Samuel Koeshall | Biological Sciences | Best Researcher Award

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Mr. Samuel Koeshall | Biological Sciences | Best Researcher Award

MSU Bozeman, United States

Samuel Thomas Koeshall is a dedicated researcher and doctoral candidate in Ecology and Environmental Science at Montana State University. With a strong academic foundation in Plant Sciences and Agronomy, Samuel’s work has consistently addressed critical challenges in sustainable agriculture, particularly in semi-arid and dryland cropping systems. His professional journey spans academia and industry, combining applied field research with laboratory-based investigations. He has led and contributed to several high-impact research projects funded by competitive grants, including USDA-ARS and SARE. His focus on field peas, rotational cropping systems, and intra-field protein variability has resulted in multiple peer-reviewed publications in reputable journals. Samuel has also earned recognition through awards from the Tri-Societies for his excellence in research presentation. His industry experience with organizations such as Land O’ Lakes and Farm Credit Mid-America complements his academic expertise, equipping him with practical insights into crop management and production systems. Passionate about advancing agricultural practices, Samuel continually strives to improve the productivity, resilience, and sustainability of cropping systems in North America. With a strong publication record, grant success, and hands-on teaching experience, he is well-positioned to make long-term contributions to agricultural science, education, and industry engagement.

Professional Profile

Education

Samuel Koeshall holds a progressive and well-rounded academic background that underpins his current research in Ecology and Environmental Science. He began his higher education journey at the University of Tennessee – Knoxville, where he earned a Bachelor of Science degree in Plant Sciences in May 2017, graduating Cum Laude. This undergraduate foundation was marked by active engagement in student mentorship and research, including his roles as a lab technician and undergraduate teaching assistant. He then pursued a Master of Science in Agronomy at the University of Nebraska – Lincoln, graduating in December 2019. During his time there, he served as a Graduate Research Assistant and contributed to essential work in dryland cropping systems and legume integration. Currently, Samuel is a Ph.D. candidate at Montana State University – Bozeman, focusing on Ecology and Environmental Science. His doctoral research explores environmental factors affecting pea protein variability and sustainable cropping strategies in Montana’s semi-arid systems. This academic path reflects a clear trajectory focused on solving practical agricultural challenges through empirical research, cross-institutional learning, and regional field applications. His academic excellence has been further reinforced by scholarships, poster presentation awards, and key roles in large-scale funded projects.

Professional Experience

Samuel Koeshall’s professional journey encompasses a diverse blend of academic appointments and industry internships that collectively demonstrate his strength in both theoretical knowledge and applied agricultural practice. At Montana State University – Bozeman, he has served as a Research Associate and Ph.D. student since January 2020. His role includes field-based research, grant writing, and mentoring undergraduates. Prior to this, he was a Graduate Research Assistant at the University of Nebraska – Lincoln (2017–2019), where he focused on rotational cropping systems, field peas, and sustainable agronomy. At the University of Tennessee – Knoxville, he served in multiple roles from 2013 to 2017, including College of Agriculture Ambassador, Undergraduate TA, and Lab Technician. His industry experience is equally impressive, having interned with leading organizations like Land O’ Lakes – Winfield United, Farm Credit Mid-America, Bell Crop Consulting, and Masters Choice Seed Corn. These internships provided him hands-on experience in crop scouting, data analysis, seed trials, GPS soil mapping, and agribusiness development. His exposure to both academic and commercial settings has equipped him with a robust, application-oriented skill set. This multi-faceted background allows Samuel to contribute holistically to agriculture through research, teaching, and industry collaborations.

Research Interests

Samuel Koeshall’s research interests lie at the intersection of agronomy, crop science, soil science, and environmental sustainability. His current doctoral research at Montana State University focuses on understanding the environmental controls on pea protein variability within dryland cropping systems. He is particularly interested in the rotational benefits of legumes, especially field peas, as sustainable alternatives to chemical summer fallow. His work integrates ecological principles with agricultural practices to develop cropping systems that are both resilient and productive in semi-arid environments. Samuel also investigates intra-field variability, precision agriculture techniques, and the long-term impacts of crop diversification on soil health and crop yield. Earlier in his career, he contributed significantly to projects evaluating planting date and seeding rate of field peas in Nebraska’s High Plains, as well as optimizing lentil yields through agronomic factors such as rolling and seeding rates. His broader interests include sustainable intensification, cover cropping strategies, and agroecological resilience under changing climatic conditions. Samuel’s research not only contributes to academic knowledge but also provides practical guidelines for farmers, agronomists, and policy-makers aiming to promote sustainable food systems. His work continues to evolve toward building adaptive and scalable solutions in agronomic research.

Research Skills

Samuel Koeshall possesses a strong arsenal of research skills that span both field-based agronomy and laboratory-based analysis. His technical proficiency includes designing field experiments, conducting soil and plant sampling, managing large datasets, and performing advanced statistical analyses. He is skilled in the use of GPS mapping for soil variability assessments and remote sensing technologies to evaluate crop health and yield predictions. Samuel has a solid command of scientific tools for measuring protein content, nutrient cycling, and crop physiological responses under various environmental conditions. His experience with grant proposal writing, particularly for USDA-ARS and SARE-funded projects, highlights his capability in formulating research objectives, timelines, and budgets. He has served as the lead investigator in multiple research initiatives, managing tasks such as experimental design, data interpretation, and dissemination of findings through publications and conferences. His teaching roles further reflect his ability to communicate complex concepts to diverse audiences. Samuel’s experience in collaborative research, spanning university departments and industry partners, underscores his ability to work effectively in multidisciplinary environments. His research skills are bolstered by his adaptability and hands-on experience in both academic and commercial agricultural settings, making him a competent and reliable researcher in the agronomic sciences.

Awards and Honors

Samuel Koeshall has been recognized multiple times for his research excellence and academic leadership. Among his most notable achievements are his awards from the Tri-Societies Annual Meetings (Agronomy, Crop Science, and Soil Science Societies of America). In 2018, he won third place overall for his poster presentation on the integration of yellow field pea in semi-arid dryland cropping systems. The following year, in 2019, he achieved first place for his presentation on the rotational benefits of replacing chemical summer fallow with field pea. These accolades highlight his ability to clearly communicate scientific findings and underscore the importance of his research. In addition, he graduated Cum Laude from the University of Tennessee – Knoxville, a testament to his academic excellence. Samuel has also received competitive research grants including the USDA-ARS PCHI award and WSARE Graduate Student Grant, each of which recognizes both the merit of his research proposals and his leadership potential in agricultural research. His teaching roles and peer-reviewed publications further contribute to his distinguished academic profile. These honors not only acknowledge his past achievements but also point to a promising future in sustainable agronomy and applied ecological research.

Conclusion

Samuel Thomas Koeshall exemplifies the qualities of a well-rounded researcher poised to make a lasting impact on sustainable agriculture and ecological research. With a strong academic foundation, field and laboratory research expertise, and practical experience in the agricultural industry, he bridges the gap between science and application. His research contributions in dryland cropping systems, particularly regarding the integration of field peas and precision farming, address pressing global challenges related to food security, soil health, and climate resilience. His ability to secure competitive funding and publish in respected journals demonstrates both his intellectual rigor and research competence. His accolades from national conferences and consistent engagement with academic and farming communities underline his dedication to knowledge dissemination and collaborative growth. Samuel’s career trajectory reflects a commitment to not only advancing agricultural research but also translating findings into actionable practices for farmers and stakeholders. With ongoing doctoral research and an expanding network of professional collaborations, he is well-positioned to lead future initiatives that promote sustainable and efficient agricultural systems. He is a deserving candidate for the Best Researcher Award and a promising contributor to the field for years to come.

