Xue Li | Cancer Cell Biology | Best Researcher Award

Posted on by sciencefather

Dr. Xue Li | Cancer Cell Biology | Best Researcher Award

Dr. Xue Li , Institute of Chemistry Chinses Academy of Sciences , China

Dr. Xue Li is an Assistant Researcher at the Institute of Chemistry, Chinese Academy of Sciences, specializing in the design and application of functional carbon nanomaterials in biomedical fields. She holds a Bachelor’s degree from Sichuan University (2009-2013) and a PhD from the Institute of Chemistry, Chinese Academy of Sciences (2013-2018). Since 2018, Dr. Li has contributed significantly to the development of nanomaterial-based therapies for various diseases, particularly focusing on cancer, diabetes, and neurodegenerative diseases. Her work is characterized by innovative approaches to developing fullerene-based nanoparticles for therapeutic purposes. Dr. Li has published extensively in high-impact journals and is a recognized leader in her field, collaborating with national and international experts to drive forward the potential of nanomaterials in medicine.

Publication Profile:

Orcid

Strengths for the Award:

Dr. Xue Li stands out for her groundbreaking research on the design and biomedical application of functional carbon nanomaterials, particularly fullerenes, for treating complex diseases. Her work explores innovative therapeutic strategies, such as targeting inflammation, oxidative stress, and immune responses to address conditions like cancer, diabetes, and neurodegenerative diseases. Dr. Li has authored multiple high-impact journal publications, demonstrating her deep expertise in nanomaterials and their integration into medical treatments. Her contributions, such as reducing neuroinflammation to alleviate Parkinson’s disease and mitigating immune-mediated liver injury, showcase her ability to translate scientific knowledge into real-world solutions. Dr. Li’s collaborative approach and her role in advancing nanomedicine highlight her as a leading figure in her field.

Areas for Improvement:

While Dr. Li’s work is exceptional, expanding her research into more diverse therapeutic areas, such as cardiovascular diseases or neurodegenerative conditions like Alzheimer’s, could further broaden the impact of her research. Additionally, exploring the scalability and commercialization of her nanomaterial-based therapies would be a valuable direction for future development.

Education:

Dr. Xue Li completed her Bachelor’s degree in Chemistry at Sichuan University in June 2013. She pursued her Ph.D. at the Institute of Chemistry, Chinese Academy of Sciences, from 2013 to 2018, focusing on the design and application of nanomaterials, particularly fullerenes, for medical applications. During her doctoral studies, she gained significant experience in the synthesis, functionalization, and biomedical use of carbon nanomaterials. Dr. Li’s research laid the foundation for her current work as an Assistant Researcher at the Institute of Chemistry, Chinese Academy of Sciences, a position she has held since 2018.

Experience:

Dr. Xue Li has worked extensively in the field of nanomaterials, contributing to significant advancements in the application of fullerene-based nanoparticles for biomedical purposes. Since 2018, she has been an Assistant Researcher at the Institute of Chemistry, Chinese Academy of Sciences, where her research focuses on the development of functional nanomaterials for the treatment of diseases such as cancer, diabetes, and neurodegenerative disorders. Dr. Li has worked on several high-impact projects, including designing inflammation-targeting nanoparticles and investigating their roles in regulating immune responses and improving disease outcomes. Her experience spans both experimental techniques in nanomaterial synthesis and in vivo therapeutic applications. Additionally, Dr. Li has collaborated with multiple research institutions globally and has been recognized for her contributions to advancing nanomedicine.

Research Focus:

Dr. Xue Li’s research focuses on the design, synthesis, and biomedical applications of functional carbon nanomaterials, particularly fullerenes and their derivatives. Her work aims to develop innovative therapeutic strategies, leveraging the unique properties of these nanomaterials to address complex medical challenges, including cancer, autoimmune diseases, and neurodegenerative disorders. She is particularly interested in creating nanoparticles that target specific cellular pathways, such as inflammation and oxidative stress, to improve therapeutic outcomes. Dr. Li’s research includes the development of nanoparticles that can modulate macrophage differentiation and mitigate conditions like rheumatoid arthritis, autoimmune hepatitis, and neuroinflammation. By focusing on the functionalization of fullerenes, her work also explores how these materials can be used to treat insulin resistance and neurodegenerative diseases such as Parkinson’s.

Publications Top Notes:

  1. 🧬 Fullerenols hijack lysosomes to disrupt inter-organellar crosstalk and block autophagy pre-activated by mTOR inhibitors for cancer cell PANoptosis. Sci. Bull. 2025
  2. 💊 Inflammation-targeting fullerene nanoparticles dually inhibit macrophage and osteoclast differentiation for mitigating rheumatoid arthritis. CCS Chem. 2024
  3. 🔬 Curdlan decorated fullerenes mitigate immune-mediated hepatic injury for autoimmune hepatitis therapeutics via reducing macrophage infiltration. ACS Appl. Mater. Interfaces 2024
  4. 💡 The application of nanomaterials in the treatment of pancreatic-related diseases. Int. J. Mol. Sci. 2024
  5. 🧠 Oral [60] fullerene reduces neuroinflammation to alleviate Parkinson’s disease via regulating gut microbiome. Theranostics 2023
  6. 🍏 Dual regulation on oxidative stress and endoplasmic reticulum stress by [70] fullerenes for reversing insulin resistance in diabetes. Nano Today 2022
  7. 🔬 Gadofullerene Nanoparticles Extend Survival Rate and Down-Regulate Thrombin Expression in Orthotopic Pancreatic Cancer. Sci. China Mater. 2022
  8. 🩸 Gadofullerene Nanoparticles Reverse Dysfunctions of Pancreas and Improve Hepatic Insulin Resistance for Type 2 Diabetes Mellitus Treatment. ACS Nano 2019
  9. 🌱 Biomaterials: Application of Nanomaterials in the Treatment of Pancreatic-Related Diseases. Biomaterials 2018

Conclusion:

Dr. Xue Li’s exceptional research on functional nanomaterials and their applications in medicine, particularly in cancer, autoimmune diseases, and neurodegeneration, makes her a strong contender for the Research for Best Researcher Award. Her innovative approaches, contributions to high-impact journals, and dedication to advancing nanomedicine provide a solid foundation for future breakthroughs.

Chang Feng | Cancer Cell Biology | Best Researcher Award

Posted on by sciencefather

Dr. Chang Feng | Cancer Cell Biology | Best Researcher Award

Dr. Chang Feng , Shanghai University , China

Chang Feng is a distinguished researcher in the fields of tumor molecular diagnosis, biosensing, and intelligent DNA. Born in Shanghai, China, on January 1, 1988, Chang Feng pursued a rigorous academic journey, completing his Ph.D. at Nanjing University (2015-2019) after earning his M.D. from Shanghai University (2012-2015). He is currently a lecturer at Shanghai University since 2019. Feng has contributed significantly to scientific advancements in cancer diagnostics, molecular biosensors, and cutting-edge DNA research. His works often involve the development of innovative detection techniques and the creation of novel DNA-based diagnostic systems. Feng has a collaborative approach, working with multiple researchers to achieve groundbreaking results. His publications in prestigious journals highlight his expertise in developing biosensors, RNA origami, and catalytic DNAzymes for biomedical applications.

Publication Profile: 

Scopus

Strengths for the Award:

Chang Feng’s research is exceptional and well-suited for the Best Researcher Award. His expertise spans across tumor molecular diagnosis, biosensor development, and intelligent DNA systems. His contributions to cancer diagnostics, bioimaging, and biosensing technologies are groundbreaking. Feng has published several high-impact articles in leading journals, demonstrating significant advancements in DNAzymes, electrochemical biosensing, and RNA origami. His work in designing innovative DNA-based diagnostic platforms and cancer therapies reflects his ability to integrate chemistry, biology, and engineering, providing novel solutions for clinical applications. Feng’s interdisciplinary approach and leadership in the field have earned him numerous collaborations with researchers and institutions globally, further enhancing his credibility as a top-tier researcher.

