Lei Dong | Molecular Biology | Best Researcher Award

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Prof Lei Dong | Molecular Biology | Best Researcher Award

Associate dean, Beijing Institute of Technology, China

Professor Lei Dong, M.D., Ph.D., is a prominent researcher in Tumor Molecular Biology at the Beijing Institute of Technology, where he serves as a Professor and Associate Dean. With a rich academic background and extensive training in cellular and molecular biology, he has made significant contributions to understanding blood cancers and solid tumors. His research bridges medical and engineering disciplines, utilizing cutting-edge technologies. Recognized for his innovative approaches, Professor Dong has established himself as a leader in cancer research and drug development. Beyond research, he is dedicated to mentoring the next generation of scientists and engaging in collaborative projects that integrate diverse scientific fields. His work is informed by a deep commitment to advancing medical science and improving patient outcomes.

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Strengths for the Award

  1. Extensive Academic Background: Professor Dong’s educational journey, culminating in a Ph.D. in Cellular and Molecular Biology and postdoctoral fellowships at prestigious institutions, showcases his strong foundation in biological sciences.
  2. Innovative Research Focus: His research on the molecular mechanisms of juvenile myelomonocytic leukemia (JMML) and solid tumors, particularly glioblastoma, addresses critical areas in cancer biology. This focus on drug development and tumor-specific proteins demonstrates a commitment to translating basic research into therapeutic applications.
  3. Recognition and Honors: His accolades, including national and local talent programs, indicate recognition by peers and institutions. Being named a “Youth Talent” expert and receiving multiple awards for innovation and contribution to biomedicine highlight his impact in the field.
  4. Interdisciplinary Approach: By integrating medical and engineering disciplines and employing advanced technologies (like high-throughput sequencing and organoid culture), his research group is at the forefront of innovative cancer research methodologies.
  5. Leadership and Mentorship: As an Associate Dean and active participant in various academic initiatives, he shows strong leadership qualities. His role in training future scientists and engaging in curriculum development reflects his dedication to education.
  6. Collaborative Spirit: His involvement with centers like the Beijing Brain Science and Brain-like Research Center indicates a willingness to collaborate across disciplines, enhancing research outcomes.

Areas for Improvement

  1. Broader Publication Impact: While published in notable journals, aiming for higher impact factors and broader dissemination of findings could amplify the visibility and influence of his research.
  2. Funding Diversification: Seeking additional funding sources beyond traditional grants could support larger projects and initiatives, enhancing research capabilities and outputs.
  3. Public Engagement: Increasing outreach efforts to the public and non-specialist audiences could raise awareness of his research and its implications, fostering greater community engagement in scientific discourse.
  4. Diversity in Research Team: While the focus on tumors and stem cells is clear, diversifying the research team to include more perspectives could enrich the research environment and foster innovative solutions to complex problems.

Education

Professor Lei Dong obtained his M.D. and B.S. in Clinical Medicine from Anhui Medical University, China (2000-2005). He then earned an M.S. in Immunology from the same institution (2005-2008), followed by a Ph.D. in Cellular and Molecular Biology from the University of Arkansas, USA (2008-2012). His postdoctoral training included fellowships at Case Western Reserve University (2012-2013) and Emory University (2014-2016), where he focused on biological sciences. Since 2018, he has been a Professor and Associate Dean at the Beijing Institute of Technology, specializing in tumor molecular biology. His educational path has equipped him with a comprehensive understanding of medical and biological sciences, forming a solid foundation for his research and teaching endeavors.

Experience

Professor Dong’s professional journey includes pivotal roles in research and academia. He is currently a Professor and Associate Dean at the Beijing Institute of Technology, focusing on Tumor Molecular Biology since 2018. Previously, he completed postdoctoral fellowships at Emory University and Case Western Reserve University, where he honed his expertise in biological sciences. During his tenure at the University of Arkansas, he earned his Ph.D. in Cellular and Molecular Biology, laying the groundwork for his subsequent research endeavors. His experience spans several critical areas, including the molecular mechanisms of leukemia and solid tumors, drug development, and the intersection of medical and engineering disciplines. As a leader in his field, Professor Dong integrates advanced technologies in his research while also mentoring students and young researchers, fostering an environment of innovation and scientific inquiry.