Publications Top Notes

  1. Inoculant and Fertilizer Effects on Lentil in the US Northern Great Plains

  • Journal: Agronomy Journal

  • Publication Date: March 2024

2. Replacing Fallow with Field Pea in Wheat Production Systems Across Western Nebraska

  • Journal: Agronomy Journal

  • Publication Date: November 2022

3. Planting Date and Seeding Rate of Field Pea in the Semi‐Arid High Plains of Nebraska

  • Journal: Agronomy Journal

  • Publication Date: March 2021

ZAIN ABBAS | Biological Sciences | Outstanding Scientist Award

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Mr. ZAIN ABBAS | Biological Sciences | Outstanding Scientist Award

Researcher from Anhui Science and Technology University, China

Zain Abbas is a dedicated and emerging researcher in the field of agronomy, currently pursuing his M.Phil. in Agronomy and Seed Industry at Anhui Science and Technology University in China. With a strong academic background and hands-on experience in plant breeding, tissue culture, and crop physiology, Zain has positioned himself as a promising contributor to agricultural science. His research is primarily focused on the influence of magnesium oxide (MgO) nanoparticles on maize growth and resilience, aiming to leverage nanotechnology for sustainable agriculture and improved crop productivity. Alongside his primary research, he has also explored transcriptomics, identifying key plant growth regulator genes involved in stress responses. Zain has authored and co-authored several publications, both in English and Chinese, in areas including nanotechnology applications, seed physiology, and plant propagation. His work integrates practical lab-based experimentation with advanced analytical techniques such as PCR, DNA extraction, and in-vitro propagation. He has been recognized for both academic excellence and extracurricular contributions through numerous awards. Zain is passionate about addressing global food security challenges and aspires to further his research through international collaborations and doctoral studies. His blend of technical skills, global perspective, and innovative mindset makes him an ideal candidate for research-focused recognition.

Professional Profile

Education

Zain Abbas’s academic journey reflects a continuous commitment to excellence in agricultural sciences, particularly in the domains of plant breeding and agronomy. He is currently pursuing an M.Phil. in Agronomy and Seed Industry at Anhui Science and Technology University in Fengyang, China. This program has allowed him to focus on cutting-edge research involving magnesium oxide nanoparticles and their effects on maize crop development and stress management. Prior to this, he completed his Bachelor’s degree in Plant Breeding and Genetics from Muhammad Nawaz Sharif University of Agriculture in Multan, Pakistan, where he graduated with distinction as a Silver Medalist between 2016 and 2020. Zain’s foundation in science was laid during his intermediate studies in Pre-Medical at KIPS Boys College, Multan, from 2014 to 2016. His academic record not only reflects a strong grasp of theoretical concepts but also highlights his ability to conduct practical, laboratory-based research. This blend of local and international education has shaped his scientific approach, enabling him to tackle agronomic challenges with both traditional knowledge and modern scientific tools. His educational background has equipped him with the skills necessary for advanced research, and his transition from national to international academia underlines his global orientation in science.

Professional Experience

Zain Abbas has accumulated a diverse range of professional research experiences that collectively demonstrate his growth as a capable and versatile agronomist. Currently serving as a Researcher at Anhui Science and Technology University in China, Zain plays a crucial role in experimental design, data analysis, laboratory management, and protocol development. His current work primarily investigates the impact of magnesium nanoparticles on maize, contributing to innovations in sustainable agriculture and plant resilience. Previously, from 2018 to 2020, he served as a Research Assistant in Multan, Pakistan, where he gained substantial expertise in tissue culture techniques, media optimization, genetic transformation, and plant material handling. This role allowed him to enhance his technical skills and support broader laboratory research goals effectively. Earlier in his career, between 2017 and 2018, Zain completed an internship as a Crop Breeder in Vehari, Punjab, where he was responsible for managing five hectares of agricultural land, performing crop crossings, and analyzing productivity data for maize and wheat. This field-based experience helped bridge theoretical knowledge with hands-on application in real-world farming environments. These cumulative roles have refined his research acumen, broadened his technical toolkit, and prepared him for more advanced scientific contributions and leadership in agricultural research.

Research Interests

Zain Abbas’s research interests lie at the intersection of sustainable agriculture, nanotechnology, plant physiology, and seed science. His primary research explores the application of magnesium oxide (MgO) nanoparticles in enhancing the growth, yield, and stress resilience of maize (Zea mays L.). He is particularly interested in how nanotechnology can improve plant nutrient uptake and tolerance to abiotic stresses, ultimately contributing to global food security. Another significant area of his research includes transcriptomics, where he investigates the expression of growth regulator genes in maize under stress conditions. This molecular-level approach helps identify genetic pathways responsible for plant development and adaptability. Additionally, Zain is passionate about plant breeding and seed industry innovations, particularly the development of high-yielding, resilient, and health-safe crop varieties. His early work in genetic transformation and in-vitro propagation of crops like quinoa and mung bean highlights his interest in biotechnology and plant tissue culture. He envisions continuing his research journey through international collaboration, doctoral studies, and R&D roles focused on breeding, molecular genetics, and crop improvement. His long-term objective is to contribute to developing climate-resilient and nutrient-rich crops that address the evolving challenges of agriculture in the 21st century.

Research Skills

Zain Abbas possesses a comprehensive set of research skills that span both laboratory and field-based methodologies in agricultural science. He is highly proficient in plant tissue culture, with expertise in media preparation, culture maintenance, and micropropagation of various crops such as quinoa and mung bean. His work also includes genetic transformation, where he has gained experience in DNA extraction and polymerase chain reaction (PCR) techniques—essential for molecular biology studies. In his current role, he actively engages in experimental design, data collection, statistical analysis, and instrument handling, ensuring the generation of reliable and reproducible results. He is also skilled in protocol development, laboratory maintenance, and literature review, demonstrating strong capabilities in both scientific rigor and research organization. His involvement in transcriptomic analysis and nanoparticle application reflects advanced analytical thinking and an ability to work with emerging technologies in agronomy. Beyond technical skills, Zain is adept in scientific communication, having participated in academic conferences and presentations. His multilingual abilities and cross-cultural academic background further enhance his collaborative potential in international research environments. These research competencies form the backbone of his academic and professional success and position him well for continued research excellence.

Awards and Honors

Zain Abbas has earned several awards and honors that recognize both his academic achievements and extracurricular contributions. In 2024, he received a “Special Award” in the Second English Anchor Competition at the 15th Foreign Language Culture Festival of Anhui Science and Technology University, highlighting his effective communication skills. The same year, he also won second prize in the university’s fourth flower arrangement competition, reflecting his creative engagement in campus life. In 2023, he participated in the 11th International Student Cultural Activity in Anhui Province, enhancing cross-cultural academic exchange. His involvement in high-level academic events began early, including participation in the 2nd Sino-Pak International Conference and the 1st International Business Gala in 2018. During his undergraduate years, Zain was awarded a laptop under the Prime Minister’s Laptop Scheme in 2019 and received a solar lamp in 2016 as recognition for academic performance during intermediate education. He has also taken part in numerous innovation competitions such as Idea Fest, Peace Training, and DICE Agricultural and Food Science competitions, showcasing his creativity and problem-solving skills. These accolades reflect his active involvement in academia and beyond, confirming his all-rounded capabilities as a researcher and student leader.