Areas for Improvements:

While Feng has made remarkable contributions to scientific research, one area for improvement is expanding his focus to more clinical applications of his findings. Commercializing his biosensing technologies for real-world healthcare implementation would increase the practical impact of his work. Additionally, improving outreach through public science communication could help raise awareness of his advancements and engage a broader audience.

Education:

Chang Feng received his M.D. from Shanghai University in 2015, where he developed a strong foundation in molecular biology, diagnostics, and bioengineering. His doctoral journey continued at Nanjing University (2015-2019), where he obtained his Ph.D. focusing on tumor molecular diagnosis and biosensing technologies. During his time at Nanjing University, Feng’s research concentrated on the development of DNA-based biosensors and new methodologies for cancer detection. His education at these esteemed institutions provided him with the technical expertise necessary to pioneer groundbreaking research in the field of molecular diagnostics. Feng’s academic training involved rigorous coursework in molecular biology, chemical engineering, and bioinformatics, contributing significantly to his current work in bioimaging, biosensing, and the development of intelligent DNA systems.

Experience:

Chang Feng has a strong academic and research career, currently serving as a lecturer at Shanghai University since 2019. Prior to his current role, he earned his Ph.D. at Nanjing University (2015-2019) and M.D. from Shanghai University (2012-2015). Throughout his career, Feng has collaborated with leading researchers, contributing to the development of innovative biosensing technologies and cancer diagnostics. His work includes advancing DNA-based biosensors, DNAzyme probes, and other cutting-edge diagnostic tools. As a lecturer, Feng mentors graduate students and participates in academic teaching and research projects. He has been involved in several collaborative publications that have furthered the field of molecular biosensors, focusing on intelligent DNA-based systems and tumor detection methodologies. Feng’s research experience combines theoretical knowledge with practical applications, making him a recognized figure in the field of biosensor research and molecular diagnostics.

Research Focus:

Chang Feng’s primary research focus lies in tumor molecular diagnosis, biosensor development, and intelligent DNA systems. He is particularly interested in advancing technologies for cancer detection through the application of molecular biosensors, bioimaging, and intelligent DNA devices. His research explores the use of DNAzymes, catalytic DNA molecules, and RNA origami for targeted molecular detection, with a focus on enhancing the sensitivity and specificity of cancer diagnostics. Feng’s work also investigates the use of biosensors for the detection of small molecules, leveraging innovative electrochemical and fluorescence-based platforms. His interdisciplinary approach combines elements of chemistry, biology, and engineering to create advanced diagnostic systems with potential clinical applications. Feng is dedicated to improving the efficiency of diagnostic tools and is committed to developing more accurate and faster methods for early cancer detection and molecular analysis.

Publications Top Notes:

  1. Single-cell analysis of highly metastatic circulating tumor cells by combining a self-folding induced release reaction with a cell capture microchip 🧬🔬 (Anal. Chem., 2021)
  2. Hierarchical biomarkers detection via a universal polydopamine probe catalyzed by a hexagonal star-nanostructured DNAzyme 🔬🧪 (Sensor. Actuat. B-Chem., 2022)
  3. Construction of a ternary complex based DNA logic nanomachine for a highly accurate imaging analysis of cancer cells 🧬💡 (ACS Sens., 2020)
  4. Lantern-shaped flexible RNA origami for Smad4 mRNA delivery and growth suppression of colorectal cancer 🧬🦠 (Nat. Commun., 2023)
  5. Liquid-colloid-solid modular assembly for three-dimensional electrochemical biosensing of small molecules 💧⚡ (Biosens. Bioelectron., 2024)
  6. Dual-targets binding protection mediated rolling circle transcription with tandem fluorescent RNA aptamers for label-free detection of liver cancer biomarkers 🧬🦠 (Sensor. Actuat. B-Chem., 2024)
  7. Cell-Free Biosensing Genetic Circuit Coupled with Ribozyme Cleavage Reaction for Rapid and Sensitive Detection of Small Molecules 🧬⚡ (ACS Synth. Biol., 2023)
  8. A portable and partitioned DNA hydrogel chip for multitarget detection 💧🧬 (Lab Chip., 2023)

Conclusion:

Chang Feng’s research in tumor molecular diagnostics, biosensors, and intelligent DNA is truly cutting-edge. His scientific rigor, collaboration with top researchers, and groundbreaking discoveries in cancer detection and biosensing technologies make him a deserving candidate for the Best Researcher Award. By continuing to bridge the gap between laboratory research and clinical applications, Feng will likely have an even greater impact in advancing medical diagnostics and therapeutic strategies.

Prbhu Narayan Meena | Host-Pathogen Interactions | Best Paper Award

Posted on by sciencefather

Dr. Prbhu Narayan Meena | Host-Pathogen Interactions | Best Paper Award

Dr. Prbhu Narayan Meena , ICAR-NRIIPM, New delhi , India

Dr. P. N. Meena, M.Sc. (Ag), Ph.D., is a renowned Scientist in the field of Plant Pathology. With a career that began in 2013 at ICAR-CRIJAF, Kolkata, Dr. Meena played a crucial role in developing two varieties of kenaf resistant to foot and stem rot disease. Over the years, Dr. Meena has made significant contributions to plant pathology research, publishing 7 international and 27 national research papers, 12 abstracts, 2 books/compendiums, and numerous other scientific works. She has delivered over 13 invited lectures, organized several farmer field schools, and participated in 22 trainings and conferences. Her research has earned her awards, including the Best Plant Pathologist Award in 2019 and 2024. Dr. Meena’s work continues to benefit horticulture, fibre, and pulse crops through innovative disease management solutions.

Publication Profile:

Google Scholar

Strengths for the Award:

  1. Outstanding Contributions to Plant Pathology: Dr. P. N. Meena has made significant contributions to plant pathology research, particularly in the development of disease-resistant crops and bio-control strategies. Her work on kenaf varieties resistant to foot and stem rot disease, and her extensive publications on molecular detection and disease management strategies, are impressive achievements that underscore her excellence in the field.

  2. Comprehensive Research Focus: Dr. Meena has worked across multiple aspects of plant disease management, including molecular diagnostics, eco-friendly management practices, and bio-control agents like Trichoderma harzianum, Bacillus subtilis, and Pseudomonas fluorescens. This broad research focus ensures her work impacts horticulture, fibre crops, and pulses.

  3. Recognition & Awards: She has received prestigious awards such as the Best Plant Pathologist Award in 2019 and 2024, highlighting her esteemed position in the research community.

  4. Extensive Publication Record: With over 7 international papers, 27 national papers, 2 books, 13 book chapters, and numerous abstracts and technical bulletins, Dr. Meena has demonstrated a prolific research output. Her works are valuable for both academia and practical applications in agriculture.

  5. Leadership & Community Engagement: Dr. Meena has played a leadership role in organizing numerous farmer training programs, field schools, and workshops. This active engagement with the farming community, along with her work in disseminating scientific knowledge, strengthens her candidacy for the award.

Areas for Improvement:

  1. Collaborative Research in Emerging Fields: While Dr. Meena has a strong background in traditional crop disease management, there is potential to expand her research into emerging fields like genomic data integration and precision agriculture. Collaborations with experts in genomics or climate change could open new avenues for disease resistance and crop resilience.

  2. Expansion in Global Research Networks: While her contributions are highly recognized nationally and regionally, further involvement in international research collaborations, especially with top global agricultural institutions, could elevate the global impact of her research.

  3. Publication of Research in High-Impact Journals: Though Dr. Meena’s publication record is commendable, focusing more on high-impact international journals could further boost the visibility of her work on a global scale, ensuring that her research reaches a wider, more diverse audience.

Education:

Dr. P. N. Meena pursued her Master’s in Science (Agriculture) with a specialization in Plant Pathology and later completed her Ph.D. in the same field. Her academic journey has been marked by an unwavering commitment to understanding plant diseases and finding sustainable solutions. Her advanced education laid the foundation for her impactful research at ICAR-CRIJAF, where she actively contributed to various projects focused on disease resistance in crops. Throughout her educational career, Dr. Meena has exhibited excellence, being well-versed in molecular detection and plant disease management. Her knowledge has allowed her to develop various technologies in disease management strategies, particularly for horticultural and fibre crops. She has remained engaged with both national and international research communities, collaborating extensively to share insights and expertise.

