineering, Stem Cell Technology, and Bioprocessing. Her leadership, impactful research, and dedication to mentoring the next generation of scientists place her among the leaders in her field. While there are areas for further development, particularly in the realm of translational research and cross-disciplinary collaboration, her impressive body of work and ongoing efforts to improve regenerative medicine make her an outstanding candidate for this award.

Publications Top Noted

  • Development of a novel high-throughput culture system for hypoxic 3D hydrogel cell culture
    • Authors: Egger, D., Baier, L., Moldaschl, J., … Lorber, V., Kasper, C.
    • Year: 2024
    • Journal: Scientific Reports
    • Citations: 1
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  • The fluorochrome-to-protein ratio is crucial for the flow cytometric detection of tissue factor on extracellular vesicles
    • Authors: Weiss, R., Mostageer, M., Eichhorn, T., … Kasper, C., Weber, V.
    • Year: 2024
    • Journal: Scientific Reports
    • Citations: 2
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  • Characterization of MSC Growth, Differentiation, and EV Production in CNF Hydrogels Under Static and Dynamic Cultures in Hypoxic and Normoxic Conditions
    • Authors: Nikolits, I., Chariyev-Prinz, F., Egger, D., … Mytzka, N., Kasper, C.
    • Year: 2024
    • Journal: Bioengineering
    • Citations: 0
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  • Dynamic cultivation of human mesenchymal stem/stromal cells for the production of extracellular vesicles in a 3D bioreactor system
    • Authors: Almeria, C., Weiss, R., Keck, M., … Kasper, C., Egger, D.
    • Year: 2024
    • Journal: Biotechnology Letters
    • Citations: 1
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  • Spheroid trilineage differentiation model of primary mesenchymal stem/stromal cells under hypoxia and serum-free culture conditions
    • Authors: Moldaschl, J., Chariyev-Prinz, F., Toegel, S., … Egger, D., Kasper, C.
    • Year: 2024
    • Journal: Frontiers in Bioengineering and Biotechnology
    • Citations: 2
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  • Kinetics of NK-92 growth and functionality in pseudo-static cultures
    • Authors: GarcΓ­a Aponte, O.F., Kozma, B., Egger, D., Kasper, C., Herwig, C.
    • Year: 2023
    • Journal: Biochemical Engineering Journal
    • Citations: 1
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  • Hydrogels from TEMPO-Oxidized Nanofibrillated Cellulose Support In Vitro Cultivation of Encapsulated Human Mesenchymal Stem Cells
    • Authors: Nikolits, I., Radwan, S., Liebner, F., … Chariyev-Prinz, F., Kasper, C.
    • Year: 2023
    • Journal: ACS Applied Bio Materials
    • Citations: 7
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  • Heterogeneity of mesenchymal stem cell-derived extracellular vesicles is highly impacted by the tissue/cell source and culture conditions
    • Authors: Almeria, C., Kreß, S., Weber, V., Egger, D., Kasper, C.
    • Year: 2022
    • Journal: Cell and Bioscience
    • Citations: 41
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  • Decoding Distinct Ganglioside Patterns of Native and Differentiated Mesenchymal Stem Cells by a Novel Glycolipidomics Profiling Strategy
    • Authors: Hohenwallner, K., Troppmair, N., Panzenboeck, L., … Egger, D., Rampler, E.
    • Year: 2022
    • Journal: JACS Au
    • Citations: 8
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  • Editorial: Advanced cell culture technologies to boost cell-based therapies, volume II
    • Authors: Egger, D., Hansmann, J., Kasper, C., Kouroupis, D.
    • Year: 2022
    • Journal: Frontiers in Bioengineering and Biotechnology
    • Citations: 0
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