Conclusion

In conclusion, Zain Abbas is a highly motivated and capable early-career researcher in the field of agronomy, with a strong foundation in plant breeding, nanotechnology applications, and molecular plant sciences. His research on magnesium oxide nanoparticles in maize is not only timely but also addresses critical issues related to crop productivity and climate resilience. With multiple research experiences, both in the lab and field, Zain has developed a well-rounded skill set that includes experimental design, molecular analysis, and scientific communication. His education from both Pakistan and China provides him with a global outlook, and his active participation in academic and cultural activities further showcases his versatility. While still at the M.Phil. level, his contributions already demonstrate strong research potential, making him a suitable candidate for future doctoral studies and collaborative projects in agricultural R&D. The breadth of his research interests—from transcriptomics to crop breeding—underscores his commitment to innovative and sustainable agriculture. His achievements, both academic and extracurricular, reflect a well-balanced individual poised to make meaningful contributions to global agricultural science. For these reasons, Zain Abbas is a strong nominee for the Best Researcher Award, particularly in categories recognizing research innovation, emerging scholars, and interdisciplinary agricultural research.

Publications Top Notes

  1. Antifungal Activity of Difenoconazole-Loaded Microcapsules against Curvularia lunata

📚 Journal: Journal of Fungi
📅 Year: 2024
🧪 Authors: Chang, Xiaoyu, Wang, Yuyan, Abbas, Zain, Yu, Haibing

Xiaosan Huang | Biological Sciences | Best Researcher Award

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Prof. Xiaosan Huang | Biological Sciences | Best Researcher Award

Professor from College of Horticulture, Nanjing Agricultural University, China

Professor Xiaosan Huang is a distinguished scholar in the field of horticultural science, currently serving as a professor and doctoral advisor at the College of Horticulture, Nanjing Agricultural University. Born in 1983, he has dedicated his career to advancing research in fruit tree stress resistance, DNA methylation, epigenetics, and germplasm innovation. With over 20 national and provincial-level research projects under his leadership, Professor Huang has made significant contributions to the scientific community. His prolific publication record includes 28 academic papers, 20 of which are indexed in SCI journals, with eight published in journals boasting impact factors exceeding 6.0. His work has garnered over 520 citations, reflecting the impact and relevance of his research. In addition to his research endeavors, Professor Huang is committed to education, having taught multiple undergraduate and postgraduate courses and mentored numerous students who have achieved notable academic successes. His contributions have been recognized through various awards, including the Jiangsu Province “Outstanding Youth Fund” and the “Young Scholar Award” from Dabei Agriculture. Professor Huang’s dedication to research, education, and innovation positions him as a leading figure in his field.

Professional Profile

Education

Professor Huang’s academic journey commenced at Huazhong Agricultural University, where he earned his Bachelor’s degree in Horticulture from the College of Horticulture in 2006. He continued at the same institution for a combined Master’s and Doctoral program in Pomology, completing his Ph.D. in 2011. This rigorous academic training provided him with a solid foundation in horticultural science, equipping him with the knowledge and skills necessary for his future research endeavors. His education emphasized both theoretical understanding and practical application, fostering a comprehensive grasp of plant biology, genetics, and breeding techniques. The interdisciplinary nature of his studies allowed him to explore various facets of horticulture, laying the groundwork for his subsequent focus on fruit tree stress resistance and molecular biology. This strong educational background has been instrumental in shaping Professor Huang’s research trajectory and his contributions to the field.

Professional Experience

Professor Huang’s professional career is marked by a series of progressive roles at Nanjing Agricultural University. He began as a Lecturer in the College of Horticulture from 2011 to 2013, advancing to Associate Professor from 2014 to 2018, and attaining the rank of Professor in 2019. His tenure at the university has been characterized by active involvement in teaching, research, and academic leadership. In 2015, he expanded his international experience as a Visiting Scholar at Purdue University’s College of Horticulture and Landscape Architecture, where he engaged in collaborative research and broadened his academic perspectives. Throughout his career, Professor Huang has demonstrated a commitment to academic excellence, contributing to curriculum development, mentoring students, and leading significant research projects. His professional journey reflects a dedication to advancing horticultural science and fostering the next generation of researchers.

Research Interests

Professor Huang’s research interests are centered on the molecular mechanisms underlying fruit tree responses to abiotic stresses, such as cold, drought, and salinity. He focuses on identifying and utilizing superior genetic resources to enhance stress resistance in fruit trees. His work delves into DNA methylation and epigenetic modifications, exploring how these processes influence gene expression and plant adaptation. Additionally, he investigates the role of transcription factors, such as MYB, WRKY, and NAC families, in regulating stress-responsive genes. Professor Huang is also interested in germplasm innovation, aiming to develop new cultivars with improved resilience and productivity. His interdisciplinary approach combines genomics, molecular biology, and biotechnology to address challenges in horticulture and contribute to sustainable agricultural practices.

Research Skills

Professor Huang possesses a comprehensive skill set in plant molecular biology and genomics. He is proficient in techniques such as gene cloning, quantitative real-time PCR, and transcriptome analysis. His expertise extends to genome-wide association studies and the functional characterization of genes involved in stress responses. He has experience in utilizing bioinformatics tools for data analysis and visualization, facilitating the interpretation of complex genomic data. Professor Huang is adept at designing and conducting experiments to elucidate gene function and regulatory networks. His skills also encompass the development of genetic transformation systems for functional validation studies. These competencies enable him to conduct cutting-edge research aimed at improving fruit tree resilience and productivity.

Awards and Honors

Professor Huang’s contributions to horticultural science have been recognized through numerous awards and honors. He received the “Outstanding Youth Fund” from Jiangsu Province in 2017, acknowledging his potential and achievements in scientific research. In 2016, he was honored as an “Outstanding Young Backbone Teacher” under the Qinglan Project of Jiangsu Province, reflecting his excellence in teaching and mentorship. His innovative research earned him the “Zhongshan Academic Rookie” title from Nanjing Agricultural University in 2013. He was also awarded the “Young Scholar Award” by Dabei Agriculture in 2017. Furthermore, he has been part of teams that received prestigious accolades, such as the first prize of the Shennong China Agricultural Science and Technology Award in 2016-2017 and the Excellent Innovation Team Award in 2018-2019. These honors underscore his significant impact on both research and education in horticultural science.

Conclusion

Professor Xiaosan Huang exemplifies a dedicated and accomplished researcher in horticultural science. His extensive academic background, encompassing rigorous education and progressive professional experience, has laid the foundation for his impactful research. His focus on understanding and enhancing fruit tree resilience to environmental stresses addresses critical challenges in agriculture. Through his interdisciplinary approach, combining molecular biology, genomics, and biotechnology, he contributes to the development of sustainable horticultural practices. His commitment to education is evident in his mentorship of students and contributions to curriculum development. The recognition he has received through various awards and honors attests to his influence and leadership in the field. Professor Huang’s ongoing work continues to advance our understanding of plant stress responses and holds promise for improving crop resilience and productivity.