Experience:

Dr. P. N. Meena began her career as a Scientist (Plant Pathology) at ICAR-CRIJAF, Kolkata, in 2013, where she made notable contributions to the development of kenaf varieties resistant to major diseases. Her extensive experience includes publishing 7 international and 27 national research papers, authoring 2 books, and developing 21 technologies for disease management. Dr. Meena has served as a Co-PI in 2 externally funded projects, PI in 2 institute projects, and Co-PI in 14 institute projects. She has delivered 14 oral/poster presentations and 13 invited lectures in farmer training programs. Her leadership is reflected in organizing 18 farmer field schools (FFS) and coordinating 5 FLDs. Dr. Meena has received multiple awards for her contribution to plant pathology, including the Best Plant Pathologist Award in 2019 and 2024. Her active involvement in conferences, workshops, and research continues to influence the agricultural community.

Research Focus:

Dr. P. N. Meena’s research focus primarily revolves around plant diseases, particularly in horticultural, fibre, and pulse crops. Her groundbreaking work includes developing molecular detection technologies for various plant pathogens and strategies for managing diseases like foot and stem rot in crops. A significant part of her research is centered on eco-friendly disease management, using bioagents such as Trichoderma harzianum, Bacillus subtilis, and Pseudomonas fluorescens. Additionally, she is passionate about exploring host plant resistance, disease diagnostics, and sustainable agricultural practices. Dr. Meena’s work extends to protecting crops like jute and groundnut from harmful pathogens, improving yield, and promoting environmental sustainability. With 21 technologies developed in disease management and ongoing research in biocontrol, her work contributes substantially to integrated pest management (IPM). Her research also involves extensive work in genetic diversity and the development of resistant crop varieties.

Publications Top Notes:

  1. Biocontrol activity of Trichoderma harzianum, Bacillus subtilis and Pseudomonas fluorescens against Meloidogyne incognita, Fusarium oxysporum, and Rhizoctonia solani 🌱
  2. Bio-efficacy of phytoextracts and oil cakes on Macrophomina phaseolina causing stem rot disease of jute, Corchorus spp. 🌿
  3. Host plant resistance in cultivated jute and its wild relatives towards jute hairy caterpillar Spilosoma obliqua (Lepidoptera: Arctiidae) 🦋
  4. Eco-friendly management of major diseases in jute (Corchorus olitorius L.) 🌾
  5. Evaluation of stem rot disease in jute (Corchorus olitorius) germplasm caused by Macrophomina phaseolina (Tassi) Goid 🍂
  6. Problems and prospects of pest management in jute and allied fibre crops 🌱
  7. Simultaneous detection of potato viruses A and M using CP gene-specific primers in an optimized duplex RT-PCR 🥔
  8. Detection of Mesta yellow vein mosaic virus (MeYVMV) in field samples by a loop-mediated isothermal amplification reaction 🌾
  9. In vitro screening of white Jute (Corchorus capsularis L) against salinity stress 💧
  10. Evaluation of efficacy of different bioagents and fungicides against Rhizoctonia solani (Kuhn) ⚗️

Conclusion:

Dr. P. N. Meena is an exceptional researcher with a proven track record of developing innovative solutions for plant disease management, particularly in the horticultural and fibre crop sectors. Her work is characterized by both depth and breadth, making a significant impact on the agricultural community. The strengths of her research, leadership, and recognition make her a strong contender for the Research for Best Paper Award. However, future directions could involve expanding collaborations into cutting-edge technologies and increasing visibility through international journals. Overall, Dr. Meena’s work stands out for its scientific rigor, practical applications, and contribution to sustainable agriculture.

Nikolay Sudakov | Neuronal Cell Biology | Best Paper Award

Posted on by sciencefather

Dr. Nikolay Sudakov | Neuronal Cell Biology | Best Paper Award

Dr. Nikolay Sudakov  , Limnological Institute, Siberian Branch, Russian Academy of Sciences , Russia

Dr. Sudakov Nikolay Petrovich is a Senior Researcher at the Limnological Institute, Siberian Branch, Russian Academy of Sciences. His extensive academic and professional background in biology includes expertise in cell biology, pathological physiology, clinical laboratory diagnostics, and physiology. He holds the title of Magister of Biology, Assistant Professor in Pathological Physiology, and Candidate of Biological Sciences (PhD). Dr. Sudakov’s primary research revolves around neurobiology, pathophysiology, and the adaptive mechanisms of organisms to environmental factors, with a special focus on the fish olfactory system. His contributions to the field are exemplified by his work on receptor neurons and the molecular pathways of intervertebral disc regeneration, along with various funded projects that have furthered our understanding of diseases like atherosclerosis and the mechanisms of mitochondrial dysfunction.

Publication Profile:

Google Scholar

Strengths for the Award:

Dr. Sudakov’s research showcases a deep understanding of mitochondrial function, neurobiology, and pathophysiology, as seen in his extensive publications on mitochondrial DNA, ischemia-reperfusion injury, and atherosclerosis. He has made significant contributions to cellular biology, particularly in the areas of neurogenesis and the olfactory system in fish, which demonstrates his innovative approach to understanding biological systems. His work bridges molecular biology with applied biomedicine, which has broad implications for disease diagnosis and treatment. Additionally, his projects have been supported by major Russian scientific foundations, including the Russian Foundation for Basic Research and the Russian Science Foundation.

Areas for Improvement:

While Dr. Sudakov has an extensive research portfolio, his experience in publishing books or patents could enhance his profile in the global scientific community. Collaborations and editorial appointments might further improve his visibility and impact in international research networks. Expanding his engagement with industry collaborations may also provide additional real-world application and funding opportunities.

Education:

Dr. Sudakov holds a Magister of Biology degree specializing in Cell Biology. He earned his PhD in Biological Sciences, where he focused on pathological physiology, and was recognized as a specialist in clinical laboratory diagnostics. His academic journey includes appointments as an Assistant Professor, specializing in pathological physiology (14.03.03). He further honed his expertise through postdoctoral research in areas like physiology, neurobiology, and molecular biology. His academic path reflects a deep commitment to understanding the biological foundations of health and disease, alongside the application of this knowledge in practical fields such as biomedicine and neurobiology. Throughout his career, Dr. Sudakov has demonstrated a passion for research, publishing extensively in high-impact journals, while collaborating with experts across multiple research fields to drive innovations in cell biology and disease mechanisms.

Experience:

Dr. Sudakov has over two decades of research experience, particularly within the fields of neurobiology, pathophysiology, and molecular biology. He has successfully led numerous funded projects, most notably with the Russian Foundation for Basic Research and the Russian Science Foundation, contributing valuable findings on cellular mechanisms related to neurogenesis, mitochondrial dysfunction, and intervertebral disc regeneration. His research spans a variety of areas, including the impact of mitochondrial DNA levels in diseases like atherosclerosis and ischemia. Dr. Sudakov has applied his expertise in confocal laser scanning microscopy and electron microscopy to elucidate key physiological processes at the cellular level, particularly in the context of the olfactory system and other sensory organs. His experience also includes serving as a consultant for academic research and being a recipient of prestigious grants, which further underscores his expertise in conducting high-impact, interdisciplinary scientific investigations.

Awards and Honors:

Dr. Sudakov has received numerous accolades in recognition of his outstanding contributions to scientific research. He has been awarded several grants from prominent scientific bodies, such as the Russian Foundation for Basic Research, the Russian Science Foundation, and the Presidium of the Russian Academy of Sciences. In addition, he was a recipient of the Carl Zeiss grant for his work in the diagnosis and prognosis of fatty liver disease linked to metabolic syndrome. Furthermore, he has earned the RF Presidential Scholarship for his groundbreaking research on adaptive mechanisms in fish sensory systems. Dr. Sudakov’s accomplishments have been recognized internationally through citations in leading scientific journals, and his research has been honored with several peer-reviewed publications. His contributions have not only enhanced the understanding of cellular dynamics and neurobiology but also paved the way for novel therapeutic approaches to various diseases, including atherosclerosis and mitochondrial dysfunction.