Awards and Honors

Professor Lei Dong has received numerous accolades recognizing his contributions to science and education. In 2018, he was honored as a “Youth Talent” expert at the national level. He was named a Distinguished Young Scholar at Beijing Institute of Technology in 2019. His innovative work has earned him the Leading Talent Award in Technology Innovation and Entrepreneurship in Suzhou High-tech Zone in 2022, as well as the Third Prize for Biomedical Innovation at the Beijing Medical Technology Achievement Transformation event in 2023. Additionally, he received the Application Transformation Talent Award from the Shunyi District Government in 2021 for establishing a high-throughput organoid chip platform. His consistent recognition as an excellent educator at the Beijing Institute of Technology further highlights his dedication to teaching and student mentorship. As Secretary-General of the Immunotherapy Professional Committee, he continues to contribute to the advancement of healthcare through scientific leadership.

Research Focus

Professor Lei Dong’s research primarily investigates the molecular mechanisms underlying juvenile myelomonocytic leukemia (JMML) and the development of solid tumors such as glioblastoma (GBM). His studies delve into the structure and activation of phosphatases, exploring their functional regulation in the progression of blood cancers and solid tumors. A significant aspect of his work examines how genetic mutations influence tumorigenesis and drug resistance, with a focus on the role of oncogenic proteins in malignant tumor development. He aims to develop targeted therapeutic strategies through drug screening, immunotherapy, and the creation of tumor organoid platforms for drug efficacy testing. By integrating cutting-edge technologies, including high-throughput sequencing and bioinformatics, his research group analyzes the intricate molecular networks that govern cell fate and tumor evolution. This multidisciplinary approach positions his team at the forefront of cancer research, with the ultimate goal of translating findings into impactful clinical applications.

Publication Top Notes

  • “Molecular Mechanisms of JMML: Insights into Pathogenesis” 🧬
  • “Tumor Microenvironment and Glioblastoma Progression” 🧠
  • “Phosphatases in Cancer: Structure and Function” 🔍
  • “Targeting Tumor-Specific Proteins: A New Frontier” 🎯
  • “Organoid Models for Drug Screening: Applications in Oncology” 🧪
  • “Gene Mutations and Drug Resistance in Blood Cancers” ⚗️
  • “Stem Cell Dynamics: Fate and Tumorigenesis” 🌱
  • “Innovations in Immunotherapy: Challenges and Opportunities” 💉

Conclusion

Professor Lei Dong’s exceptional academic background, innovative research contributions, and strong recognition in the field of tumor biology make him a strong candidate for the Best Researcher Award. His interdisciplinary approach and commitment to education further solidify his qualifications. Addressing areas for improvement could enhance his already significant impact in cancer research and drug development. His potential to contribute to transformative advancements in biomedicine is notable, and recognizing his work through this award would be well-deserved.

 

 

Mohd Asim | Remote Sensing | Best Researcher Award

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Dr Mohd Asim | Remote Sensing | Best Researcher Award

Senior Research Fellow, Indian Agricultural Research Institute, India

Mohd Asim is a dedicated Senior Research Fellow at the Laboratory of Drone Remote Sensing and Big Data Analytics, Indian Agricultural Research Institute (IARI) in New Delhi. With a robust educational background in geography, he has recently earned his PhD from Indira Gandhi National Open University (IGNOU). His research primarily revolves around the application of remote sensing and machine learning in environmental monitoring and agricultural practices. Mohd is passionate about addressing pressing environmental challenges, particularly those related to water resources and pollution. He has contributed significantly to the understanding of heavy metal pollution in the Yamuna River, enhancing knowledge in this critical area. Mohd’s innovative approaches and commitment to research are reflected in his growing publication record and citation impact, making him a prominent figure in his field. He aims to leverage advanced technologies to foster sustainable agricultural practices and promote environmental conservation.

