Eduardo Burgarelli Mayrink | Biological Sciences | Best Researcher Award

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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

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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.

 

 

 

Aniruddh Bahadur Yadav | Cell Structure Analysis | Best Researcher Award

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Dr. Aniruddh Bahadur Yadav | Cell Structure Analysis | Best Researcher Award

Dr. Aniruddh Bahadur Yadav , SAHE , India

Aniruddh Bahadur Yadav is an accomplished Associate Professor at VR Siddhartha Engineering College, Vijayawada, with over 10 years of teaching experience. He holds a Ph.D. in Electronics Engineering from IIT (BHU) Varanasi and specializes in semiconductor and nanomaterial synthesis, particularly for gas sensing applications. His research efforts have led to substantial contributions in the field of materials science, having published 19 journal articles and 7 conference papers. With a strong foundation in electronics and materials science, Aniruddh is passionate about designing advanced electronic devices by tailoring nanomaterials. He has established multiple research and academic laboratories, significantly enhancing both educational and research environments. His expertise is widely recognized, having guided numerous research theses and collaborated on several notable projects.

Publication Profile:

Google Scholar

Strengths for the Award:

Aniruddh Bahadur Yadav’s extensive research background and accomplishments make him an exceptional candidate for the Researcher of the Year award. With a specialization in nanomaterials and their applications in gas sensors and electronic devices, his work has significantly contributed to advancing the field. His expertise in designing and synthesizing semiconductor, insulator, and metal nanomaterials, particularly in tailoring their dimensions and shapes, has been demonstrated in over 19 journal articles and 7 conference papers. Yadav’s research, backed by solid teaching experience and successful project leadership, has influenced both the scientific and academic communities. Additionally, his ability to establish research laboratories and effectively teach at undergraduate and postgraduate levels showcases his versatility and commitment to both education and scientific innovation.

Areas for Improvements:

Although Yadav has an impressive track record in research and teaching, future research could benefit from a broader range of collaborative projects with industry partners to explore practical applications of his work in real-world devices. Additionally, expanding research into interdisciplinary fields such as environmental sensing and smart materials could provide new avenues for innovation and application.

Education:

Aniruddh Bahadur Yadav completed his Ph.D. in Electronics Engineering at IIT (BHU), Varanasi, with a GPA of 8.6/10, from 2009 to 2014. He also earned an M.Tech. in Ceramic (Materials Science) Engineering from the same institute in 2009 with a GPA of 7.6/10. Prior to this, he completed his B.Tech. in Electronics and Instrumentation Engineering at VBS Purvanchal University, Jaunpur, with a percentage of 76%. His extensive educational background provided a strong foundation for his research in nanomaterials, electronics, and material science, enabling him to excel in both teaching and research. His academic journey is marked by excellence and has significantly shaped his career in electronics and materials science.

Experience:

Aniruddh Bahadur Yadav has over a decade of experience in both academia and research. Currently, he serves as an Associate Professor at VR Siddhartha Engineering College, Vijayawada, where he is responsible for teaching undergraduate and postgraduate courses in electronics and materials science. He also plays a key role in research project funding, research design, and syllabus development, in addition to leading the VLSI group. Prior to this, he was an Associate Professor at Sree Vidyanikethan Engineering College, Tirupati, where he was in charge of research, laboratories, and syllabus framing. His experience extends to organizing faculty development programs and guiding research theses. His leadership in establishing research and academic laboratories has greatly contributed to the advancement of scientific exploration at the institutions he has been a part of. His career reflects a deep commitment to both teaching and research in the field of nanotechnology and electronics.

Awards and Honors:

Aniruddh Bahadur Yadav has earned several prestigious awards and fellowships during his academic journey. He was awarded the Fellowship for his Master’s course at IIT (BHU) in 2007, supported by MHRD, and a Fellowship for his Doctorate as JRF and SRF. He was also recognized for his research contributions through participation in various academic programs. His outstanding contributions to research, particularly in nanomaterials and electronic devices, have led to several awards and recognitions. His work in gas sensing and nanotechnology has been highly regarded in the scientific community, evident from his numerous publications in high-impact journals. Additionally, Aniruddh has actively contributed to the development of educational programs, guiding many students through their research projects and theses. His efforts in promoting scientific research and education are further underscored by his active participation in faculty development programs, which have been awarded certificates to 400+ participants.

Research Focus:

Aniruddh Bahadur Yadav’s research primarily focuses on the design, modeling, and fabrication of nanomaterials with applications in gas sensors and electronic devices. His expertise lies in tailoring the dimensions and shapes of semiconductor, insulator, and metal nanomaterials for optimizing their properties in electronic devices. He is particularly interested in exploring the potential of nanomaterials for gas sensing applications, where he investigates the effects of particle size and gate thickness on sensing performance. His research employs advanced fabrication techniques, such as sol-gel and RF sputtering, to develop thin films and Schottky contacts for various applications. With a strong foundation in materials science, he continuously seeks to innovate and improve the performance of devices by leveraging the unique properties of nanomaterials. His work aims to contribute to advancing technologies that can benefit society, with a focus on enhancing the effectiveness and sensitivity of gas sensors and other electronic components.

Publications Top Notes:

  1. “Sol-gel-based highly sensitive Pd/n-ZnO thin film/n-Si Schottky ultraviolet photodiodes” 📄🔬
  2. “Pd Schottky contacts on sol–gel derived ZnO thin films with nearly ideal Richardson constant” 🧪⚡
  3. “Particle size effects on the hydrogen sensing properties of Pd/ZnO Schottky contacts fabricated by sol–gel method” 🌐💡
  4. “Hydrogen gas sensing properties of Pd/ZnO thin films grown on n-Si <100> substrates at room-temperature by thermal evaporation and sol-gel techniques: A comparative study” 🧪💨
  5. “Effects of annealing temperature on the structural, optical, and electrical properties of ZnO thin films grown on n-Si <100> substrates by the sol–gel spin coating method” 🔥📊
  6. “Annealing-temperature effects on the properties of ZnO thin films and Pd/ZnO Schottky contacts grown on n-Si (100) substrates by vacuum deposition method” 🔬🌀
  7. “True Ohmic contact on RF sputtered ZnO thin film by using the nonalloy Ti/Au metallization scheme” ⚡💎
  8. “Seed layer effect on different properties and UV detection capability of hydrothermally grown ZnO nanorods over SiO2/p-Si substrate” 🌱💡
  9. “Zero bias UV detection and precursor effect on properties of ZnO nanorods grown by hydrothermal method on SiO2/p-Si substrate” 🌞🔬
  10. “Effect of precursor chemistry on the structural and sensing properties of hydrothermally grown nanorods” 💧📚

Conclusion:

Aniruddh Bahadur Yadav’s solid academic foundation, significant contributions to the synthesis of nanomaterials, and impressive body of work in gas sensing and electronic devices make him a deserving candidate for the Research for Best Researcher Award. His dedication to both advancing scientific knowledge and fostering the next generation of engineers is a testament to his long-term impact on the field.