Research Focus:

Dr. Sudakov’s research primarily focuses on neurobiology, pathophysiology, and the molecular mechanisms underlying various diseases, with a particular emphasis on mitochondrial dysfunction and sensory system adaptation. His work investigates the plasticity of the olfactory epithelium in fish, focusing on receptor neurons and support cells during key biological stages. Additionally, his research explores the role of mitochondrial DNA in predicting the severity of cardiovascular diseases like acute coronary syndrome, as well as the molecular pathways involved in intervertebral disc regeneration. His studies also cover topics such as the impact of environmental factors on physiological adaptation, with an emphasis on how chronic exposures to toxins or stressors affect cellular functions. Dr. Sudakov’s interdisciplinary approach integrates advanced microscopy techniques and experimental models to understand the fundamental processes driving pathologies such as atherosclerosis, ischemia, and neurodegenerative diseases, contributing to the broader field of biomedicine and therapeutic development.

Publications Top Notes:

  1. The level of free circulating mitochondrial DNA in blood as predictor of death in case of acute coronary syndrome 🧬❤️
  2. Механизмы участия митохондрий в развитии патологических процессов, сопровождающихся ишемией и реперфузией 🧪🔬
  3. Extracellular Actin in Health and Disease 🧫🧬
  4. Влияние хронической свинцовой интоксикации на организм человека 🩸🧠
  5. Уровень свободно циркулирующей митохондриальной ДНК крови при дислипопротеидемии и адреналиновом миокардите 💉💔
  6. Дисфункция митохондрий при нейродегенеративных заболеваниях 🧠💀
  7. Роль митохондрий в реализации механизмов программированной гибели клетки 🧬⚡
  8. Взаимосвязь уровня свободно циркулирующей митохондриальной ДНК крови с активностью маркеров цитолиза при экспериментальной острой мелкоочаговой ишемии миокарда 🔬💔
  9. The Phenomenon of Compensatory Cell Proliferation in Olfactory Epithelium in Fish Caused by Prolonged Exposure to Natural Odorants 🐟🔬
  10. Rearrangement of Actin Microfilaments in the Development of Olfactory Receptor Cells in Fish 🧬🐠

Conclusion:

Dr. Sudakov’s contributions to the fields of neurobiology, mitochondrial dysfunction, and cellular pathophysiology, particularly through innovative research on mitochondrial DNA and fish olfactory systems, make him a highly deserving candidate for the Best Paper Award. His body of work demonstrates academic rigor and innovative thinking, laying a strong foundation for continued excellence in his field. Further collaboration and dissemination of his findings can expand the impact of his work globally.

Igor Klimenkov | Neuronal Cell Biology | Best Paper Award

Posted on by sciencefather

Assist. Prof. Dr. Igor Klimenkov | Neuronal Cell Biology | Best Paper Award

Assist. Prof. Dr. Igor Klimenkov , Limnological Institute, Siberian Branch, Russian Academy of Sciences , Russia

Dr. Igor Viktorovich Klimenkov is a renowned Doctor of Sciences in Biology, currently serving at the Limnological Institute, Siberian Branch of the Russian Academy of Sciences. His research spans neurobiology, environmental adaptations, and the structural mechanisms of sensory organs. His expertise lies in olfactory biology, with a focus on the structural rearrangements of receptor neurons and their adaptive functions. Dr. Klimenkov’s dedication to scientific inquiry has led to significant contributions in the field of cell biology and neurogenesis. He has received multiple research grants and collaborations with prestigious institutions, establishing him as a thought leader in his field.

Publication Profile:

Orcid

Strengths for the Award:

  1. Extensive Research Experience: Klimenkov has led numerous impactful research projects over the years, focusing on cell biology, neurogenesis, and environmental adaptations, particularly in aquatic species. His work addresses critical environmental and biological issues.

  2. High-Quality Publications: He has published 62 papers in SCOPUS-indexed journals, demonstrating a consistent and high-level output of scientific research. His studies, particularly in olfactory epithelium transformation and neurogenesis, contribute valuable insights to the field of neurobiology.

  3. Cutting-Edge Research Areas: Klimenkov’s research in the structural mechanisms of odorant-dependent adaptation and its implications for environmental adaptation in organisms is highly relevant, and his projects show promise in terms of both theoretical and practical applications.

  4. Interdisciplinary Contributions: His work integrates neurobiology, cell biology, and ecological studies, demonstrating his ability to collaborate across fields, as evidenced by his partnerships with leading institutions like the Institute of Higher Nervous Activity & Neurophysiology.

  5. Academic Recognition: Klimenkov holds a prestigious Doctor of Sciences in Biology degree and is a full member of the Russian Ecological Academy. He has a solid citation index in SCOPUS, reflecting the recognition of his work by the global scientific community.

Areas for Improvement:

  1. Limited Patent or Industry Engagement: While Klimenkov has a strong academic presence, there appears to be limited involvement with patents or commercial applications of his research. A more significant impact on applied science or industry collaborations could enhance his profile.

  2. More Diverse Collaborations: Although he collaborates with leading Russian institutions, expanding international collaborations could potentially bring broader perspectives and visibility to his research.

  3. Further Engagement in Editorial Work: Klimenkov could consider taking on editorial roles in scientific journals or as a peer reviewer to enhance his influence in the academic community and contribute to the development of the field further.

Education:

Dr. Klimenkov holds a Doctor of Sciences degree in Biology, specializing in Cell Biology and Physiology. He completed his education with a focus on the study of olfactory epithelium and neurogenesis in both aquatic and terrestrial species. His academic journey has been characterized by his deep engagement with physical and chemical biology. He earned his academic degrees with distinction, and his research has been consistently recognized and supported by research grants from Russian Science Foundations and other academic bodies. His involvement with the Russian Ecological Academy further exemplifies his scholarly commitment.

Experience:

Dr. Klimenkov has over two decades of extensive experience in the biological sciences, with a focus on environmental adaptation, cell biology, and neurobiology. As an Assistant Professor and Doctor of Sciences, his career spans a range of significant research projects. These include his work on the structural rearrangements of olfactory receptor neurons in various species, particularly in fish. His research has garnered funding from the Russian Science Foundation for projects addressing neurogenesis, the environmental impact of pollutants, and adaptations in aquatic organisms. His collaborations with leading research labs, such as the Functional Neurocytology Laboratory of the Russian Academy of Sciences, have furthered his contributions to the global scientific community.

Awards and Honors:

Dr. Klimenkov has been a recipient of numerous prestigious research grants, such as those awarded by the Russian Science Foundation (RSF) and the Russian Foundation for Basic Research (RFBR). His contributions to neurobiology and environmental science have been highly recognized within the scientific community. In 2020, he was honored as a full member of the Russian Ecological Academy, reflecting his significant impact in his field. He is actively involved in various international scientific dialogues and continues to advance research that intersects environmental science with neurobiology. His work has been widely cited, underscoring his prominence in biological sciences.

Research Focus:

Dr. Klimenkov’s research primarily focuses on neurobiology, with a special emphasis on the structural and functional aspects of the olfactory system in animals. He investigates the mechanisms underlying odorant-dependent adaptation and the role of the olfactory epithelium in neurogenesis. His research is particularly concerned with how various environmental factors influence sensory organs, especially in aquatic species. His studies on the impact of soot microparticles and other pollutants in Lake Baikal have raised awareness about the ecological risks posed to aquatic life. Moreover, he has contributed valuable insights into the structural rearrangements of olfactory receptor cells during reproductive cycles, pushing the boundaries of sensory biology and its environmental correlations.