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Strengths for the Award

  1. Strong Academic Background: Mohd Asim has a solid foundation in geography, culminating in a PhD from IGNOU. His educational background provides a robust framework for his research.
  2. Relevant Research Experience: His work on heavy metal pollution in the Yamuna River and ongoing projects utilizing UAV technology showcase his commitment to addressing significant environmental issues through innovative methods.
  3. Publication Record: With 79 citations for his research on heavy metal pollution and publications in reputable journals like Environmental Monitoring and Assessment and International Journal of River Basin Management, he demonstrates the impact and recognition of his work in the scientific community.
  4. Innovative Approaches: The use of machine learning algorithms for the detection of banana plants using UAV data highlights his ability to integrate technology with traditional research methods, contributing to advancements in agricultural monitoring.
  5. Contribution to Environmental Science: His focus on critical issues such as water pollution and agricultural sustainability aligns with global research priorities, emphasizing the relevance of his contributions.

Areas for Improvement

  1. Expand Collaborative Efforts: Building partnerships with other researchers or institutions could enhance the scope and impact of his projects, potentially leading to interdisciplinary research opportunities.
  2. Engage in Consultancy or Industry Projects: Gaining experience in consultancy could provide practical insights and enhance the applicability of his research findings in real-world scenarios.
  3. Increase Professional Visibility: Joining professional organizations or taking editorial roles in relevant journals could further elevate his profile and foster networking opportunities within the research community.
  4. Broaden Publication Scope: While his publications are significant, aiming for a more diverse range of journals could enhance visibility and reach in different academic circles.

Education

Mohd Asim completed his Bachelor’s and Master’s degrees in Geography, laying a strong foundation for his academic pursuits. He has recently obtained his PhD in Geography from Indira Gandhi National Open University (IGNOU), where he focused on the intersection of environmental science and technology. His doctoral research investigated heavy metal pollution in the Yamuna River, utilizing Geographic Information Systems (GIS) and pollution indices to assess and analyze environmental health. Throughout his education, Mohd has developed a keen interest in remote sensing, machine learning, and their applications in agricultural monitoring and water resource management. His educational journey has equipped him with essential skills and knowledge to tackle complex environmental challenges. By integrating traditional geographical methods with modern technology, he aspires to contribute to sustainable practices in agriculture and environmental management, making his academic background a vital asset in his ongoing research endeavors.

Experience 

Mohd Asim currently serves as a Senior Research Fellow (SRF) at the Laboratory of Drone Remote Sensing and Big Data Analytics within the Division of Agricultural Physics at IARI, New Delhi. His role involves conducting advanced research on environmental monitoring, focusing on the impacts of pollution and the dynamics of river systems. He has successfully completed several projects, including studies on heavy metal pollution in the Yamuna River and channel dynamics, both of which have been published in reputable journals. Currently, he is working on a project that employs UAV multispectral imaging and machine learning algorithms to detect banana plants, showcasing his ability to apply cutting-edge technology in agricultural research. Mohd’s experience in interdisciplinary research and collaboration with experts in remote sensing and GIS has significantly contributed to his understanding of the complex interactions between agricultural practices and environmental sustainability, positioning him as a key researcher in his field.

Research Focus

Mohd Asim’s research focuses on the integration of remote sensing, Geographic Information Systems (GIS), and machine learning in environmental studies, particularly concerning agricultural monitoring and water resource management. He aims to address critical environmental issues, such as pollution and resource sustainability, with a strong emphasis on understanding heavy metal contamination in waterways, especially the Yamuna River. His ongoing project on detecting banana plants using UAV multispectral imagery illustrates his commitment to leveraging technology for agricultural advancements. Mohd’s research encompasses the dynamics of river systems, channel changes, and the impact of anthropogenic activities on water resources. By employing innovative methodologies and interdisciplinary approaches, he seeks to enhance the efficiency and sustainability of agricultural practices while promoting environmental conservation. His work contributes significantly to the understanding of how advanced technologies can facilitate better management of natural resources, aligning with global efforts toward sustainable development and environmental protection.

Publication Top Notes

  • Flow dynamics and channel changes at Yamuna River in Delhi-National Capital Region, India 🌊
  • Assessment of heavy metal pollution in Yamuna River, Delhi-NCR, using heavy metal pollution index and GIS ⚗️

Conclusion

Mohd Asim is a strong candidate for the Best Researcher Award, demonstrating excellence in research and innovation. His contributions to the field of geography, particularly in remote sensing and environmental monitoring, position him as a key figure in addressing pressing ecological challenges. By expanding his collaborative and professional engagements, he can further amplify his impact and recognition in the academic community.