Publications Top Notes

  1. Title: Genome-wide identification of the Phospholipase D (PLD) gene family in Chinese white pear (Pyrus bretschneideri) and the role of PbrPLD2 in drought resistance

    • Authors: Likun Lin, Kaili Yuan, Xiaosan Huang, Shaoling Zhang

    • Journal: Plant Science

  2. Title: Synergistic Interaction Between PbbZIP88 and PbSRK2E Enhances Drought Resistance in Pear Through Regulation of PbATL18 Expression and Stomatal Closure

    • Authors: Likun Lin, Kaili Yuan, Kaijie Qi, Xiaosan Huang, Shaoling Zhang

    • Journal: Plant, Cell and Environment

    • Citations: 1

  1. Title: PbERF2-like interacts with PbNPR1 while enhancing the resistance of pear to Alternaria alternata

    • Authors: Qinghai Qiao, Zhiyuan Su, Xin Wang, Xiaosan Huang, Shaoling Zhang

    • Journal: Scientia Horticulturae

  2. Title: PbGBF3 enhances salt response in pear by upregulating PbAPL2 and PbSDH1 and reducing ABA-mediated salt sensitivity

    • Authors: Huizheng Dong, Qiming Chen, Yifei Fu, Shaoling Zhang, Xiaosan Huang

    • Journal: Plant Journal

    • Citations: 3

  3. Title: Pyrus betulaefolia ERF3 interacts with HsfC1a to coordinately regulate aquaporin PIP1;4 and NCED4 for drought tolerance

    • Authors: Feng Zhang, Zhijian Pan, Chengyang Han, Shaoling Zhang, Xiaosan Huang

    • Journal: Horticulture Research

    • Citations: 6

Sajad Rostami | Biological Sciences | Innovative Research Award

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Assoc. Prof. Dr. Sajad Rostami | Biological Sciences | Innovative Research Award

Associate Professor from Shahrekord University, Iran

Sajad Rostami is a dedicated researcher and academic with a strong background in nanotechnology, polymer science, and biomedical engineering. With extensive hands-on experience in laboratory research and industrial settings, he has established himself as a promising innovator in the field of materials science. His expertise lies in the synthesis and characterization of advanced nanomaterials, drug delivery systems, and polymer-based composites for medical applications. Sajad has demonstrated a keen ability to bridge the gap between fundamental research and practical applications, contributing to numerous interdisciplinary projects involving both academia and industry. His contributions include co-authoring peer-reviewed publications, participating in scientific conferences, and actively collaborating with international researchers. In addition to his technical knowledge, he has honed his analytical and critical thinking skills through rigorous experimentation and data interpretation. Known for his work ethic, problem-solving abilities, and collaborative nature, Sajad continues to push the boundaries of science by pursuing innovative approaches to address current challenges in biomedicine and material engineering. He is also passionate about mentoring students and participating in educational outreach programs. As he advances in his career, Sajad aims to leverage his interdisciplinary knowledge to develop smart and sustainable materials that can significantly impact the fields of healthcare, diagnostics, and environmental protection.

Professional Profile

Education

Sajad Rostami’s educational journey reflects his commitment to academic excellence and specialization in materials science and nanotechnology. He obtained his Ph.D. in Nanoscience and Nanotechnology from the Institute for Advanced Studies in Basic Sciences (IASBS), Zanjan, Iran. During his doctoral studies, he focused on the design and development of nanomaterials for drug delivery applications, with a strong emphasis on polymer-based carriers and targeted delivery systems. His dissertation work involved extensive synthesis and surface functionalization of nanoparticles for enhanced therapeutic performance and controlled release mechanisms. Prior to his Ph.D., Sajad earned his Master’s degree in Polymer Engineering from Amirkabir University of Technology (Tehran Polytechnic), one of the top-ranked engineering institutions in Iran. His master’s thesis centered on the development of novel biocompatible polymers for use in biomedical applications. He also completed his undergraduate studies in Chemical Engineering, which laid the foundation for his understanding of chemical processes, thermodynamics, and process optimization. Throughout his academic career, Sajad has received various scholarships and recognitions for his outstanding academic performance and research contributions. His educational background combines theoretical depth with practical laboratory training, positioning him as a well-rounded researcher equipped to tackle modern challenges in material science and bioengineering.

Professional Experience

Sajad Rostami has cultivated a robust professional portfolio through a blend of academic research, industrial collaboration, and scientific project management. As a Postdoctoral Researcher at the Department of Chemical Engineering at Tarbiat Modares University, he was involved in developing advanced drug delivery systems and polymer-based hydrogels for tissue engineering applications. During his tenure, he led multiple projects that combined polymer chemistry with nanotechnology to create materials that mimic biological functions. He also served as a Research Associate in collaboration with leading pharmaceutical companies, contributing to the scaling-up of nanoformulations and optimizing synthesis protocols for commercial applications. Additionally, Sajad has gained valuable teaching experience, mentoring graduate and undergraduate students in subjects such as nanomaterials, polymer science, and chemical engineering principles. His role as a scientific consultant for biotech startups has allowed him to apply his research knowledge to solve real-world problems, particularly in the development of biocompatible materials and diagnostic platforms. He is proficient in project planning, laboratory management, and scientific communication, often leading interdisciplinary teams in publishing research papers and submitting grant proposals. Sajad’s professional experience reflects his versatility and adaptability in both academic and industry-focused research environments, making him a valuable contributor to cutting-edge innovations in materials and biomedical sciences.

Research Interests

Sajad Rostami’s research interests lie at the intersection of nanotechnology, polymer science, and biomedical engineering. He is particularly fascinated by the development of smart nanomaterials for targeted drug delivery and regenerative medicine. His work involves designing and synthesizing functionalized polymers and nanocomposites with stimuli-responsive properties that can be tailored for specific therapeutic applications. A significant portion of his research focuses on biodegradable and biocompatible materials that mimic the extracellular matrix, supporting cell growth and tissue regeneration. He is also interested in surface modification techniques to improve the efficacy of drug carriers, enhance cellular uptake, and achieve controlled drug release. Additionally, Sajad explores the integration of nanomaterials with diagnostic platforms to create multifunctional systems for disease detection and monitoring. His interdisciplinary approach combines chemical engineering, materials science, and life sciences to address critical healthcare challenges. He is currently exploring the potential of natural and synthetic polymers for 3D bioprinting, scaffold fabrication, and wound healing applications. With a strong belief in the translational potential of science, Sajad seeks to bridge academic research with clinical needs by creating materials that not only perform well in vitro but also demonstrate effectiveness in in vivo environments. His research contributes to the advancement of personalized and precision medicine.

Research Skills

Sajad Rostami possesses an impressive array of research skills that span experimental techniques, analytical instrumentation, and scientific communication. He is highly skilled in the synthesis and characterization of nanomaterials, especially polymer-based drug delivery systems and nanocomposites. His technical expertise includes methods such as electrospinning, emulsion polymerization, and sol-gel processing for material fabrication. Sajad is proficient in various characterization tools including Fourier-transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), dynamic light scattering (DLS), and zeta potential analysis. These techniques allow him to thoroughly analyze material morphology, composition, and surface properties. In addition, he has hands-on experience in drug release profiling, cytotoxicity assays, and in vitro cell culture studies, which are essential for biomedical applications. He is also adept at statistical analysis and using software tools such as MATLAB, Origin, and SPSS for data interpretation. Sajad’s research is often interdisciplinary, requiring collaboration with professionals from biology, chemistry, and engineering backgrounds. His effective communication skills enable him to write high-quality scientific articles, deliver impactful presentations, and participate in grant writing. Furthermore, he has mentored junior researchers, managed laboratory safety protocols, and maintained detailed documentation of experimental procedures. These diverse research skills have made him a competent and dependable scientific professional.