Publications Top Notes:

  1. Structural Rearrangement of the Olfactory Epithelium in Male Baikal Yellowfin Sculpins Across the Reproductive Period 🐟🔬 (2025)
  2. Degenerative and Regenerative Actin Cytoskeleton Rearrangements, Cell Death, and Paradoxical Proliferation in the Gills of Pearl Gourami (Trichogaster leerii) Exposed to Suspended Soot Microparticles 🌱🐟 (2023)
  3. The Phenomenon of Compensatory Cell Proliferation in Olfactory Epithelium in Fish Caused by Prolonged Exposure to Natural Odorants 🐠👃 (2020)
  4. Rearrangement of Actin Microfilaments in the Development of Olfactory Receptor Cells in Fish 🔬🐟 (2018)
  5. Accumulation of Petroleum Hydrocarbons in Intracellular Lipid Bodies of the Freshwater Diatom Synedra acus Subsp. radians 🌍💧 (2017)

Conclusion:

Klimenkov Igor Viktorovich’s research demonstrates significant contributions to neurobiology, environmental adaptation, and aquatic life sciences. His ability to lead impactful research projects, publish high-quality papers, and garner recognition within his academic and professional circles makes him a strong candidate for the Best Paper Award. While there is room for growth in terms of applied science and international collaborations, his research is highly commendable and deserving of further recognition. Therefore, based on his expertise, publication record, and significant contributions to the field, I strongly recommend Klimenkov for the Best Paper Award.

Muhammad Imran | Plant Cell Biology | Best Researcher Award

Posted on by sciencefather

Dr. Muhammad Imran | Plant Cell Biology | Best Researcher Award

Dr. Muhammad Imran , COMSATS University Islamabad , Pakistan

Dr. Muhammad Imran is an accomplished researcher and associate professor at the Department of Environmental Sciences, COMSATS University Islamabad, Vehari Campus, Pakistan. With a diverse academic and research background, he holds a PhD in Hydrogeology from Utrecht University, Netherlands, and completed his postdoctoral research at Gdansk University of Technology, Poland. His work spans a range of environmental science topics, with a particular focus on water treatment, environmental remediation, and the application of advanced materials like biochar and nanomaterials for sustainable water and wastewater management. Dr. Imran has made significant contributions to environmental hydrogeology, with 105 research publications, an impressive impact factor of 400, and over 5600 citations. His ongoing work on novel solutions for contaminant removal and green technologies for water treatment reflects his dedication to addressing global environmental challenges.

Publication Profile:

Orcid

Strengths for the Award:

  1. Extensive Research Output:

    • Dr. Imran has authored 105 research publications with an impressive impact factor of 400, and more than 5,600 citations, showcasing his significant contributions to the scientific community.
    • His publications are highly cited, indicating his work is well-regarded by other researchers in the field, with an i-10 index of 80.

  2. Diverse Research Interests:

    • His research spans several critical areas, including photocatalytic oxidation, biosorption of contaminants, biochar composites, and nanomaterial synthesis.
    • This broad range of expertise positions him at the forefront of environmental sciences, especially in water remediation technologies and sustainability practices.

  3. International Research Exposure:

    • Dr. Imran has completed his Postdoc at Gdansk University of Technology in Poland and his PhD at Utrecht University, Netherlands. This international experience has enriched his research perspective and enhanced his collaborative potential.
    • His research collaborations extend beyond national borders, contributing to a global network in his field.

  4. Academic and Professional Leadership:

    • He holds the position of Associate Professor at COMSATS University Islamabad, Vehari Campus, Pakistan, where he is contributing to academia by teaching and guiding future scientists.
    • His leadership in managing research projects funded by esteemed organizations such as the Higher Education Commission (HEC) and Pakistan Agricultural Research Council (PARC) demonstrates his ability to direct impactful scientific work.

  5. Research Grants and Project Leadership:

    • Dr. Imran has successfully managed and led projects focused on dye sequestration, heavy metal removal, and sustainable water treatment, making a significant impact in environmental remediation.

Areas for Improvement:

  1. Broader Public Engagement:

    • While Dr. Imran’s academic and research contributions are commendable, there is an opportunity to engage more in public outreach to communicate his work’s importance to a broader audience, including policymakers, local communities, and industry professionals.
    • Increased media presence, public seminars, or partnerships with non-profit organizations could help elevate the impact of his work.

  2. Interdisciplinary Collaborations:

    • Though his work is rich in environmental sciences, further interdisciplinary research could deepen the connection between hydrogeology, material science, and biotechnology. Collaborating with engineers, policymakers, or industrial practitioners could amplify his impact.

Education:

Dr. Muhammad Imran’s academic journey is marked by excellence and dedication to environmental sciences. He completed his MSc and PhD in Environmental Hydrogeology at the prestigious Department of Earth Sciences, Utrecht University, Netherlands, where he worked under the mentorship of Prof. Dr. Ruud J. Schotting. His postdoctoral research was carried out at Gdansk University of Technology, Poland, under the guidance of Prof. Dr. Grzegorz Boczkaj. His academic foundation is further complemented by a BSc from the University of Agriculture Faisalabad, Pakistan, and early education in his hometown. Dr. Imran’s expertise lies at the intersection of hydrogeology, water treatment, and environmental chemistry. His educational background has equipped him with both theoretical knowledge and practical skills to address complex environmental challenges, especially in the areas of pollutant removal, biosorbents, and the application of nanotechnology in environmental remediation.

Experience:

Dr. Muhammad Imran has a wealth of academic and professional experience in environmental sciences, spanning over a decade. Since 2015, he has been a dedicated faculty member at COMSATS University Islamabad, Vehari Campus, Pakistan, where he currently serves as an Associate Professor in the Department of Environmental Sciences. He has also held the position of Assistant Professor at the same institution, contributing significantly to research and teaching. Dr. Imran’s research experience includes supervising numerous research projects, particularly in the areas of water treatment, contaminant removal, and environmental remediation using advanced materials like biochar and nanomaterials. Additionally, his postdoctoral work at Gdansk University of Technology in Poland enabled him to collaborate internationally on cutting-edge research in wastewater treatment. He has been involved in various national and international research projects, contributing to the development of sustainable environmental solutions and making substantial contributions to scientific literature in his field.

Research Focus:

Dr. Muhammad Imran’s research focuses on environmental sustainability, specifically the remediation of contaminated water through innovative methods. His primary areas of interest include photocatalytic oxidation and reduction of pollutants, biosorption techniques, and the application of green nanomaterials for wastewater treatment. Dr. Imran has significantly advanced the development of biosorbents and biochar composites, which are used in the removal of toxic metals, azo dyes, and other contaminants from water. His work explores the synthesis of biochar and its composites with nanoparticles to enhance the efficiency of wastewater remediation processes. Additionally, Dr. Imran investigates the impacts of environmental stressors on agricultural practices, such as the effects of salt and metal stress on crops. His research aims to develop cost-effective, sustainable technologies that can be implemented in both industrial and agricultural sectors to address pressing environmental challenges.

Publication Top Notes:

  1. Synergistic degradation of toxic azo dyes using Mn-CuO@Biochar 🌊🧪
  2. An interplay of salt and Ni stress on contrasting tomato genotypes 🍅💧
  3. Anticancer, antidiabetic, and antioxidant capacities of green-synthesized zinc oxide nanoparticles 💊🌿
  4. Enhancing arsenic removal using Cu-infused biochar 🔬💧
  5. Maximizing heavy metal removal with biowaste-derived biosorbents and biochar ♻️⚙️
  6. Hydro-geochemistry and health risk assessment of nitrate, nitrite, and fluoride 💀💧
  7. Magnetic nanocomposite of maize offal biomass for dye sequestration 🌽🧲
  8. Magnetic quinoa biosorbent composite for chromium sequestration 🌾🔬
  9. Biosorption potential of Bacillus anthracis PM21 for metal sequestration 🦠💧
  10. Investigation of Biochar-Cu0 Composite for nickel adsorption 🌱🔍

Conclusion:

Dr. Muhammad Imran is undoubtedly a top candidate for the Best Researcher Award due to his exemplary contributions to environmental sciences, specifically in the areas of water contamination and remediation. His innovative approaches and successful application of cutting-edge technologies, along with his significant academic output and leadership roles, position him as a leader in his field. With minor improvements in networking, publication visibility, and interdisciplinary integration, Dr. Imran’s research can achieve even greater global recognition and impact. His dedication to both research and mentorship makes him a valuable asset to the academic community, and his work continues to make significant strides in sustainable environmental practices.