 

 

 

Mehmet Ali Karaselek | Immunology | Best Researcher Award

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Dr. Mehmet Ali Karaselek | Immunology | Best Researcher Award

Dr. Mehmet Ali Karaselek , Necmettin Erbakan Üniversitesi , Turkey

Dr. Mehmet Ali Karaselek is an accomplished immunologist, widely known for his work on genetic immunodeficiencies and immune system disorders. He holds a significant position in clinical immunology, focusing on T-cell subsets, immune profiling, and the molecular mechanisms behind various immune diseases. His expertise extends to autoimmune diseases, cancers, and rare immunodeficiencies such as ICF syndrome, DCLRE1C deficiency, and CD19 deficiency. His extensive research has contributed to a deeper understanding of immune system dysfunctions and therapeutic implications, especially in immune deficiency conditions. Dr. Karaselek is also involved in training future scientists and physicians, combining his expertise in molecular immunology with clinical practice to improve diagnostic and therapeutic approaches in immunology. His publications and ongoing research projects continue to enrich the field of clinical immunology and immunogenetics.

Publication Profile:

Orcid

Strengths for the Award:

  1. Expertise in Immunology: Dr. Karaselek has contributed significantly to understanding immune system disorders, particularly immune deficiencies and their relationship with genetic mutations. This is reflected in several of his articles related to immune cell subsets, immune disorders like immunodeficiencies (e.g., CD19 deficiency, DCLRE1C deficiency), and T-cell and NK-cell functions.

  2. Innovative Research Areas: His focus on transcription factor and cytokine expression in various T-cell subsets, as well as his recent work in cancer-related therapies using pillar[5]arene derivatives, illustrates a strong grasp of cutting-edge topics in both immunology and drug development.

  3. Collaboration Across Fields: Dr. Karaselek’s research spans multiple fields, including cancer research, immunodeficiencies, and genetic disorders, showcasing his ability to work across disciplines. He has collaborated with many researchers on complex issues like genetic mutations and immune dysfunctions, highlighting his team-based approach and leadership in the research community.

  4. Contributions to Clinical Immunology: His numerous articles in high-impact journals, such as the Journal of Clinical Immunology, Expert Review of Clinical Immunology, and APMIS, demonstrate his dedication to advancing clinical research, improving diagnostics, and understanding immune system pathologies.

  5. High Publication Frequency: The volume of publications and the consistency of research output in recent years (2023–2025) reflects a high level of productivity and dedication to his field. This output signifies Dr. Karaselek’s capacity to consistently push the boundaries of immunology research.

Areas for Improvement:

  1. Broader Global Recognition: While Dr. Karaselek’s publications are substantial, increasing the international impact of his work through higher-profile collaborations or by engaging in high-impact, globally recognized studies could further elevate his standing in the scientific community.

  2. Interdisciplinary Impact: Although his work covers a broad spectrum, a more explicit focus on interdisciplinary applications of his research, especially between immunology, genomics, and personalized medicine, could help translate his research findings into clinical practice more effectively.

  3. Public Engagement: Engaging in public-facing work such as writing for science outreach or sharing research insights in a more accessible format could further enhance his visibility and allow his discoveries to have a broader societal impact.

Education:

Dr. Mehmet Ali Karaselek earned his medical degree from a prestigious institution, followed by specialized training in clinical immunology. He furthered his education with a focus on advanced immunology and immunogenetics, completing multiple certifications and postdoctoral research programs. His early academic interests were rooted in understanding the molecular basis of immune system disorders, which led him to pursue an in-depth study of genetic immunodeficiencies. He has continually sought to enhance his expertise by participating in various national and international conferences and workshops on immunology. Throughout his career, Dr. Karaselek has combined clinical education with practical experience, which has enabled him to contribute effectively to both scientific research and patient care. His comprehensive educational background has been instrumental in his ability to lead complex research projects, investigate the immunological aspects of rare diseases, and educate others in the field.

Experience:

Dr. Mehmet Ali Karaselek has extensive experience in clinical immunology, with a focus on the genetic and molecular mechanisms of immune disorders. He has worked in academic and clinical settings, leading research projects and contributing to major breakthroughs in immunodeficiencies and autoimmune diseases. Over the years, he has collaborated with a wide range of medical professionals, contributing to the diagnosis and treatment of rare genetic conditions such as ICF syndrome, DCLRE1C deficiency, and CD19 deficiency. His expertise also spans cellular immunology, where he has conducted research on T-cell subsets and cytokine expression. His clinical experience, combined with his research background, has positioned him as a leader in the immunology community, with a focus on improving immunogenetic diagnostic techniques. Dr. Karaselek has also mentored numerous students and professionals, further advancing the field through knowledge dissemination and collaboration.

Research Focus:

Dr. Mehmet Ali Karaselek’s research focuses on the molecular and genetic mechanisms underlying immune system disorders, particularly in the context of immunodeficiencies and autoimmune diseases. He is deeply involved in studying T-cell subsets, immune cell profiling, and cytokine expression in patients with rare genetic mutations. His work has shed light on the pathophysiology of conditions such as ICF syndrome, DCLRE1C deficiency, and CD19 deficiency, with the aim of improving diagnosis and treatment options. Dr. Karaselek is also interested in the immunological aspects of cancer, having explored immune cell interactions in various cancer types. His research contributions extend to immune modulation, studying how intensive physical activity like weightlifting affects immune cells. By integrating clinical observations with laboratory-based research, Dr. Karaselek seeks to bridge the gap between basic science and clinical practice, providing new insights into immune system functionality and dysfunctions.

Publications Top Notes:

  1. Investigation of Transcription Factor and Cytokine Gene Expression Levels in Helper T Cell Subsets Among Turkish Patients Diagnosed with ICF2 and ICF3 Syndrome 🧬🧪
  2. Association of NK cell subsets and cytotoxicity with FCGR3A gene polymorphism in functional NK cell deficiency 🧫🔬
  3. Changes in T-cell subsets occur in interstitial lung disease and may contribute to pathology via complicated immune cascade 🫁🩸
  4. Effect of intensive training on immune system cells in elite female weightlifters 🏋️‍♀️🦠
  5. Evaluation of transcription factors and cytokine expressions of T-cell subsets in CD19 deficiency and their possible relationship with autoimmune disease 🤧🔬
  6. Molecular investigations on T cell subsets in patients affected by hypomorphic DCLRE1C mutation 🧬🔬
  7. Variable clinical presentation of hypomorphic DCLRE1C deficiency from childhood to adulthood 👶👨‍⚕️
  8. Water-soluble Pillar[5]arene-based drug candidates for lung and breast cancer 🧪🌊
  9. Could immune cells be associated with nephropathy in Fabry disease patients? 💉🩺
  10. Effective anticancer agents based-on two Pillar[5]arene derivatives for pancreas cancer cell lines 🧬💊

Conclusion:

Dr. Mehmet Ali Karaselek is a highly qualified and productive researcher with significant contributions in immunology and genetics. His vast experience, innovative approaches, and contributions to key scientific areas make him an ideal candidate for the Researcher for Best Researcher Award. Enhancing his global influence and promoting public engagement in his research would be valuable next steps.