Awards and Honors

Throughout his academic and research career, Sajad Rostami has received several awards and honors in recognition of his excellence in research and scholarly contributions. He has been the recipient of prestigious research scholarships during his Ph.D. studies, granted by the Institute for Advanced Studies in Basic Sciences (IASBS), based on his academic achievements and research performance. His master’s thesis on biocompatible polymers earned distinction and was selected among the top theses in the field of polymer engineering. In recognition of his scientific publications in high-impact journals, he has been honored by his home institutions and invited to speak at national and international conferences. Sajad has also received awards for best poster and oral presentations in various scientific symposia, where he presented innovative findings related to drug delivery and nanomaterials. He has been acknowledged for his role in collaborative research projects, especially those with industrial partners, showcasing his ability to translate research into application. Moreover, he has actively participated in science outreach and mentoring activities, earning appreciation certificates for his contributions to student development programs. These accolades reflect his dedication to academic excellence, innovation, and service to the scientific community, reinforcing his role as an emerging leader in nanoscience and biomedical research.

Conclusion

Sajad Rostami is a dynamic and forward-thinking researcher whose work exemplifies the integration of materials science with biomedical innovation. With a strong educational foundation and diverse professional experiences, he has made significant contributions to the field of nanotechnology and polymer engineering. His research not only advances scientific knowledge but also holds practical implications for drug delivery, tissue engineering, and medical diagnostics. By maintaining a multidisciplinary approach and a strong collaborative spirit, Sajad continues to explore new frontiers in the design of functional biomaterials. His dedication to mentoring, outreach, and academic leadership further highlights his commitment to shaping the next generation of scientists. With a blend of technical acumen, creativity, and perseverance, he remains focused on solving critical challenges in healthcare through material innovation. As he continues his professional journey, Sajad seeks to foster meaningful partnerships between academia and industry to facilitate the real-world application of his research. His vision is to develop smarter, safer, and more effective biomedical solutions that can positively impact patient lives. With an unwavering passion for science and a clear sense of purpose, Sajad Rostami stands as a valuable contributor to the global scientific community and a promising figure in the future of biomedical materials research.

Publications Top Notes

  1. Intensified biodiesel production through two-disk hydrodynamic reactors: process design and optimization using RSM
    Authors: Asghar Khodadadi, Sajad Rostami, Ebrahim Fayyazi
    Journal: Biofuels
    Year: 2025

  2. Optimization of methyl ester synthesis using gas/liquid phase pulsed discharge plasma in a novel oscillatory slug flow reactor
    Authors: Mohammadreza Asghari, Bahram Hosseinzadeh Samani, Rahim Ebrahimi, Sajad Rostami, Ebrahim Fayyazi
    Journal: Journal of Renewable and Sustainable Energy
    Year: 2024

  3. Development of plasma-activated water (PAW) system: molecular dynamics simulation and experimental study on almond aflatoxins
    Authors: Mohammad Javad Aarabi, Sajad Rostami, Bahram Hosseinzadeh Samani, Firouzeh Nazari
    Journal: Journal of Food Processing and Preservation
    Year: 2024
    Citations: 1

 

 

Maizura Murad | Biological Sciences | Best Researcher Award

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Dr. Maizura Murad | Biological Sciences | Best Researcher Award

Lecturer and researcher from University Sains Malaysia, Malaysia

Dr. Maizura Murad is a distinguished academic specializing in food sensory analysis, food processing, and the antioxidant properties of food. Since June 25, 2013, she has been serving at the School of Industrial Technology, Universiti Sains Malaysia (USM). In her role, Dr. Maizura provides invaluable assistance and supervision to both undergraduate and postgraduate students, particularly in the realm of food sensory analyses. Her dedication to research is evident through her numerous publications in international peer-reviewed journals, focusing on sensory evaluations of food. Beyond her academic pursuits, Dr. Maizura is committed to advancing the field of food science, contributing significantly to the understanding of how food processing impacts sensory qualities and antioxidant properties.

Professional Profile

Education

Dr. Maizura Murad’s academic journey reflects her deep commitment to the field of food science and technology. She earned her Bachelor of Science degree in Food Quality Management from Universiti Teknologi MARA (UiTM) in Malaysia. Pursuing further specialization, she obtained her Master’s degree in Food Technology from Universiti Sains Malaysia (USM). Culminating her formal education, Dr. Maizura achieved a Ph.D. in Food Science from Universiti Kebangsaan Malaysia (UKM). This robust educational foundation has equipped her with comprehensive knowledge and expertise, enabling her to make significant contributions to the field of food sensory analysis and processing.

Professional Experience

Dr. Maizura Murad has been an integral part of Universiti Sains Malaysia (USM) since June 25, 2013, where she serves at the School of Industrial Technology. In her capacity, she supervises and mentors both undergraduate and postgraduate students, particularly in the area of food sensory analyses. Her role encompasses not only teaching but also guiding research projects that delve into the sensory evaluation of food products. Dr. Maizura’s professional experience is marked by her dedication to fostering a comprehensive understanding of food processing and its impact on sensory qualities, thereby preparing her students to excel in the food science industry.

Research Interests

Dr. Maizura Murad’s research interests are centered around food sensory analysis, food processing, and the antioxidant properties of food. She is particularly intrigued by how different processing methods influence the sensory attributes and nutritional quality of food products. Her work aims to bridge the gap between food processing techniques and consumer perception, ensuring that processed foods meet both quality standards and consumer expectations. By focusing on antioxidant properties, Dr. Maizura contributes to the development of healthier food options, emphasizing the importance of nutrition alongside sensory appeal.

Research Skills

Dr. Maizura Murad possesses a robust set of research skills honed through years of academic and professional experience. Her expertise lies in conducting comprehensive food sensory evaluations, utilizing both qualitative and quantitative methodologies to assess consumer preferences and perceptions. She is adept at designing and implementing experiments that explore the effects of various food processing techniques on sensory attributes and antioxidant properties. Dr. Maizura’s proficiency in statistical analysis enables her to interpret complex data effectively, drawing meaningful conclusions that contribute to the advancement of food science.

Awards and Honors

Specific details regarding awards and honors received by Dr. Maizura Murad are not readily available in the provided sources. However, her extensive publication record in international peer-reviewed journals and her longstanding role at Universiti Sains Malaysia (USM) reflect her esteemed position in the academic community. Her contributions to food sensory analysis and processing have undoubtedly garnered recognition and respect among her peers and students alike.

Conclusion

Dr. Maizura Murad’s dedication to the field of food science is evident through her extensive research, teaching, and mentorship roles at Universiti Sains Malaysia (USM). Her expertise in food sensory analysis, processing, and antioxidant properties has significantly contributed to the understanding of how processing techniques affect food quality and consumer perception. By bridging the gap between scientific research and practical applications, Dr. Maizura plays a pivotal role in advancing food technology and ensuring the development of nutritious and appealing food products.