 

Mohamed Sadek BACHENE | Microbial Cell Biology | Best Innovation Award

Posted on by sciencefather

Assoc. Prof. Dr. Mohamed Sadek BACHENE | Microbial Cell Biology | Best Innovation Award

Assoc. Prof. Dr. Mohamed Sadek BACHENE , Institute of Veterinary Sciences at the University of Médéa , Algeria

Dr. Mohamed Sadek Bachene is a distinguished veterinarian and academic from Algeria, born on November 26, 1984, in Medea. He holds extensive experience in veterinary medicine, academic teaching, and scientific research. Bachene has contributed to numerous scientific publications and has presented at international conferences. He is a recognized educator and supervisor in the field of veterinary science, particularly in histology, animal physiology, and pathology. With a strong background in veterinary sciences, Bachene has made significant contributions to the study of coccidiosis in rabbits and broiler chickens. He is highly active in the development of veterinary education and scientific research in Algeria, earning recognition for his innovation and academic leadership.

Publication Profile:

Scopus

Strengths for the Award:

Dr. Mohamed Sadek Bachene’s work stands out for its deep focus on veterinary parasitology, particularly in combating coccidiosis in rabbits and broiler chickens. His innovative research on vaccine trials for Eimeria magna and other parasites in Algerian local rabbits has made significant strides in the prevention of coccidiosis. His published studies and presentations at international conferences highlight the practical applications of his work in veterinary medicine, especially in local farming contexts. Bachene’s ability to combine academic teaching, research, and practical veterinary practice demonstrates a holistic approach that benefits both the academic and professional veterinary communities.

Areas for Improvement:

While Dr. Bachene has made substantial contributions, there is potential for growth in collaborative, interdisciplinary research. Engaging in more international partnerships or joining larger research consortia could increase the scope of his work. Additionally, a greater emphasis on the long-term environmental and socio-economic impacts of his research in rural areas could further strengthen the relevance of his work to both the veterinary and agricultural industries.

Education:

Dr. Mohamed Sadek Bachene holds a Ph.D. in Veterinary Sciences (2013–2019) from ENSV and a Magister degree (2009–2013) in Veterinary Sciences with a specialization in breeding and pathology of backyard animals. His academic journey is complemented by short-term internships at Beijing Agricultural University, focusing on PCR and sequencing of parasite genetic material. Additionally, Bachene completed a university accreditation in Veterinary Sciences (2019–2021). He has excelled in both research and practical application, contributing to significant advancements in the study of animal health and pathology.

Experience:

Dr. Bachene’s professional experience spans from private veterinary practice in 2011 to prominent academic roles, including teaching at Blida and Médéa Universities. He has served as a Teacher-Assistant at YAHIA FARES Médéa University and held a leadership position as Co-head of the Department responsible for graduation and pedagogy (2016–2019). In addition, he actively participated in university governance through memberships in administrative councils and scientific commissions. His administrative and academic leadership roles have shaped veterinary education and research within the university system.

Research Focus:

Dr. Bachene’s research is focused on veterinary parasitology, with a particular interest in coccidiosis in rabbits and poultry. He has conducted extensive studies on Eimeria species, exploring their pathogenicity, prevalence, and potential vaccination strategies. His work in the field of veterinary medicine includes the development of experimental vaccines and the study of parasite genetics using molecular techniques. Bachene’s research aims to improve animal health management practices, specifically in rural and agricultural settings, and to contribute to the overall betterment of veterinary care in Algeria.

Publications Top Notes:

  • 2018: “A vaccination trial with a precocious line of Eimeria magna in Algerian local rabbits” 🐇💉
  • 2018: “Prevalence of coccidian infection in rabbit farms in North Algeria” 🐇🔬
  • 2019: “Prevalence of Rabbit Coccidia in Medea Province, Algeria” 🐇📊
  • 2021: “Vaccination of Algerian Local Rabbits with Precocious Strains of Eimeria magna and Eimeria media” 🐇💉
  • 2025: “Prevalence of coccidiosis in broiler chickens in Medea, Algeria” 🐔🔬

Conclusion:

Dr. Mohamed Sadek Bachene is highly deserving of the Research for Best Innovation Award due to his exceptional work in veterinary parasitology, his innovation in vaccine development, and his commitment to improving animal health and farming practices in Algeria. His active role in education, research, and professional development in veterinary science makes him an outstanding candidate. Enhancing global collaborations and focusing on sustainable, long-term impact could further amplify the influence of his research.

Subarna Sandhani Dey | Microbiology | Women Researcher Award

Posted on by sciencefather

Ms. Subarna Sandhani Dey | Microbiology | Women Researcher Award

Ms. Subarna Sandhani Dey , Bangladesh Council of Scientific and Industrial Research (BCSIR) , Bangladesh

Subarna Sandhani Dey is a highly accomplished Scientific Officer with a strong academic background in Microbiology. She holds a Master of Science (M.S) in Microbiology with a CGPA of 3.79 from the University of Dhaka, where she also completed her Bachelor’s degree with a CGPA of 3.82. Subarna is a dedicated researcher with a focus on microbiological research, specifically bioactive compounds, antibacterial effectiveness, and the exploration of natural resources for sustainable applications. She has contributed significantly to over 11 peer-reviewed journal publications. Subarna’s training in various high-tech instruments, such as FESEM, XRD, and Real-Time PCR, has solidified her expertise in laboratory-based research. She is passionate about scientific exploration and aims to contribute to addressing global challenges related to health, environment, and sustainable practices.

Publication Profile:

Orcid

Strengths for the Award:

  1. Strong Academic Background: Subarna Sandhani Dey has an excellent academic track record with a Master’s and Bachelor’s degree in Microbiology from the University of Dhaka. With a CGPA of 3.79 out of 4.00 in her Master’s and 3.82 out of 4.00 in her Bachelor’s, she has demonstrated exceptional academic proficiency.

  2. Comprehensive Training: She has undergone extensive training on various scientific instruments and techniques, such as FESEM, Atomic Absorption Spectrometer, Real-Time PCR, X-Ray Diffraction, and Gen Microstation, which indicates a strong practical understanding of cutting-edge technologies in microbiology and material sciences.

  3. Impressive Publication Record: Subarna Sandhani Dey has co-authored 11 publications in prominent peer-reviewed journals, contributing to various aspects of microbiology, bioactive compounds, antimicrobial activity, and green chemistry. Her research, especially on bioactive compounds from plants and sustainable methods, aligns well with current trends in sustainable scientific advancements.

  4. Interdisciplinary Research Contributions: Her work spans multiple areas, including antimicrobial resistance, the nutritional properties of plants, sustainable chemistry, and the development of value-added products, such as blended oils and natural coatings. This diverse research experience demonstrates her ability to bridge various scientific disciplines.

  5. Leadership and Collaboration: Subarna has worked with a large number of collaborators, including researchers, doctors, and scientists, showing her ability to lead and collaborate within interdisciplinary teams. This is a valuable skill for driving innovation in research.

  6. Focus on Sustainable Practices: Her publications on sustainable practices in chemistry and the use of natural sources, like mulberry silk worm pupae and plant extracts, contribute significantly to green and sustainable research. This aligns well with global calls for more eco-friendly and sustainable solutions in science.

Areas for Improvement:

  1. Broader Engagement with Global Scientific Communities: While Subarna has worked extensively within local institutions and has contributed to numerous publications, there might be further scope to engage more with international research communities and present findings at global conferences. This could broaden the reach and impact of her work.

  2. Expansion of Research in Industrial Applications: Although Subarna’s work is rooted in the academic and fundamental aspects of microbiology and chemistry, expanding the focus on the practical industrial applications of her research—such as bioactive compounds and antimicrobial treatments—could enhance the direct societal impact of her work.

  3. Additional Grant or Funding Pursuits: Securing external funding for research could enable her to expand her studies, explore more interdisciplinary projects, and engage in larger-scale studies that could have significant real-world applications.