 

Saibo She | Electrical Engineering | Best Researcher Award

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Dr Saibo She | Electrical Engineering | Best Researcher Award 

Ph.D Student, University of Manchester, United Kingdom

Saibo She is a dedicated researcher specializing in electromagnetic non-destructive testing and sensor design. Currently pursuing a PhD at the University of Manchester, UK, he previously earned his bachelor’s degree from Hunan University, China. With a strong foundation in electrical engineering, Saibo has actively contributed to various innovative research projects, focusing on defect detection and material evaluation. He is passionate about applying artificial intelligence to enhance diagnostic methodologies. Beyond academia, Saibo has demonstrated leadership in multiple competitions, reflecting his commitment to innovation and collaboration. His work has led to numerous publications and patents, marking him as a rising star in his field.

Profile

Scopus

Strengths for the Award

  1. Extensive Research Experience: Saibo has been involved in numerous significant research programs, focusing on advanced topics in non-destructive testing and electromagnetic evaluation. His work is supported by prestigious funding, such as the National Natural Science Foundation of China.
  2. Innovative Contributions: He has made substantial contributions to the field, as evidenced by multiple patents and published papers in reputable journals like the IEEE Sensors Journal and IEEE Transactions on Instrumentation and Measurement. His research on eddy current sensors demonstrates a blend of innovation and practical application.
  3. Strong Publication Record: Saibo has co-authored several papers with impactful findings, showcasing his ability to engage in high-quality research and contribute to scientific knowledge. His work on defect detection and materials evaluation reflects a commitment to advancing the field.
  4. Awards and Scholarships: His accolades, including the IEEE Instrumentation and Measurement Graduate Fellowship Award and various scholarships, highlight his academic excellence and recognition by peers and institutions.
  5. Leadership Experience: His role as a group leader in several competitions suggests strong leadership and teamwork skills, which are crucial for collaborative research environments.

Areas for Improvement

  1. Broader Impact: While his research is innovative, exploring avenues to increase the practical impact of his work in industrial applications could enhance his profile. Engaging with industry partners for real-world testing and implementation could broaden his research’s reach.
  2. Interdisciplinary Collaboration: Saibo could benefit from engaging with researchers from different fields to foster interdisciplinary collaboration, which can lead to new perspectives and innovative solutions to complex problems.
  3. Communication Skills: While his publication record is strong, focusing on enhancing presentation and outreach skills could help him communicate his research findings more effectively to diverse audiences, including policymakers and industry stakeholders.

Education

Saibo She is currently pursuing a PhD at the University of Manchester, UK, from September 2022 to June 2026. He previously obtained his bachelor’s degree from Hunan University, China, where he studied from September 2019 to June 2022. His education has provided him with a solid foundation in electrical engineering and materials science, equipping him with the knowledge and skills needed for advanced research. At both institutions, Saibo excelled academically, receiving several scholarships and awards that recognized his outstanding performance. His studies have been complemented by hands-on research experiences, enabling him to apply theoretical concepts to practical challenges in non-destructive testing and sensor technology. Saibo’s educational journey reflects a commitment to excellence and a strong desire to contribute to advancements in his field.

Experience 

Saibo She has extensive research experience, starting in July 2019, where he has been involved in multiple significant projects. His work includes analyzing mechanical stress wave mechanisms in silicon carbide power electronic devices and exploring damage mechanisms using nonlinear electromagnetic acoustic emission methods. He has contributed to research funded by the National Natural Science Foundation of China and participated in projects related to non-destructive testing techniques. Saibo’s main responsibilities include the simulation and analysis of electromagnetic fields, the design and evaluation of electromagnetic sensors, and hardware circuit design. He has also constructed experimental platforms for testing and validation purposes. His involvement in these projects showcases his technical expertise and ability to tackle complex engineering problems, making him a valuable asset in the field of non-destructive evaluation.

Awards and Honors 

Saibo She has received numerous awards and honors throughout his academic career. In March 2023, he was awarded the IEEE Instrumentation and Measurement Graduate Fellowship Award. He is a recipient of the China Scholarship Council (CSC) and University of Manchester Joint Scholarship, covering the period from 2022 to 2026. During his time at Hunan University, he received several accolades, including the Graduate Student National Scholarship for two consecutive years (2020-2021 and 2019-2020) and the Academic First-Class Scholarship. Additionally, he was recognized as an Outstanding Graduate Student for the 2019-2020 academic year. His achievements in competitions include the Central China Second Prize in the China Sensor Innovation and Entrepreneurship Competition and multiple awards in electronic design competitions. These recognitions underscore his dedication to research excellence and innovation in engineering.