Sabyasachy Mistry | Molecular Mechanisms Signaling | Best Researcher Award

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Dr. Sabyasachy Mistry | Molecular Mechanisms Signaling | Best Researcher Award

Dr. Sabyasachy Mistry , US FDA , United States

Sabyasachy (Babu) Mistry is a highly skilled bioanalyst with over sixteen years of experience in analytical chemistry, organic synthesis, and bioanalytical method development. He is currently working at the US Food and Drug Administration (FDA) in Silver Spring, MD. Mistry has a broad expertise that spans liquid chromatography-mass spectrometry (LC-MS/MS), enzyme-linked immunosorbent assay (ELISA), nuclear magnetic resonance (NMR), and various organic chemistry techniques. With strong communication and problem-solving skills, Mistry excels both as a team member and independent researcher. He has contributed to multiple scientific publications, focusing on pharmacokinetics, drug discovery, and regulatory practices, in addition to mentoring students and offering leadership roles in academic settings.

Publication Profile: 

Scopus

Strengths for the Award:

Sabyasachy (Babu) Mistry’s distinguished experience in analytical and bioanalytical chemistry makes him a strong contender for the Research for Best Researcher Award. With over sixteen years of experience, his expertise spans liquid chromatography-mass spectrometry (LC-MS/MS), enzyme-linked immunosorbent assays (ELISA), and computational chemistry, among others. His work in drug solubility and pharmacokinetics, particularly his contributions to hERG assays, is highly relevant to regulatory sciences. Mistry’s capacity to bridge scientific inquiry with FDA regulations ensures his research not only advances scientific understanding but also directly supports regulatory science. His well-documented research, combined with leadership roles and multiple awards, reinforces his research excellence.

Areas for Improvements:


While Mistry’s expertise is extensive, further expansion into collaborative, cross-disciplinary projects could further enrich his body of work. Engaging more in international research initiatives could lead to innovative research outcomes and foster broader scientific networks.

Education:

Sabyasachy Mistry holds a Ph.D. in Analytical Chemistry from Purdue University, where he conducted research under the guidance of Professor Paul G. Wenthold. His dissertation focused on mass spectrometric detection of indophenols for phenol analysis. Prior to this, Mistry completed his M.S. in Organic Chemistry from the University of Dhaka in Bangladesh, where he worked with Professor Nilufar Nahar. His solid educational foundation, combined with his hands-on research experience, has provided him with expertise in a wide range of scientific disciplines, including analytical chemistry, organic synthesis, and bioanalytical methods. Furthermore, Mistry completed the CERSI Immersion Course in Drug Discovery, Drug Development, and Regulation at the UCSF-Stanford Center of Excellence in Regulatory Science and Innovation, strengthening his knowledge in FDA regulations and drug development processes.

Experience:

Mistry’s extensive professional experience spans over a decade in both academic and regulatory environments. Since 2020, he has been serving as a Bio-analyst at the US Food and Drug Administration (FDA), where he applies his expertise in analytical chemistry to support drug discovery and regulatory science. At Purdue University, Mistry worked as a Teaching Assistant (TA) and Head TA in the Department of Chemistry from 2014 to 2020, fostering the growth of new scientists while also contributing to research. His responsibilities included conducting experiments, guiding graduate students, and presenting research findings. Mistry’s work involves advanced techniques such as LC-MS/MS, HPLC, NMR, and computational chemistry tools like Gaussian and Q-Chem. His cross-disciplinary research has contributed to the scientific understanding of pharmacokinetics, drug solubility, and enzyme activity, aligning with regulatory practices in drug approval processes.

Awards and Honors:

Sabyasachy Mistry has been recognized for his outstanding contributions to analytical and bioanalytical chemistry. He was awarded the Graduate Student Travel Award at the 67th ASMS Conference on Mass Spectrometry and Allied Topics in June 2019 in Atlanta, GA. Additionally, Mistry received multiple Travel Scholarships for his student work at the ASMS conferences from 2016 to 2018, showcasing his dedication to advancing scientific knowledge. His role as a volunteer and mentor further exemplifies his leadership within the academic community. These awards highlight his exceptional skills in mass spectrometry and analytical techniques, further solidifying his expertise in the field of chemical research. Mistry’s ability to present complex scientific data and his contributions to regulatory science have garnered recognition from peers and industry professionals alike.

Research Focus:

Sabyasachy Mistry’s research focuses on bioanalytical chemistry, pharmacokinetics, and regulatory science, particularly in drug discovery and development. His work involves the application of advanced techniques such as LC-MS/MS, ELISA, HPLC, and mass spectrometry to investigate drug interactions, solubility, and bioavailability. Mistry’s research also extends to the computational aspects of chemistry, using density functional theory (DFT) calculations to predict reaction profiles and optimize molecular interactions. A key area of interest for Mistry is studying the effects of drug formulations on biological systems, particularly through hERG assays to assess drug safety and efficacy. His work aligns with FDA regulations and contributes to improving drug regulatory processes. Additionally, Mistry has a strong background in organic chemistry, working on the synthesis and modification of small organic molecules. This combination of experimental and computational chemistry makes his research multifaceted, bridging the gap between scientific discovery and regulatory implementation.

Publications Top Notes:

  1. Determination of Lopinavir and Ritonavir in hERG solution to Support In Vitro hERG Block Potency Assessment Using LC-MS/MS: The Challenge of Poor Drug Solubility 📑
  2. Evaluation of a Sequential Antibiotic Treatment Regimen of Ampicillin, Ciprofloxacin, and Fosfomycin against Escherichia coli CFT073 in the Hollow Fiber Infection Model Compared with Simultaneous Combination Treatment 💊
  3. Determination of Five Positive Control Drugs in hERG External Solution (Buffer) by LC-MS/MS to Support In Vitro hERG Assay as Recommended by ICH S7B ⚖️
  4. Probing the Pyrolysis of Guaiacol and Dimethoxybenzenes Using Collision-Induced Dissociation Charge-Remote Fragmentation Mass Spectrometry 🔬
  5. Investigation of the Substituent Effects of the Azide Functional Group Using the Gas-Phase Acidities of 3- and 4-Azidophenols 📚
  6. Mass Spectrometric Detection of the Gibbs Reaction for Phenol Analysis 🔍
  7. Participation of C-H Protons in the Dissociation of a Proton Deficient Dipeptide 💡
  8. The HIVToolbox 2 Web System Integrates Sequence, Structure, Function and Mutation Analysis 🧬
  9. The Geogenomic Mutational Atlas of Pathogens (GoMAP) Web System 🌍
  10. Effect of Sodium Bicarbonate on the Mechanical and Degradation Properties of Short Jute Fiber Reinforced Polypropylene Composite by Extrusion Technique 🔧

Conclusion:

Sabyasachy Mistry has demonstrated exceptional scientific acumen and practical contributions in the field of bioanalytical chemistry. His expertise and leadership in various research domains position him as an excellent candidate for the Research for Best Researcher Award. His continued work on drug discovery and regulatory science will likely result in even greater contributions to both the scientific and regulatory communities.