  4. Mentorship and Public Outreach: Further involvement in mentoring students and engaging in public outreach to communicate the importance of sustainable practices and microbiology could amplify her influence and inspire other young women in research.

Education (150 words):

Subarna Sandhani Dey completed her M.S. and B.S. in Microbiology from the University of Dhaka with outstanding academic performance, achieving CGPAs of 3.79 and 3.82 out of 4.00, respectively. She passed the Higher Secondary Certificate (HSC) with a GPA of 5.00 from Rangpur Govt. College in 2010, followed by the Secondary School Certificate (SSC) with the same GPA from Rangpur Govt. Girl’s High School in 2008. Throughout her academic journey, she has demonstrated excellence in her field, particularly in microbiological research. Her educational achievements set a foundation for her scientific career and research contributions. Subarna’s academic path also includes specialized training in cutting-edge technologies, which has helped her build a strong skillset for conducting impactful research in microbiology and related fields.

Experience (150 words):

Subarna Sandhani Dey is currently serving as a Scientific Officer at the Bangladesh Council of Scientific and Industrial Research (BCSIR) in Dhaka. With her extensive experience, she has gained expertise in various research areas, including microbiology, bioactive compounds, and antimicrobial properties of natural substances. Subarna has actively participated in advanced training programs, such as FESEM, Atomic Absorption Spectrometer, and Real-Time PCR, refining her technical skills. She has also been involved in research that spans diverse aspects of environmental health and sustainable practices, with a special focus on antimicrobial properties of natural resources. Her involvement in multiple projects has contributed to her broad scientific expertise, particularly in microbiology, where she has become a prominent contributor to several important journal publications. Subarna is committed to using her knowledge and experience to further the field of research and contribute positively to society.

Research Focus (150 words):

Subarna Sandhani Dey’s research focuses on microbiological investigations, with particular interest in the bioactive compounds, antimicrobial properties, and sustainable applications of natural resources. Her work has explored various plant-based extracts, such as those from Annona Muricata bark, with an emphasis on bioactive properties and their effectiveness against bacterial strains. She has also contributed to research on edible oils, biofilm inhibition, and green extraction technologies. Subarna is dedicated to discovering eco-friendly methods for extracting essential oils and other valuable substances. Additionally, her work includes the evaluation of antimicrobial resistance, as well as the nutritional and medicinal value of local plants and natural products in Bangladesh. By integrating sustainable practices with advanced scientific methodologies, Subarna aims to drive innovation in microbiology, addressing challenges related to health, food security, and environmental sustainability.

Publications Top Notes:

  1. Comparative Analysis of Four Different Solvent Extracts of Annona Muricata Bark Based on Bioactive Compounds and Antibacterial Effectiveness 🧪🌿
  2. Biofilm Associated Growth Inhibition of XDR Escherichia Fergusonii Strain ACE12 Isolated from Soil 🌍🦠
  3. Unique Formulation of Edible Blended Oil from Sesame and Mustard Seeds Grown in Bangladesh 🌾🛢️
  4. Sustainable Production of Liquid Phenyl Using Oil Extracted from Discarded Pupae of Mulberry Silk Worms (Bombyx Mori) 🦋🌱
  5. Optimization of Green Microwave-Assisted Extraction of Essential Oil from Lemon (Citrus Limon) Leaves 🌿🍋
  6. Nutritional Characteristics and Antiradical Activity of Turmeric, Beetroot, and Carrot Grown in Bangladesh 🥕🌱
  7. In Silico Exploration of Serratia sp. BRL41 Genome for Detecting Prodigiosin Biosynthetic Gene Cluster 🧬🔬
  8. Abundance and Biofilm Formation Capability of Vibrio Cholerae in Aquatic Environment with an Emphasis on Hilsha Fish 🐟💧
  9. Evaluation of Anti-Microbial Activity of Biotite and Biotite Composite Based on Crystallographic Parameters 🧪📊
  10. Extension of Mango Shelf Life by Aloe Vera Coating and Gene Expression 🥭🌿
  11. Study of Effectiveness of Natural Coatings on the Shelf Life Extension of Tomatoes by TomloxC Gene Expression 🍅🧬

Conclusion:

Subarna Sandhani Dey exhibits the qualities of a strong candidate for the Research for Women Researcher Award. Her academic excellence, impressive publication record, diverse research contributions, and focus on sustainable science are all strengths that showcase her dedication and impact in her field. By expanding her international engagement, enhancing industrial applications, and pursuing further mentorship opportunities, she could further elevate her contributions to science and society. Subarna’s work not only enhances scientific knowledge but also serves as an inspiration to other women in research, making her a deserving contender for this award.

Eduardo Burgarelli Mayrink | Biological Sciences | Best Researcher Award

Posted on by sciencefather

Mr. Eduardo Burgarelli Mayrink | Biological Sciences | Best Researcher Award

Mr. Eduardo Burgarelli Mayrink , FMVZ – UNESP, Botucatu , Brazil

Eduardo Burgarelli Mayrink Cardoso is a dedicated veterinarian from Brazil with a focus on wildlife medicine. He graduated from Universidade Federal Fluminense (UFF) in 2019 and completed a multidisciplinary residency at Universidade Estadual Paulista (UNESP) in 2022. Eduardo further advanced his education by completing a postgraduate program in Veterinary Neurology of Small Animals at Instituto Bioethicus in 2024. He is also pursuing a Master’s degree in Wild Animals at UNESP. A passionate advocate for wildlife rescue and rehabilitation, Eduardo has contributed significantly to the care and treatment of wild species. His expertise spans clinical medicine, surgery, and rehabilitation, particularly in reptiles, birds, and mammals. He also serves as a professor in veterinary courses, enriching both academic and professional communities.

Publication Profile:

Orcid

Strengths for the Award:

Eduardo Burgarelli Mayrink Cardoso is a dedicated and highly skilled professional who has made significant strides in the field of veterinary medicine, particularly in wildlife care, orthopedics, and neurology. His research and practical contributions in treating and rehabilitating wild animals, including his work on trauma diagnosis and treatment, are particularly notable. Additionally, his ongoing research on the impact of roadkill on biodiversity and his involvement with various species, including tigers and giant anteaters, showcase his diverse expertise. Eduardo’s interdisciplinary approach to both clinical and academic roles sets him apart as a leading figure in his field. His contributions to the academic community as a professor and the five collaborative research projects he has been involved in demonstrate his ability to engage with multiple facets of veterinary science.

Areas for Improvement:

While Eduardo has made strong contributions to his field, there is room for further expansion in terms of international collaboration and increased visibility in higher-impact journals. While his citation index is promising (1), increasing his publication presence in internationally recognized journals like SCI and Scopus would significantly bolster his global research reputation. Developing more connections and memberships in professional organizations could also enhance his network, creating further opportunities for research development.

Education:

Eduardo’s academic journey began with his graduation in Veterinary Medicine from Universidade Federal Fluminense (UFF) in 2019. He then pursued a residency in Clinical Medicine and Surgery of Wild Animals at Universidade Estadual Paulista (UNESP), completing it in 2022. Eduardo further honed his expertise by completing a postgraduate program and a monitoring course in Veterinary Neurology at Instituto Bioethicus (IB) in 2024. Additionally, he is currently working towards a Master’s degree in Wild Animals at UNESP, focusing on Feline Orthopedics and Radiology, which further enhances his knowledge in wildlife care and rehabilitation.

Experience:

Eduardo’s professional experience spans clinical and surgical veterinary medicine, particularly in wildlife care. He has been deeply involved in the rescue and rehabilitation of wild animals, including reptiles, birds, and mammals. Eduardo also holds a teaching position, providing instruction in both undergraduate and postgraduate veterinary courses at UNESP. As a practicing veterinarian and surgeon, his specialties include orthopedics, neurology, and trauma treatment, particularly in wild felines and other species. His work as a professor helps to shape the future generation of veterinary professionals, while his research continues to impact the field of wildlife medicine.