Publications Top Notes

  • Title: Total phenolic content and antioxidant activity of kesum (Polygonum minus), ginger (Zingiber officinale) and turmeric (Curcuma longa) extract
    Authors: M. Maizura, A. Aminah, W.M. Wan Aida
    Year: 2011
    Citations: 438

  • Title: Antibacterial activity and mechanical properties of partially hydrolyzed sago starch–alginate edible film containing lemongrass oil
    Authors: M. Maizura, A. Fazilah, M.H. Norziah, A.A. Karim
    Year: 2007
    Citations: 382

  • Title: Physical and mechanical properties of sago starch–alginate films incorporated with calcium chloride
    Authors: A. Fazilah, M. Maizura, A. Abd Karim, K. Bhupinder, B. Rajeev
    Year: 2011
    Citations: 71

  • Title: Film Incorporated with Lemongrass (Cymbopogon citratus) Oil
    Authors: M. Maizura, A. Fazilah, M.H. Norziah, A.A. Karim
    Year: 2008
    Citations: 47

  • Title: Physicochemical properties and sensory acceptability of pineapples of different varieties and stages of maturity
    Authors: R. Siti Rashima, M. Maizura, W.M. Wan Nur Hafzan, H. Hazzeman
    Year: 2019
    Citations: 33

  • Title: The use of salt-coating to improve textural, mechanical, cooking and sensory properties of air-dried yellow alkaline noodles
    Authors: S.Y. Yeoh, M. Lubowa, T.C. Tan, M. Murad, A.M. Easa
    Year: 2020
    Citations: 32

  • Title: Influence of sodium chloride treatment and polysaccharides as debittering agent on the physicochemical properties, antioxidant capacity and sensory characteristics of bitter melon
    Authors: R. Siti Rashima, M. Maizura, W.M. Kang, A. Fazilah, L.X. Tan
    Year: 2017
    Citations: 30

  • Title: The development of legume-based yogurt by using water kefir as starter culture
    Authors: X.X. Lim, W.Y. Koh, U. Uthumporn, M. Maizura, W.I. Wan Rosli
    Year: 2019
    Citations: 26

  • Title: Physico-chemical and antioxidant properties of eggplant flour as a functional ingredient
    Authors: U. Uthumporn, A. Fazilah, A.Y. Tajul, M. Maizura, A.S. Ruri
    Year: 2016
    Citations: 26

  • Title: A review of natural cheese and imitation cheese
    Authors: A. Mohd Shukri, A.K. Alias, M. Murad, K.S. Yen, L.H. Cheng
    Year: 2022
    Citations: 22

 

Vipin Parkash | Biological Sciences | Outstanding Scientist Award

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Dr. Vipin Parkash | Biological Sciences | Outstanding Scientist Award

Scientist F & OIC & Prog. Coordinator (M.Sc. & Ph.D. Forestry) from ICFRE-Forest Research Institute, India

Dr. Vipin Parkash is an eminent Indian scientist and academician specializing in forest pathology, mycology, and microbial ecology, with a focus on mycorrhizal associations. Currently serving as Scientist-F and Officer-in-Charge of the Forest Pathology Section at the Forest Research Institute (Deemed University), Dehradun, he also holds the role of Programme Coordinator for M.Sc. and Ph.D. Forestry. With a career spanning over two decades, Dr. Parkash has significantly contributed to the domains of mycorrhizal ecology, ethnobotany, and soil microbiology. His scholarly impact is reflected in a strong publication record, with an h-index of 18 and i10-index of 32, and recognition across academic platforms such as Scopus, Google Scholar, ResearchGate, and LiveDNA. He has guided numerous Ph.D., Postdoctoral, M.Phil., and postgraduate students, cementing his reputation as a dedicated mentor. His interdisciplinary expertise includes plant-microbe interactions, biocontrol, and ecological restoration. Dr. Parkash is known for his extensive fieldwork, especially in ethnobotanical surveys across remote areas in Himachal Pradesh and Northeast India. His work is both research-intensive and practice-oriented, bridging the gap between microbiological research and forest ecosystem management. His lifelong commitment to forest protection and microbial research continues to shape forestry education and applied science in India.

Professional Profile

Education

Dr. Vipin Parkash possesses a rich and diverse academic background rooted in life sciences and specialized forestry disciplines. His educational journey began in Himachal Pradesh, where he completed his matriculation in 1992, securing the first position. He pursued a Bachelor of Science (B.Sc. Medical) from Himachal Pradesh University, Shimla in 1997, majoring in Chemistry, Botany, and Zoology, again achieving a first-class distinction. Advancing his academic interests, he earned his Master of Science (M.Sc.) in Botany from HNB Garhwal University, Srinagar in 1999, graduating with top honors and completing a dissertation focused on Ethnobotany and Plant Systematics. His academic excellence continued with a Doctor of Philosophy (Ph.D.) in Botany (specializing in Mycology and Soil Microbiology) from Kurukshetra University in 2004. His Ph.D. thesis, titled “Mycorrhizal studies on some ethnobotanical plants of Himachal Pradesh”, was conducted under the supervision of Prof. Ashok Aggarwal, reflecting an early and continued commitment to microbial-plant interactions. Dr. Parkash also qualified for the prestigious CSIR-UGC NET-JRF in 2000 and earned a Certificate Course in German in 2004. His strong educational foundation has laid the groundwork for his prolific research in forest pathology, microbial ecology, and sustainable forestry practices across India.

Professional Experience

Dr. Vipin Parkash has over two decades of diverse professional experience encompassing scientific research, academic instruction, and institutional leadership. He currently serves as Scientist-F and Officer-in-Charge of the Forest Pathology Section at the Forest Research Institute (Deemed University), Dehradun, where he is also the Programme Coordinator for M.Sc. and Ph.D. Forestry programmes. His academic career began with teaching postgraduate students in Botany, Microbiology, and Forestry at institutions such as Kurukshetra University and the Shoolini Institute of Life Sciences & Business Management in Himachal Pradesh. Over the years, he has developed and led numerous academic courses in forest protection, wood microbiology, and microbial ecology. Dr. Parkash has worked extensively in the field as a CSIR Junior Research Fellow (JRF) and Senior Research Fellow (SRF), conducting vital research in Mycology and Soil Microbiology at Kurukshetra University. His role included hands-on work with VAM fungi, microbial interaction studies, and propagation of medicinal plants in vitro. In addition to research and teaching, he has provided academic supervision for numerous Ph.D., Postdoctoral, M.Phil., and M.Sc. students, with several theses awarded under his mentorship. His career reflects a blend of field-based scientific inquiry and academic excellence, establishing him as a pillar in Indian forest microbiology and higher education.