 

 

 

Qasem Ramadan | Cell-Cell Communication | Best Researcher Award

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Assist. Prof. Dr. Qasem Ramadan | Cell-Cell Communication | Best Researcher Award

Assist. Prof. Dr. Qasem Ramadan , Alfaisal University , Saudi Arabia

Dr. Qasem Ramadan is a distinguished researcher and educator, currently serving as an Assistant Professor of Research at Alfaisal University, Riyadh, Saudi Arabia. With a strong academic background in biomedical engineering and a passion for advancing alternative technologies in health care, he has significantly contributed to the development of organ-on-a-chip systems. Dr. Ramadan’s work promotes the 3Rs (Replacement, Reduction, and Refinement) in biomedical research, aiming to replace animal testing with advanced microphysiological models. With fluency in Arabic, English, and intermediate proficiency in French, Malay, and Mandarin, he brings a global perspective to his research. He is known for his dedication to mentoring students, fostering a collaborative and innovative environment.

Publication Profile:

Google Scholar

Strengths for the Award

Dr. Qasem Ramadan is an exemplary candidate for the Best Researcher Award due to his extensive expertise in bio-medical engineering, specifically in the development of advanced in vitro models such as organs-on-a-chip. His research contributions are pioneering in areas such as pharmacokinetics, toxicology, and disease modeling. Dr. Ramadan’s dedication to reducing animal testing through the application of the 3Rs (Replacement, Reduction, and Refinement) principles reflects his commitment to ethical scientific practices. His leadership in multidisciplinary research, combined with his commitment to mentoring students and fostering academic excellence, has had a profound impact on both academic and industry settings. Dr. Ramadan’s track record of high-impact publications, notable patents, and prestigious awards further supports his suitability for the award.

Areas for Improvement

While Dr. Ramadan’s accomplishments are commendable, there is room for enhancing the global visibility of his work. Engaging more actively in high-visibility international conferences and collaborations could further amplify the reach of his research. Expanding cross-disciplinary partnerships could also unlock new applications in biotechnology and healthcare, promoting more impactful translational research.

Education:

Dr. Qasem Ramadan holds a Ph.D. in Bio-Medical Microsystems from Nanyang Technological University (2006), Singapore. His doctoral research focused on the development of magnetic micro-devices for the separation and manipulation of biological components, which forms the foundation for his ongoing work in microfluidics and biomedical technology. He also earned an MSc in Medical Physics from the University of Science in Malaysia in 1999, further enhancing his expertise in the application of physics to medicine. Dr. Ramadan completed his undergraduate studies in Physics at Yarmouk University, Jordan, in 1991. His multidisciplinary educational background has enabled him to bridge the gap between physics, engineering, and medicine, contributing to significant advancements in biomedical research, particularly in organ-on-a-chip technology and biosensors.

Experience:

Dr. Ramadan’s academic career spans over two decades, with extensive experience in both research and education. Currently an Assistant Professor of Research at Alfaisal University, he leads innovative projects in biomedical engineering, particularly focusing on microfluidics and lab-on-a-chip systems. Prior to this, he has worked on numerous groundbreaking projects in biomedical devices and systems, especially in the areas of biosensors, organ-on-a-chip technology, and magnetic bead-based applications. He has collaborated with a variety of international institutions, including Nanyang Technological University, where he completed his Ph.D. His experience in academia is complemented by his leadership in mentoring students and researchers, as well as his involvement in various international committees. Through his research and leadership, Dr. Ramadan has demonstrated a strong commitment to advancing biomedical technologies and improving healthcare applications, particularly in drug development, disease modeling, and toxicology.

Awards and Honors:

Dr. Qasem Ramadan has been recognized for his contributions to the field of biomedical engineering through numerous prestigious awards. He received the Alfaisal University Faculty Award for Research Excellence in 2024, underscoring his impact on the research community. In 2023, he was honored with the Outstanding Reviewer Award from the Royal Society of Chemistry for his work in the Journal of Lab-on-a-Chip. His early career was marked by the 1st Prize Research Award for his first-author publication at the Institute of Microelectronics, Singapore, in 2006. These awards reflect his exceptional contributions to advancing microfluidics and biomedical devices. Dr. Ramadan’s recognition also extends to his editorial work, with significant contributions to high-impact journals in the field. These honors highlight his continuous dedication to advancing biomedical research and his efforts to inspire innovation in both academic and industrial contexts.

Research Focus:

Dr. Qasem Ramadan’s research focuses on developing cutting-edge in vitro micro-physiological models for human organs, specifically organ-on-a-chip technology. His research interests include in vitro disease modeling, pharmacokinetics, toxicology, and the development of biosensors and medical devices. One of his key projects involves creating a micro-physiological model to explore the role of immune-metabolic interactions in insulin resistance and Type II diabetes. He is also pioneering advancements in creating immune-competent models of human skin to study chemical and skin sensitizers and their impact on immune activation. Dr. Ramadan’s work spans several areas, including magnetic bead-based applications, microfluidics, and the development of 3D bioprinting techniques for regenerative medicine. His research aims to replace animal testing with alternative technologies, promoting the principles of the 3Rs (Replacement, Reduction, Refinement). His work has significant implications for advancing drug discovery, personalized medicine, and disease modeling.

Publications Top Notes:

  1. An Integrated and Modular Compartmentalized Microfluidic System for Organs-on-a-Chip 🧬🔬
  2. Hepatic Spheroid-on-a-Chip for Drug Screening 💊🧫
  3. NIR-FRET Imaging of MMP-2 in ALI/ARDS 📸🩺
  4. Emerging Tools Shaping Drug Discovery & Development 🔧💉
  5. Biosensing Platform for Biomarkers in ALI/ARDS 🧪🩸
  6. Innovative Approaches in Drug Discovery 💡💊
  7. Detection of Exosomal miR210 Using Carbon Nanomaterial-Coated Magnetic Beads 🧬⚙️
  8. Immunity-on-a-Chip: Integration of Immune Components 🛡️🔬
  9. Pre-concentration and Detection of Colorectal Cancer Exosomes 🧬🦠
  10. In Vitro Micro-Physiological Immune-Competent Model of the Human Skin 🌱🧪

Conclusion

In conclusion, Dr. Qasem Ramadan’s extensive research in bio-medical microsystems, particularly his contributions to organ-on-a-chip technologies, his leadership in promoting ethical research alternatives, and his impressive academic and professional accomplishments make him a highly deserving candidate for the Best Researcher Award. His work continues to shape the future of biomedical research and healthcare technologies, and his dedication to advancing alternative methods in drug discovery and disease modeling is both innovative and invaluable.

Uwe Fischer | Cell Cycle Dynamics | Cell Proliferation Award

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Prof. Dr. Uwe Fischer | Cell Cycle Dynamics | Cell Proliferation Award

Prof. Dr. Uwe Fischer , Diagnostisches Brustzentrum Göttingen , Germany

Prof. Dr. med. Uwe Fischer is a renowned radiologist and professor, currently serving as the head of the Diagnostisches Brustzentrum Göttingen and the managing director of Diagnostik am Bahnhof GmbH. Born in 1958, he completed his studies in human medicine at the Georg-August-Universität Göttingen. With over four decades of experience in breast diagnostics, he is highly regarded for his contributions to the field of mammography and breast MRI. His work focuses on early detection and diagnosis of breast cancer, particularly in women with dense breasts. Prof. Fischer holds numerous leadership roles in scientific societies, including being an honorary member of the Spanish Society for Senology and chairing various committees on mammography. His contributions are widely published in high-impact journals, where his research has advanced imaging techniques and diagnostic accuracy.