Research Focus:

Eduardo’s research is focused on wildlife medicine, specifically trauma treatment and rehabilitation. He has a keen interest in the orthopedic care of wild animals, particularly felines. His work includes studying the impacts of roadkill on biodiversity, as well as investigating the rehabilitation methods for injured wildlife. Eduardo has also contributed to the study of neurological disorders in small animals, particularly in the context of veterinary neurology. His interdisciplinary approach integrates clinical care with ecological considerations, aiming to improve the survival and well-being of wild species, especially in rehabilitation settings.

Publications Top Notes:

  1. Pyometra in a Tiger (Panthera tigris) – Acta Scientiae Veterinariae, 2023-03-19
  2. Cryptosporidiosis in Reptiles from Brazil: An Update for Veterinary Medicine – Parasitologia, 2022-08

Conclusion:

Eduardo Burgarelli Mayrink Cardoso’s extensive experience, multidisciplinary approach to wildlife medicine, and dedication to advancing veterinary research make him an outstanding candidate for the Best Researcher Award. His strong academic background, combined with his hands-on work in wildlife rescue and rehabilitation, positions him as a leader in his field. With further development in international collaborations and expanded publication in high-impact journals, Eduardo’s influence in the veterinary research community could continue to grow exponentially, making him a highly deserving nominee for the award.

Jacob Wekalao | Cancer Cell Biology | Best Researcher Award

Posted on by sciencefather

Mr. Jacob Wekalao | Cancer Cell Biology | Best Researcher Award

Mr. Jacob Wekalao , USTC CHINA , China

Jacob Wekalao is a Physics professional and researcher with extensive experience in both academia and industry. He holds a Doctor of Philosophy from the University of Science and Technology and a Master of Science in Physics from Marwadi University, India. Jacob has worked as a physics teacher, leading the physics department at Kwale High School, Kenya, and is currently a software expert at Eujim Solutions, where he specializes in creating innovative business solutions. He is also a Research Assistant at Marwadi University, contributing to advanced research in physics and nanotechnology. His expertise spans across terahertz sensors, graphene-based biosensors, and surface plasmon resonance techniques. In addition to his academic endeavors, Jacob has authored several peer-reviewed publications, showcasing his contributions to forensic science, health, and biomedical applications. Jacob is passionate about research, mentoring, and leveraging technology to solve real-world problems.

Publication Profile:

Orcid

Strengths for the Award:

Jacob Wekalao is an exceptional researcher in the field of experimental physics, particularly in the areas of nanotechnology, terahertz sensors, and biosensing. His work integrates cutting-edge research with practical applications, demonstrating a high level of innovation and expertise. Jacob’s contributions to the development of graphene-based sensors for various applications, including healthcare, forensic science, and security, have positioned him as a thought leader in his field. His published works in prestigious journals and his active role in research projects, such as designing biosensors for early disease detection, highlight his proficiency in both theoretical and applied physics. Additionally, Jacob’s ability to collaborate internationally and present at major conferences reflects his commitment to advancing scientific knowledge and networking within the global research community.

Areas for Improvement:

While Jacob excels in his research and technological expertise, expanding his focus on interdisciplinary collaborations could further elevate his work. Engaging more with industry experts in areas like artificial intelligence or machine learning could also open doors for more transformative innovations, especially in optimizing sensor technologies. Further involvement in policy or public science initiatives could help bridge the gap between research and broader societal applications.

Education:

Jacob Wekalao has an impressive educational background that supports his expertise in physics and technology. He is currently pursuing a Doctor of Philosophy at the University of Science and Technology, China. His academic journey began with a Bachelor of Education in Science with a focus on Physics and Mathematics from the University of Embu, Kenya (2016-2020). This solid foundation propelled him to obtain a Master of Science in Physics from Marwadi University, Rajkot, Gujarat, India (2021-2023). During his time at Marwadi University, Jacob excelled academically, earning an Academic Gold Medal in November 2023 for his outstanding performance. His commitment to learning is also reflected in certifications from institutions like KAIST and the Israel Institute of Technology. Jacob’s education is characterized by a blend of theoretical knowledge and practical skills, which has enabled him to contribute significantly to the fields of experimental physics and applied technology.

Experience:

Jacob Wekalao has diverse experience spanning education, research, and industry. From September 2019 to August 2021, he worked as a Physics teacher at Kwale High School, Kenya, where he led the physics department, developed curriculum materials, and managed science projects. This role enabled him to foster critical thinking and scientific inquiry among students. In addition to his teaching experience, Jacob is currently employed as a Software Expert at Eujim Solutions, Kenya (July 2023 – Present), where he provides tailored software solutions, improves business efficiency, and implements cutting-edge technologies. Furthermore, he works as a Research Assistant at Marwadi University, collaborating on various physics research projects focused on terahertz sensors and biosensors. His involvement in multiple projects and publications has established him as a valuable contributor to advancements in technology and scientific research. Jacob’s work showcases a seamless integration of theoretical physics and practical application in technology.

Awards and Honors:

Jacob Wekalao’s dedication to academic excellence and research has earned him notable awards and honors. He received the prestigious Academic Gold Medal from Marwadi University, Rajkot, India, in November 2023, recognizing his exceptional performance in the Master of Science in Physics program. Jacob’s achievements are further validated by his numerous peer-reviewed publications, which have contributed to the global scientific community. His research in the fields of biosensing, terahertz technology, and nanomaterials has earned him recognition at various international platforms. In addition to academic awards, Jacob’s work has been presented at leading conferences, such as the International Conference on Chemical Safety and Security for Health and Environment (ICCSSHE), held in India in December 2023. His strong academic performance, leadership in research, and contributions to technological advancements continue to set him apart as an outstanding professional in his field.

Research Focus:

Jacob Wekalao’s research focuses on experimental physics, particularly in the areas of terahertz technology, biosensing, and nanomaterials. His work has significant implications for applications in healthcare, security, and forensic science. Jacob has developed and optimized graphene-based terahertz surface plasmon resonance sensors for the detection of various biomolecules, including hemoglobin and illicit drugs. His research has extended to the design of graphene metasurfaces for efficient detection of diseases like malaria and COVID-19. Jacob’s research in biosensors has led to highly sensitive, cost-effective solutions that hold promise for point-of-care diagnostics and environmental monitoring. Additionally, his work on the use of metasurfaces for explosive detection has practical implications for security. Through his research, Jacob combines advanced theoretical physics with real-world applications, contributing to the fields of biomedical technology, environmental monitoring, and security. His interest in machine learning also aids in optimizing these sensor technologies for better precision and performance.

Publications Top Notes:

  1. “Graphene-based THz surface plasmon resonance biosensor for hemoglobin detection applicable in forensic science.” 📖🔬
  2. “Design of ring and cross-shaped graphene metasurface sensor for efficient detection of malaria and 2-bit encoding applications.” 🦠🔍
  3. “Waterborne bacteria detecting highly sensitive graphene metasurface-based cost-efficient and efficient refractive index sensors.” 💧🔬
  4. “Design of graphene metasurface sensor for efficient detection of COVID-19.” 🦠💡
  5. “Graphene biosensor design based on glass substrate for forensic detection of illicit drugs.” 💊🔍
  6. “Graphene and Gold Metasurface-Based Terahertz Surface Plasmon Resonance Sensor for Explosive Detection.” 💥🛡️
  7. “Terahertz Optical Ultrasensitive Glucose Detection Using Graphene and Silver Surface Plasmon Resonance Metasurfaces for Biomedical Applications.” 🩺🔬
  8. “High-Sensitivity Graphene-Gold Metasurface Optical Biosensor for Early Melanoma Detection Optimized with Machine Learning Using a One-Dimensional Convolutional Neural Network and Binary Encoding.” 🧬🔬

Conclusion:

Jacob Wekalao’s contributions to the fields of physics and technology demonstrate an impressive combination of academic excellence, hands-on expertise, and innovative solutions. His drive to advance scientific knowledge and apply it for real-world impact, especially in healthcare and security, makes him a deserving candidate for the Best Researcher Award. Jacob’s ongoing work on high-sensitivity biosensors and his ability to stay ahead of technological trends make him a standout researcher in his field.