Research Interests

Dr. Vipin Parkash’s research interests lie at the intersection of forest microbiology, plant-microbe interactions, and ecological restoration. His primary focus has been on arbuscular mycorrhizal (AM/VAM) fungi and their symbiotic relationships with ethnobotanical and forest plants, particularly within the Indian Himalayan and Northeastern regions. He is deeply involved in exploring the microbial ecology of rhizospheric soil and how these microbial communities contribute to plant health, growth, and secondary metabolite production. His doctoral and ongoing research examine the roles of mycorrhizal associations in plant conservation and bio-inoculant development. He is also interested in soil microbiology and mycology, particularly the diversity and taxonomy of wood-decaying fungi, endophytes, and actinobacteria. His work has expanded to include biocontrol of plant pathogens using microbial inoculants, biosynthesis of nanoparticles from macrofungi, and the development of microbial technologies for bioremediation of contaminated soils. Dr. Parkash’s research emphasizes sustainability and the ecological importance of fungi in forest ecosystems. His integration of field surveys, lab-based microbial isolation, and biotechnological applications reflects a holistic approach to studying forest ecosystems. With an evolving interest in bioactive compound extraction and microbial consortia, his work continues to contribute to both basic research and applied forestry sciences.

Research Skills

Dr. Vipin Parkash possesses a wide array of advanced research skills, particularly in forest microbiology, plant-microbe interactions, and soil microbial ecology. His expertise spans mycorrhizal taxonomy and classification, with a specialization in arbuscular mycorrhizae (AM/VAM fungi) and their ecological dynamics within the rhizosphere. He is highly skilled in conducting ethnobotanical surveys and field sampling in remote, biodiversity-rich regions, especially in Himachal Pradesh and Northeast India. Dr. Parkash has practical experience in isolating and identifying endophytes, actinobacteria, and wood-decaying fungi, as well as assessing their biocontrol potential against pathogenic microorganisms. In the lab, he is proficient in Polyacrylamide Gel Electrophoresis (PAGE) for strain differentiation and has applied in vitro propagation techniques to study plant-microbe interactions, particularly in medicinal plants like Rauvolfia serpentina. His research also involves microbial culture techniques, soil analysis, and the development of bio-inoculants and biofertilizers. Additionally, he has led projects on nanoparticle biosynthesis using fungi and evaluated their efficacy in controlling root-rot pathogens. His work integrates microbiological experimentation with biotechnology tools for sustainable forestry practices. With deep experience in guiding postgraduates and doctoral research, Dr. Parkash also demonstrates strong mentoring and data analysis capabilities, making him a highly competent and versatile researcher in forest ecosystem studies.

Awards and Honors

Dr. Vipin Parkash’s academic and research career is decorated with numerous accolades that reflect his dedication to forestry research and microbiology. He qualified for the prestigious CSIR-UGC NET with Junior Research Fellowship (JRF) in December 2000, a testament to his academic excellence and research aptitude at an early stage. Throughout his career, Dr. Parkash has maintained a strong presence in scholarly circles, with an impressive h-index of 18 and i10-index of 32, as per Google Scholar, highlighting the significant impact of his scientific publications. He has been an active and longstanding member of LIVE DNA since June 2010, and his global research profile is maintained through platforms like ORCID, ResearchGate, Scopus, and Google Scholar. His contributions to science and higher education have been widely acknowledged through his roles as Programme Coordinator at FRI (Deemed University), peer reviewer, research guide, and mentor to postgraduate and doctoral scholars. Many of his Ph.D. and M.Phil. students have received national fellowships such as CSIR-UGC NET, reflecting the high quality of mentorship he provides. His continued service in both academic and research domains under the Ministry of Environment & Forests, Government of India, has further solidified his standing as a distinguished scientist in forest pathology and microbial ecology.

Conclusion

Dr. Vipin Parkash stands as a distinguished scientist, educator, and research mentor whose contributions have significantly shaped the fields of forest microbiology and plant-microbe ecology in India. With more than two decades of experience in both research and teaching, he has consistently advanced our understanding of microbial symbiosis, bio-inoculants, and ecological restoration techniques. His academic journey from the remote hills of Himachal Pradesh to becoming Scientist-F and Programme Coordinator at the prestigious Forest Research Institute (Deemed University) showcases his dedication, resilience, and scientific rigor. His prolific output, marked by a substantial citation record and high-impact publications, reflects the depth and relevance of his research. He has not only contributed to academic scholarship but also played a transformative role in mentoring the next generation of researchers, having guided numerous Ph.D., M.Phil., and postgraduate theses. His work continues to influence policy, education, and sustainable forest management practices in India. Through his commitment to academic excellence, field-based inquiry, and interdisciplinary research, Dr. Parkash exemplifies the role of a scientist whose work bridges traditional knowledge and modern science, ensuring a greener and more resilient future for forest ecosystems.

Publications Top Notes

  • Title: Synthesis and antifungal activity of some new 3-hydroxy-2-(1-phenyl-3-aryl-4-pyrazolyl) chromones
    Authors: O. Prakash, R. Kumar, V. Parkash
    Year: 2008
    Citations: 251

  • Title: Traditional uses of ethnomedicinal plants of lower foot-hills of Himachal Pradesh-I
    Authors: V. Parkash, A. Aggarwal
    Year: 2010
    Citations: 75

  • Title: Effect of elevated carbon dioxide on growth and development of Santalum album L. seedlings inoculated with plant growth promoting microorganisms in Open Top Chambers
    Authors: V. Prakash, K. Hunney, H. Singh
    Year: 2022
    Citations: 63

  • Title: Biogenic synthesis: A sustainable approach for nanoparticles synthesis mediated by fungi
    Authors: A. Chauhan, J. Anand, V. Parkash, N. Rai
    Year: 2023
    Citations: 50

  • Title: Effect of bioinoculants and superphosphate fertilizer on the growth and yield of broccoli (Brassica oleracea L. var. italica Plenck)
    Authors: A. Tanwar, A. Aggarwal, V. Parkash
    Year: 2014
    Citations: 45

  • Title: Screening and selection of efficient host and sugarcane bagasse as substrate for mass multiplication of Funneliformis mosseae
    Authors: A. Tanwar, A. Aggarwal, A. Yadav, V. Parkash
    Year: 2013
    Citations: 42

  • Title: A checklist of gilled mushrooms (Basidiomycota: Agaricomycetes) with diversity analysis in Hollongapar Gibbon Wildlife Sanctuary, Assam, India
    Authors: G. Gogoi, V. Parkash
    Year: 2015
    Citations: 36

  • Title: Arbuscular mycorrhizal fungal dynamics in the rhizospheric soil of five medicinal plant species
    Authors: A. Kumar, C. Mangla, A. Aggarwal, V. Parkash
    Year: 2010
    Citations: 33

  • Title: Symbiotic and synergistic efficacy of endomycorrhizae with Dendrocalamus strictus L.
    Authors: V. Parkash, S. Sharma, A. Aggarwal
    Year: 2011
    Citations: 31

  • Title: Diversity of Gasteroid Fungi (Basidiomycota) in Hollongapar Gibbon Wildlife Sanctuary, Jorhat, Assam, India
    Authors: G. Gogoi, P. Vipin
    Year: 2015
    Citations: 30

 

 

Yanfeng Gao | Molecular Biology | Best Researcher Award

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Dr. Yanfeng Gao | Molecular Biology | Best Researcher Award

Associate Professor at Wannan Medical College, China

Dr. Yanfeng Gao is an accomplished researcher specializing in microfluidics-based interdisciplinary science. His work spans analytical chemistry, point-of-care testing, and biomedical engineering, showcasing a strong ability to bridge diverse domains. Known for his exceptional technical skills in micro-nano fabrication, optical microscopy, and computer programming, Dr. Gao combines experimental expertise with a collaborative mindset, enabling successful teamwork in cross-cultural environments. His career is marked by groundbreaking contributions to areas such as inertial microfluidics, molecular diagnostics, and nanocatalysis-integrated chips. Dr. Gao’s commitment to innovation and excellence has earned him recognition through multiple awards and scholarships, underscoring his impact in both academia and applied research.