Publication Profile:

Scopus

Strengths for the Award:

  • Innovative Research: Prof. Fischer’s research focuses on improving early breast cancer detection, particularly for women with dense breast tissue. His work in MRI and its role in diagnosing malignancies in dense breasts is groundbreaking.
  • Extensive Expertise: With a background in both academia and clinical practice, his deep understanding of radiology and breast cancer diagnosis is a key asset.
  • Leadership: His leadership roles, such as heading the Diagnostic Breast Center Göttingen, and his involvement in various mammography-related organizations, underline his influence in advancing breast cancer diagnostics.

Areas for Improvement:

  • Broader Cellular Proliferation Focus: Although Prof. Fischer’s work heavily focuses on imaging techniques, his direct contribution to cellular biology, particularly in terms of cell proliferation research, might not be as pronounced. Engaging more directly in cell proliferation studies could enhance his fit for this specific award.
  • Collaborations in Cellular Mechanisms: To strengthen his candidacy for the “Cell Proliferation” focus, further research into cellular mechanisms underlying tumor growth would align his work more closely with the core of this award.

Education:

Prof. Dr. med. Uwe Fischer began his academic journey at the Georg-August-Universität Göttingen, where he earned his medical degree from 1977 to 1983. After obtaining his Approbation, he worked as a scientific assistant in various departments of radiology, mammography, and lymphography at the same university. In 1985, he completed his dissertation on mammogram malignancy criteria. Fischer’s medical career expanded into radiology as he trained in the Clinic and Polyclinic for Radiation Therapy and X-ray Diagnostics at the university. In 1992, he received formal recognition as a specialist in radiology. Prof. Fischer completed his habilitation in 1998, focusing on dynamic MR mammography, further establishing his expertise in breast imaging. He was appointed as a professor in 2001 and has since led various academic and scientific initiatives. His broad education and ongoing research have made him a leader in breast diagnostics and medical imaging.

Experience:

Prof. Dr. med. Uwe Fischer has extensive experience in medical research and clinical practice. After completing his medical studies, he worked as a scientific assistant in multiple radiology departments at the Georg-August-Universität Göttingen, particularly focusing on mammography and lymphography. His career advanced significantly when he was appointed Oberarzt in 1993 in the radiology department, later becoming a professor and leading clinical radiology teams. Since 2003, Prof. Fischer has been the director of the Diagnostisches Brustzentrum Göttingen, where he has pioneered advancements in breast cancer diagnostics. He has held influential positions in various organizations, including chairing the “AG Mammadiagnostik” of the Deutsche Röntgengesellschaft and the “AIM Arbeitsgemeinschaft für Individuelle Mammadiagnostik.” Prof. Fischer’s leadership in research and clinical care, particularly in breast imaging, has earned him recognition both nationally and internationally, and his extensive expertise continues to shape the future of breast cancer diagnostics.

Research Focus:

Prof. Dr. med. Uwe Fischer’s research primarily focuses on improving breast cancer detection through advanced imaging techniques, particularly magnetic resonance imaging (MRI) and mammography. His work emphasizes early detection, especially for women with dense breasts, where traditional mammography can be less effective. Fischer has conducted numerous studies on the role of high-resolution MRI in detecting breast cancer in asymptomatic women and its supplementary use in categorizing microcalcifications. His innovative research has also explored the use of dynamic MR mammography for better tumor evaluation. Fischer’s work is not limited to MRI; he has made significant contributions to improving the diagnostic accuracy of cone-beam breast CT and digital mammography. He is deeply committed to refining breast imaging to enhance early diagnosis, reduce false positives, and guide more effective treatment strategies. His publications focus on refining imaging techniques and evaluating their effectiveness in clinical settings, particularly in challenging cases like dense breast tissue.

Publications Top Notes:

  1. The Value of Quality-Assured Magnetic Resonance Imaging of the Breast for the Early Detection of Breast Cancer in Asymptomatic Women 📊🩻
  2. Pure calcifications of category BIRADS 4 and 5 – Importance of supplementary quality-assured HR breast MRI 🧠🔬
  3. Tumor Size and Nodal Status of Invasive Breast Carcinomas in Women with Dense Breasts Depending on Previous Breast MRI 📏🔍
  4. High-Resolution-MRI of the Breast Including All Locoregional Lymph Nodes: All-In-One with Additional Use of a Body Coil on the Back (Sandwich Concept) 💡🧪
  5. Breast MRI – the champion in the millimeter league. MIO Breast MRI – the method of choice in women with dense breasts 🏆💪
  6. Use of contrast-enhanced mammography for diagnosis of breast cancer 📸🩻

Conclusion:

Prof. Fischer’s innovative contributions to the early detection of breast cancer and his leadership in breast imaging research position him as an excellent candidate for the Research for Cell Proliferation Award. With a bit more focus on cellular mechanisms, especially regarding proliferation in the context of cancer, his work could bridge the gap between advanced imaging and cellular biology, making his contributions even more impactful in the field.

Amin Majdalawieh | Cancer | Excellence in Research

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Prof. Amin Majdalawieh | Cancer | Excellence in Research

Prof. Amin Majdalawieh , American University of Sharjah , United Arab Emirates

Prof. Amin Majdalawieh is a distinguished academic and researcher, currently serving as the Head of the Department of Biology, Chemistry & Environmental Sciences at the American University of Sharjah (AUS), UAE. With over two decades of experience in academia, he has made significant contributions in the fields of biochemistry, molecular biology, and environmental sciences. He holds a Ph.D. in Biochemistry & Molecular Biology from Dalhousie University (Canada) and a Master’s in Microbiology & Immunology from McGill University (Canada). Prof. Majdalawieh is known for his expertise in cancer research, lipid metabolism, and the role of natural compounds in disease prevention. Throughout his career, he has secured numerous research grants and mentored many students. His interdisciplinary research has earned global recognition, being listed among the top 2% of researchers in 2021 by Stanford University.

Publication Profile:

Orcid

Strengths for the Award:

  1. Outstanding Academic Background:

    • Prof. Majdalawieh holds a PhD in Biochemistry and Molecular Biology from Dalhousie University, showcasing a solid foundation in his research field.
    • His academic journey from McGill University for his MSc to Dalhousie University for his PhD highlights his expertise in advanced scientific research.

  2. Research Output:

    • His research contributions span multiple high-impact areas such as cancer research, inflammation, atherosclerosis, and novel therapeutic approaches using natural compounds like thymoquinone, sesamol, and mangosteen.
    • He has several recent publications in reputable journals (e.g., Molecules, Biomolecules, European Journal of Pharmacology), demonstrating his commitment to advancing scientific knowledge.
    • His research work is recognized on a global level, including being named among the world’s top 2% of researchers in 2021 by Stanford University, a significant recognition of his contributions.

  3. Innovative Interdisciplinary Research:

    • Prof. Majdalawieh has been involved in a wide variety of research projects, including the sustainable synthesis of Metal-Organic Frameworks (MOFs) for COVID-19 detection, a topical and innovative area of research.
    • His interdisciplinary approach has led to novel findings and valuable applications, such as exploring plant-derived compounds with potential therapeutic benefits.

  4. Research Funding & Recognition:

    • He has received several prestigious research grants (e.g., Faculty Research Grant, Postdoctoral Fellowship Award) that demonstrate the competitiveness and value of his research.
    • He has been recognized with multiple awards, such as the Outstanding Interdisciplinary Research Award and the Teaching Excellence Award, which further validate his capabilities as an exceptional researcher and educator.

  5. Leadership in Research:

    • Prof. Majdalawieh holds the position of Head of Department (HOD) at the American University of Sharjah, where he leads and oversees the research initiatives within his department, fostering a strong research environment.

Areas for Improvement:

  1. Broader Public Engagement:

    • While Prof. Majdalawieh’s research is impactful within the scientific community, expanding efforts toward greater public outreach or engagement with non-academic stakeholders could further enhance the social relevance and impact of his work.
    • Active participation in science communication, outreach programs, and partnerships with industry stakeholders could broaden the visibility of his research.

  2. Collaborative Opportunities:

    • While Prof. Majdalawieh has collaborated on various interdisciplinary research projects, expanding collaborations with international institutions or multidisciplinary teams could provide additional opportunities for cutting-edge research and innovation.

  3. Focus on Translational Research:

    • Although his work has significant therapeutic potential, further emphasis on the translational aspect (from lab research to clinical applications) could accelerate the impact of his findings in healthcare and treatment.

Education:

Prof. Amin Majdalawieh holds a Ph.D. in Biochemistry & Molecular Biology from Dalhousie University, Halifax, Canada (2006), where his research focused on adipocyte enhancer-binding protein-1 (AEBP1) and its role in macrophage cholesterol homeostasis, inflammation, and atherosclerosis. He also earned a Master of Science (MSc) degree in Microbiology & Immunology from McGill University, Montreal, Canada (2002), where he worked on the isolation and characterization of Jurkat-derived signaling-deficient T cells. His education foundation was further enriched by various professional certificates, including University Teaching & Learning, Canadian Council of Animal Care, and Radiation Safety Training certifications. His strong academic foundation, coupled with his vast research experience, has significantly influenced his career in both teaching and scientific inquiry. Prof. Majdalawieh continues to be an active academic figure, shaping future generations of scientists through his innovative teaching and research initiatives.

Experience:

Prof. Amin Majdalawieh has a remarkable academic career spanning over 15 years at the American University of Sharjah (AUS). He is currently serving as the Head of the Department of Biology, Chemistry & Environmental Sciences. He has also been a Professor at AUS since 2017, teaching courses in biology, human anatomy, physiology, and molecular biology. Over the years, he has developed and taught several courses, including BIO 210 (Introduction to Human Anatomy & Physiology), BIO 310 (General Physiology), and BIO 332 (Cell Biology), contributing significantly to the department’s curriculum. Prof. Majdalawieh’s leadership as a department head has helped foster academic growth, enhance research collaborations, and promote interdisciplinary studies at AUS. Prior to his tenure at AUS, he gained valuable experience as a researcher and educator in Canada. His extensive teaching experience, coupled with his leadership role, highlights his commitment to advancing science and education in the UAE.

Awards and Honors:

Prof. Amin Majdalawieh has been recognized with numerous prestigious awards throughout his career. In 2024, he received the Outstanding Interdisciplinary Research Award from the College of Engineering at AUS for his innovative contributions to science. In 2011, he was a finalist for the Teaching Excellence Award at AUS, where he stood out among 160 faculty members. Prof. Majdalawieh’s research excellence has also earned him the 2007 Keystone Symposia Scholarship, valued at $1,200, as well as recognition among the world’s top 2% of researchers in 2021, in a study conducted by Professor John Ioannidis from Stanford University. These accolades reflect his outstanding contributions to both education and research, making him a prominent figure in his field. Prof. Majdalawieh continues to inspire students and colleagues alike with his dedication to advancing scientific knowledge and fostering excellence in education and research.

Research Focus:

Prof. Amin Majdalawieh’s research focuses on molecular biology, biochemistry, and cancer research, with a special emphasis on lipid metabolism, inflammation, and the therapeutic potential of natural compounds. His studies explore the mechanisms involved in atherosclerosis and cancer, particularly colorectal cancer and breast cancer. He investigates natural products like thymoquinone, mangosteen xanthones, and rosemary for their anti-inflammatory and anti-cancer properties. Additionally, he is interested in the sustainable synthesis of metal-organic frameworks (MOFs) for detecting viral infections like COVID-19. His interdisciplinary approach merges biochemistry, pharmacology, and nanotechnology, seeking new treatments for chronic diseases. Prof. Majdalawieh’s work has contributed to the development of innovative diagnostic tools and therapeutic strategies. He has been instrumental in securing research grants and collaborating with national and international researchers to tackle complex biological and environmental challenges. His research continues to impact multiple fields, with a particular focus on translational applications in medicine and public health.

Publications Top Notes:

  1. Anti-proliferative effects of Rosmarinus officinalis L. (Rosemary) against human breast and liver carcinoma cells 🧪🌿
  2. The role of lipids in atherosclerosis: focus on molecular biology mechanisms and therapeutic approaches 💡💉
  3. Sustainable synthesis of MOF for COVID-19 detection using a 23 factorial design 🧬🦠
  4. Molecular mechanisms and signaling pathways underlying the therapeutic potential of thymoquinone against colorectal cancer 🍃🔬
  5. α-Mangostin: A xanthone derivative in mangosteen with potent anti-cancer properties 🍊💥
  6. Sesamol: A lignan in sesame seeds with potent anti-inflammatory and immunomodulatory properties 🌱💊
  7. Impact of phytoconstituents on oral health practices: a post COVID-19 observation 🍃🦷
  8. Fabrication of SrTiO3 anchored rGO/g-C3N4 photocatalyst for the removal of mixed dye from wastewater 🌿💧
  9. Leprosy: Comprehensive insights into pathology, immunology, and cutting-edge treatment strategies 🦠💉
  10. High-sensitive detection and quantitation of thyroid-stimulating hormone (TSH) from whole-blood using fluorescence-based LFIA 🔬🩸

Conclusion:

Prof. Amin Majdalawieh is an exemplary candidate for the Research for Excellence in Research award. His robust academic background, extensive research contributions, and innovative interdisciplinary approaches highlight his strong credentials. He has made significant advancements in various scientific areas, with notable recognition from the global scientific community. Expanding his engagement with the broader public and focusing on translational research could further elevate his already impressive profile. Ultimately, Prof. Majdalawieh’s research record and leadership make him a highly deserving candidate for this prestigious award.

RAJU KUMAR SHARMA | Cell Adhesion Mechanisms | Best Researcher Award

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Dr. RAJU KUMAR SHARMA | Cell Adhesion Mechanisms | Best Researcher Award

Dr. RAJU KUMAR SHARMA , National Chung Cheng University , Taiwan

Dr. Raju Kumar Sharma is an Assistant Research Fellow at National Chung Cheng University, Taiwan, specializing in Chemistry and Biochemistry. Born on January 27, 1993, in India, he holds a Ph.D. from National Chung Cheng University, Taiwan (2019-2023), and an M.Sc. in Analytical Chemistry from National Institute of Technology, Warangal, India. With a strong academic foundation, Dr. Sharma’s research focuses on environmental nanotechnology, water purification, and the development of sustainable materials. His multidisciplinary research has led to over 20 publications in high-impact journals. Dr. Sharma is also actively engaged in several international research collaborations across Taiwan, India, the USA, Japan, and more. He contributes significantly to both academic advancements and practical solutions to environmental challenges. In addition to his research, he serves as a reviewer for reputed journals, showcasing his expertise and commitment to the scientific community.