Professional Profile

Education

Dr. Gao’s educational journey reflects a dedication to academic excellence and a global outlook. He earned a Ph.D. in Fluid Mechanics from the Université Fédérale de Toulouse Midi-Pyrénées, France (2013–2018), focusing on inertial migration of particles in microchannel flows. His M.S. in Power Machinery and Engineering from Xi’an Jiaotong University (2011–2013) and Engineer’s degree in Mechanical Systems from Université de Technologie de Troyes, France (2009–2011), provided him with interdisciplinary expertise. He began his academic career with a B.S. in Process Equipment and Control Engineering at Xi’an Jiaotong University (2007–2009), establishing a solid foundation for his later work in biomedical and fluidic engineering.

Professional Experience

Dr. Gao’s professional experience is both diverse and impactful. He currently serves at Wannan Medical College (2024–present), focusing on micro-nano fabrication and translational medicine. Previously, at Nanjing University (2019–2024), he advanced bioanalysis, chemical synthesis, and gene editing using microfluidics. His tenure at the Chinese Academy of Sciences (2018–2019) involved developing micro flexible sensors, while earlier roles in France included designing microfluidic oscillators and separating microorganisms using inertial microfluidics. Each position has reinforced his expertise in interdisciplinary applications, from biomedical engineering to fluid mechanics, showcasing his ability to tackle complex challenges across industries.

Research Interests

Dr. Gao’s research interests center on cutting-edge applications of microfluidics and biomedical engineering. He is passionate about inertial microfluidics for particle manipulation, leveraging its potential for analytical and biomedical innovations. His work on nanocatalysis-integrated microfluidic chips aims to advance bioanalysis and molecular diagnostics. Additionally, he explores the CRISPR-Cas system to develop revolutionary point-of-care diagnostic tools. His expertise in micro-electro-mechanical systems (MEMS) fabrication underpins his efforts to bridge fundamental research and practical applications, demonstrating his commitment to advancing interdisciplinary science.

Research Skills

Dr. Gao possesses a versatile skill set that combines technical proficiency with computational expertise. He is experienced in programming languages like MATLAB and R, with familiarity in C++ and Fortran. His software expertise includes engineering tools such as Pro/ENGINEER, CATIA, SolidWorks, and AutoCAD, as well as data analysis tools like ggplot2 and Origin. Proficient in micro-nano fabrication and optical microscopy, he excels in translating complex research into innovative applications. His language fluency in Mandarin, English, and French facilitates international collaborations, enhancing his global research impact.

Awards and Honors

Dr. Gao’s excellence has been recognized through several prestigious awards. He was named a Double-Innovation Doctor of Jiangsu Province (2019) for his innovative research contributions. During his Ph.D. studies, he received the China Scholarship Council Fellowship (2013–2017), supporting his advanced research in France. Earlier in his academic career, he was awarded the Outstanding Student honor and the Siyuan Scholarship at Xi’an Jiaotong University (2008), reflecting his early dedication to academic and research excellence. These accolades underscore his exceptional abilities and commitment to advancing scientific knowledge.

Conclusion

Yanfeng Gao is a highly qualified researcher with a robust background in interdisciplinary science, especially microfluidics and biomedical engineering. His extensive academic and professional experience, technical expertise, and recognition through awards make him a strong candidate for the Best Researcher Award. However, including more detailed metrics of research impact and evidence of leadership roles could strengthen his application. If these areas are addressed, he would undoubtedly stand out as an exceptional contender for the award.

Publication Top Notes

  • Hypoxia‐responsive gene editing to reduce tumor thermal tolerance for mild‐photothermal therapy
    Authors: X. Li, Y. Pan, C. Chen, Y. Gao, X. Liu, K. Yang, X. Luan, D. Zhou, F. Zeng, …
    Journal: Angewandte Chemie 133 (39), 21370-21374
    Year: 2021
    Citations: 113
  • Migration of finite sized particles in a laminar square channel flow from low to high Reynolds numbers
    Authors: M. Abbas, P. Magaud, Y. Gao, S. Geoffroy
    Journal: Physics of Fluids 26 (12)
    Year: 2014
    Citations: 98
  • Gallium–Carbenicillin Framework Coated Defect‐Rich Hollow TiO2 as a Photocatalyzed Oxidative Stress Amplifier against Complex Infections
    Authors: J. Yang, C. Wang, X. Liu, Y. Yin, Y.H. Ma, Y. Gao, Y. Wang, Z. Lu, Y. Song
    Journal: Advanced Functional Materials 30 (43), 2004861
    Year: 2020
    Citations: 69
  • Gold nanoparticles doped metal-organic frameworks as near-infrared light-enhanced cascade nanozyme against hypoxic tumors
    Authors: X. Liu, Y. Pan, J. Yang, Y. Gao, T. Huang, X. Luan, Y. Wang, Y. Song
    Journal: Nano Research 13, 653-660
    Year: 2020
    Citations: 66
  • Nano-immunosorbent assay based on Cas12a/crRNA for ultra-sensitive protein detection
    Authors: Q. Zhao, Y. Pan, X. Luan, Y. Gao, X. Zhao, Y. Liu, Y. Wang, Y. Song
    Journal: Biosensors and Bioelectronics 190, 113450
    Year: 2021
    Citations: 55
  • Self-ordered particle trains in inertial microchannel flows
    Authors: Y. Gao, P. Magaud, L. Baldas, C. Lafforgue, M. Abbas, S. Colin
    Journal: Microfluidics and Nanofluidics 21, 1-10
    Year: 2017
    Citations: 55
  • Emerging trends in organ-on-a-chip systems for drug screening
    Authors: Y. Wang, Y. Gao, Y. Pan, D. Zhou, Y. Liu, Y. Yin, J. Yang, Y. Wang, Y. Song
    Journal: Acta Pharmaceutica Sinica B 13 (6), 2483-2509
    Year: 2023
    Citations: 41
  • Mesopore to macropore transformation of metal–organic framework for drug delivery in inflammatory bowel disease
    Authors: Y. Yin, J. Yang, Y. Pan, Y. Gao, L. Huang, X. Luan, Z. Lin, W. Zhu, Y. Li, Y. Song
    Journal: Advanced Healthcare Materials 10 (3), 2000973
    Year: 2021
    Citations: 38
  • Hollow covalent organic framework-sheltering CRISPR/Cas12a as an in-vivo nanosensor for ATP imaging
    Authors: Y. Pan, X. Luan, F. Zeng, Q. Xu, Z. Li, Y. Gao, X. Liu, X. Li, X. Han, J. Shen, …
    Journal: Biosensors and Bioelectronics 209, 114239
    Year: 2022
    Citations: 37
  • Inertial lateral migration and self-assembly of particles in bidisperse suspensions in microchannel flows
    Authors: Y. Gao, P. Magaud, C. Lafforgue, S. Colin, L. Baldas
    Journal: Microfluidics and Nanofluidics 23, 1-14
    Year: 2019
    Citations: 35