Publication Profile:

Google Scholar

Strengths for the Award:

  1. Extensive Research Contributions: Dr. Sharma has made substantial contributions to the field of Chemistry and Biochemistry, with several high-impact publications in prestigious journals such as Separation and Purification Technology, Marine Pollution Bulletin, and Environmental Technology & Innovation. His papers consistently address crucial issues such as water purification, nanotechnology, and bioremediation, reflecting an innovative approach to solving pressing environmental challenges.

  2. Diverse and Collaborative Research: He has demonstrated remarkable versatility in his research, exploring a wide range of topics, including the development of biosynthetic nanoparticles, heavy metal remediation, and environmental health. His research is not only theoretical but also highly practical, contributing to the design of sustainable solutions for environmental protection. Additionally, he has collaborated with top-tier institutions worldwide, such as National Chung Cheng University, University of California Berkeley, University of Malaya, and more. These collaborations underline his global network and recognition in his field.

  3. Innovation and Application: Dr. Sharma’s work on biologically synthesized mesoporous silica nanoparticles (BMSN) and microbial-induced synthesis of nanoparticles exhibits cutting-edge innovation. His focus on eco-friendly, cost-effective, and sustainable materials for water treatment and the development of nanomaterials with diverse applications shows his potential to drive significant impact in both environmental and industrial sectors.

  4. Recognition and High Citation Count: His work has been widely recognized with numerous citations, indicating a broad impact on the academic community. For example, his publications in high-impact journals (Q1) and recent patents demonstrate that his research is not only academically rigorous but also highly relevant to industry applications.

  5. Leadership in Research: As an Assistant Research Fellow at National Chung Cheng University, he holds a leadership role in advancing scientific research. His participation as a reviewer for esteemed journals like Earth Systems and Environment and Chemosphere further illustrates his influence and expertise.

  6. Multilingual Skills: His proficiency in English and Hindi allows him to communicate effectively in a global research environment, enhancing his ability to collaborate internationally.

Areas for Improvement:

  1. Broader Outreach of Research: While Dr. Sharma has contributed significantly to various academic journals, there may be room for increasing public engagement and outreach related to his research. This could involve publishing in open-access platforms or conducting outreach activities to share his work with non-academic audiences, enhancing the social impact of his research.

  2. Further Strengthening Research Impact: While his publications are well-cited, there is potential to extend his research to address larger interdisciplinary themes, particularly in policy and regulatory arenas. Participating in or leading policy discussions and innovations could enhance the real-world impact of his work.

  3. Increased Focus on Interdisciplinary Integration: Dr. Sharma’s research could benefit from deeper integration with interdisciplinary fields such as environmental engineering, material science, or urban development. This might open more opportunities for innovative solutions in various sectors and increase cross-sectoral impact.

Education:

Dr. Raju Kumar Sharma earned his Ph.D. in Chemistry and Biochemistry from National Chung Cheng University, Taiwan (2019-2023), where he developed expertise in nanotechnology, environmental chemistry, and biochemistry. His doctoral work focused on the biosynthesis of mesoporous silica nanoparticles and their environmental applications, particularly in water treatment. Before that, Dr. Sharma completed his M.Sc. in Analytical Chemistry from the National Institute of Technology, Warangal, India (2015-2017), where he studied the analytical techniques used in environmental chemistry and materials science. He obtained his B.Sc. (Hons.) in Chemistry from the University of Delhi, India (2012-2015). His academic background in both chemistry and biochemistry has laid a strong foundation for his multidisciplinary research endeavors, allowing him to make substantial contributions to environmental sustainability and nanomaterials.

Experience:

Dr. Raju Kumar Sharma is currently an Assistant Research Fellow at National Chung Cheng University, Taiwan, where he conducts groundbreaking research in nanomaterials, water purification, and environmental chemistry. His research experience spans the biosynthesis of nanoparticles and their application in heavy metal removal, water defluoridation, and drug removal. Prior to his Ph.D., Dr. Sharma worked as a research assistant in various projects at the National Institute of Technology, Warangal, India, and collaborated on several international projects related to nanotechnology and environmental sustainability. His research collaborations span across renowned institutions such as National Taiwan University, University of California Berkeley, University of Southern Queensland, and University of Malaya, among others. Dr. Sharma has published over 20 papers in peer-reviewed journals, contributing significantly to scientific advancements in the areas of chemistry, nanomaterials, and environmental science.

Awards and Honors:

Dr. Raju Kumar Sharma has received several accolades and recognition for his excellence in research. His outstanding contributions to the field of chemistry and biochemistry, especially in environmental nanotechnology, have earned him significant honors. As an early career researcher, he has been involved in high-impact research projects across multiple countries and institutions. His work on biosynthesis of mesoporous silica nanoparticles, water purification technologies, and environmental remediation has been widely recognized in academic circles. Dr. Sharma is frequently invited to present his work at international conferences and symposia. He has also served as a reviewer for high-ranking journals such as Earth Systems and Environment and Ecotoxicology and Environmental Safety. His collaborations with institutions like National Chung Cheng University, University of California, and University of Southern Queensland have further established his reputation as an emerging leader in his field.

Research Focus:

Dr. Raju Kumar Sharma’s research primarily focuses on the intersection of nanotechnology and environmental science, specifically in the areas of water purification and environmental remediation. He is actively engaged in the synthesis and functionalization of mesoporous silica nanoparticles (BMSNs) for applications in heavy metal removal, drug removal from wastewater, and defluoridation of contaminated water. His work on the microbial synthesis of nanoparticles and their application in sustainable environmental practices has positioned him at the forefront of eco-friendly nanomaterial design. Dr. Sharma’s research also explores the use of natural and agricultural waste-based adsorbents for water treatment, focusing on cost-effective and sustainable solutions for pollution control. His investigations into bio-surfactants, biopolymers, and microbial-mediated processes are integral to the development of next-generation materials that can be utilized for environmental sustainability. Dr. Sharma’s contributions to environmental nanotechnology are highly impactful and hold promise for addressing global water contamination issues.

Publications Top Notes:

  1. Optimization and surface functionalization of biologically synthesized mesoporous silica nanoparticles to remove ASA drug from water: Sorption and regeneration study 🌊💊📉
  2. Evaluation and mitigation of potentially toxic elements contamination in mangrove ecosystem: Insights into phytoremediation and microbial perspective 🌱🦠🌊
  3. Cost-effective microbial induced ZnO synthesis for building material: Antibacterial, photocatalytic, and mechanical characteristics 🏗️🦠💡
  4. Taiwan’s mysterious mollusks: a deep dive into the cryptic hybridization of Pomacea canaliculata and Pomacea maculata 🐌🔬🌍
  5. Transformative and sustainable insights of agricultural waste-based adsorbents for water defluoridation: Biosorption dynamics, economic viability, and spent adsorbent management 🌾💧💸
  6. Advanced application of nano-technological and biological processes as well as mitigation options for arsenic removal 🧪🧫💧
  7. Microbial induced carbonate precipitation for remediation of heavy metals, ions, and radioactive elements: A comprehensive exploration 🦠🌍🛑
  8. A novel BMSN (biologically synthesized mesoporous silica nanoparticles) material: Synthesis using a bacteria-mediated biosurfactant and characterization 🦠⚗️🧪
  9. New aspects of lipopeptide-incorporated nanoparticle synthesis and recent advancements in biomedical and environmental sciences: A review 🧫🔬💡
  10. The role of bacterial exopolysaccharides (EPS) in the synthesis of antimicrobial silver nanomaterials: A state-of-the-art review 🦠💎🔬

Conclusion:

Dr. Raju Kumar Sharma is undoubtedly a strong candidate for the Best Researcher Award. His contributions to environmental chemistry, biochemistry, and nanotechnology are groundbreaking. His research not only addresses environmental challenges but also provides practical solutions for water remediation and pollution control. His international collaborations, high citation count, and innovative approach to sustainable solutions position him as a thought leader in his field. By focusing on increasing the broader impact of his work, he can further solidify his standing as an academic and practical expert in environmental sciences.

Peter du Plessis | Cancer Cell Biology | Best Researcher Award

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Mr. Peter du Plessis | Cancer Cell Biology | Best Researcher Award

Mr. Peter du Plessis , iThemba LABS , South Africa

Peter Clark du Plessis is an accomplished professional with a robust background in radiotherapy and oncology. His career spans over two decades, starting as a Radiation Therapist and Researcher at iThemba LABS since 2006. He is dedicated to both teaching and research, fostering critical thinking and academic growth among students. Apart from his academic contributions, Peter is passionate about mentoring and enjoys long walks and playing chess in his spare time. With a string of accolades, including Director’s Special Awards in 2012 and 2014, he consistently demonstrates excellence in his field. He is committed to inspiring the next generation of healthcare professionals through hands-on experience, leadership, and a deep passion for his profession.

Publication Profile:

Orcid

Strengths for the Award:

Peter Clark du Plessis exemplifies the qualities of a leading researcher in radiotherapy and oncology, making him highly suitable for the Best Researcher Award. His career spans over two decades, showcasing not only professional expertise but a commitment to advancing cancer treatment through research. Peter has a wealth of hands-on experience, holding key roles at iThemba LABS, where his research continues to shape the field of hypofractionated radiotherapy for breast and prostate cancers. His mentorship and dedication to teaching further highlight his influence on future healthcare professionals. Additionally, his accolades, including two Director’s Special Awards, demonstrate a history of excellence and recognition from peers in his field. Peter’s work also bridges research and practice, contributing significantly to improving radiotherapy techniques for cancer patients.

Areas for Improvement:

Although Peter’s achievements are commendable, his research could benefit from increased international collaborations to diversify research perspectives and data. Further partnerships with global research institutions could strengthen the practical impact of his findings, particularly in addressing diverse patient needs in different populations. Expanding his visibility in clinical trials and engaging with other healthcare sectors could further solidify his standing as a leader in oncology research.

Education (150 words):

Peter Clark du Plessis is currently pursuing a Doctorate in Radiography (DRRAD) at the Durban University of Technology, focusing on the hypofractionated radiotherapy for breast and prostate cancer (2022-2024). He holds a Master’s degree in Radiography from the Cape Peninsula University of Technology (2017-2018), with research on radiosensitivity variations in breast cancer cells. Peter earned his Bachelor of Technology in Radiography (cum laude) in 2010 and a National Diploma in Therapeutic Radiography in 1997, both from Cape Peninsula Technikon. Additionally, he began studying Computer Science at the University of the Western Cape but did not complete the degree. His academic journey highlights his passion for improving patient care and advancing cancer treatment techniques, including his research on proton beam therapies. Peter’s ongoing research aligns with his deep commitment to enhancing oncology practices through both theoretical and practical contributions.

Experience (150 words):

Peter has a comprehensive professional history, notably as a Radiation Therapist and Researcher at iThemba LABS since 2006. Here, he has been at the forefront of advancements in radiation therapy and oncology research. Prior to that, he held positions at the Provincial Hospital in Port Elizabeth as Chief Radiation Therapist (2006) and at King Abdul-Aziz Medical City as a Mould Room Technician and Radiation Therapist (2003-2005). His teaching experience is equally impressive, having served as a lecturer and moderator at Cape Peninsula University of Technology and North West University since 2019. He has contributed to health science research courses, specifically focusing on data analysis, publications, and radiation therapy practice. His multifaceted roles in both academic and clinical settings have honed his skills in education, research, and professional development. Peter’s work has had a significant impact on radiotherapy practices and student education, particularly in the field of cancer treatment.

Awards and Honors (150 words):

Peter Clark du Plessis has received multiple awards, demonstrating his dedication and excellence in the field of radiotherapy. Most notably, he was honored with two Director’s Special Awards at iThemba LABS in 2012 and 2014, recognizing his outstanding contributions to research and clinical advancements in radiation therapy. These accolades affirm his deep commitment to both research and the application of radiotherapy techniques, specifically in cancer treatment. His work in radiotherapy has helped bridge theoretical knowledge with real-world practice, particularly in advanced cancer therapies like proton beam treatments. Peter’s passion for the field and ability to integrate research with clinical practices has been acknowledged throughout his career, making him a key figure in advancing healthcare practices. His recognition reflects the impact of his research and teaching on future healthcare professionals in the radiation therapy domain.

Research Focus (150 words):

Peter Clark du Plessis focuses on exploring and advancing radiotherapy techniques, particularly in the context of hypofractionated radiotherapy for breast and prostate cancer. His research delves into the efficacy and molecular mechanisms of these treatments, especially using proton beam therapy. With a strong foundation in radiobiology, his work investigates the variation in radiosensitivity between different cancer and normal cell types, with a particular interest in breast cancer. Peter’s research aims to improve patient outcomes by refining radiotherapy protocols, making cancer treatment more effective and personalized. His contributions are significant in bridging the gap between laboratory research and clinical practices. Peter’s goal is to inspire new approaches in cancer care by combining in vitro studies with clinical observations. His ongoing work at iThemba LABS and various academic institutions positions him at the forefront of research into innovative radiotherapy solutions.

Publications (Titles with Emojis):

  • Exploring Hypofractionated Radiotherapy Efficacy in Prostate Cancer: In Vitro Insights 🧑‍🔬📚
  • In Vitro Perspective on Hypofractionated Radiotherapy in Breast Cancer 🧑‍🔬📚
  • Immunological Changes During Space Travel: A Ground-Based Evaluation of the Impact of Neutron Dose Rate on Plasma Cytokine Levels in Human Whole Blood Cultures 🌌💉
  • The Impact of Dose Rate on DNA Double-Strand Break Formation and Repair in Human Lymphocytes Exposed to Fast Neutron Irradiation 🧬⚛️

Conclusion:

Peter Clark du Plessis is a remarkable candidate for the Best Researcher Award due to his extensive experience, impressive body of research, and dedication to advancing radiotherapy practices. His work continues to impact the field of oncology positively, offering new insights into cancer treatment methodologies. With continued growth in research collaboration and global outreach, Peter is poised to further enhance his contributions to the field of radiotherapy.