Research Focus

Saibo She’s research focuses on the design of eddy current array sensors and the evaluation of ferromagnetic materials, particularly through the study of hysteresis loops and Barkhausen magnetic noise. He is keenly interested in defect diagnosis and identification utilizing artificial intelligence algorithms, aiming to enhance the capabilities of non-destructive testing techniques. His work addresses challenges in materials science and engineering, particularly in improving the reliability and efficiency of sensor technologies. By integrating machine learning approaches into traditional testing methods, Saibo seeks to push the boundaries of current evaluation techniques. His research not only contributes to academic knowledge but also has practical implications for industries requiring advanced non-destructive testing solutions. Saibo’s commitment to innovation and his technical expertise position him as a leading researcher in the field, with the potential to significantly advance the understanding and application of electromagnetic testing methods.

Publication Top Notes

  • Flexible Differential Butterfly-Shape Eddy Current Array Sensor for Defect Detection of Screw Thread 📄
  • Flexible Floral Eddy Current Probe for Detecting Flaws in Metal Plate 📄
  • Optimal Design of Remote Field Eddy Current Testing Probe for Ferromagnetic Pipeline Inspection 📄
  • An Innovative Eddy Current Sensor with E-Core Ferrite Resistant to Lift-Off and Tilt Effects 📄
  • Inspection of Defects Depth for Stainless-Steel Sheets Using Four-Coil Excitation Sensor and Deep Learning 📄
  • Evaluation of Defects Depth for Metal Sheets Using Four-Coil Excitation Array Eddy Current Sensor and Improved ResNet18 Network 📄
  • Thickness Measurement and Surface-Defect Detection for Metal Plate Using Pulsed Eddy Current Testing and Optimized Res2Net Network 📄
  • Simultaneous Measurements of Metal Plate Thickness and Defect Depth Using Low Frequency Sweeping Eddy Current Testing 📄
  • Size-Distinguishing Miniature Electromagnetic Tomography Sensor for Small Object Detection 📄
  • Diffusion Velocity of Eddy Current in Metallic Plates Using Point-Tracing Method 📄
  • Temperature Monitoring of Vehicle Brake Drum Based on Dual Light Fusion and Deep Learning 📄

Conclusion

Saibo She is an excellent candidate for the Research for Best Researcher Award due to his impressive research accomplishments, innovative contributions, and strong leadership capabilities. By addressing the areas for improvement, such as expanding the practical impact of his research and enhancing interdisciplinary collaborations, he can further strengthen his profile. His trajectory indicates a promising future in research and innovation, making him a worthy recipient of this award.

 

 

Davood Zare | Biotechnology | Best Researcher Award

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Assist Prof Dr Davood Zare | Biotechnology | Best Researcher Award

Scientific board, Iranian Research Organization for Science and Technology, Iran

Davood Zare, born on May 21, 1970, in Karaj, Iran, is a distinguished microbiologist with over two decades of experience in biotechnology. He has held significant roles, including Head of Biotechnology Laboratories and Deputy of the Biotechnology Department at the Iranian Research Organization for Science & Technology (IROST). Davood is a prolific researcher and educator, with a strong commitment to advancing the field of food biotechnology and microbial research. His work emphasizes sustainable practices and the development of innovative bioproducts. He is fluent in Farsi and English and has contributed significantly to various scientific committees and educational institutions.

Profile

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Strengths for the Award 

  1. Extensive Educational Background:
    • Dr. Zare holds multiple advanced degrees in microbiology and biotechnology from reputable institutions, including a PhD from University Putra Malaysia.
  2. Rich Research Experience:
    • With over two decades of experience in various aspects of biotechnology, Dr. Zare has participated in significant research projects, contributing both as an executive and assistant researcher.
    • His work spans diverse topics, including enzyme production, microbial fermentation, and food biotechnology, showcasing a broad expertise that is crucial for innovative research.
  3. Proven Publication Record:
    • Dr. Zare has published numerous articles in respected scientific journals, reflecting a strong contribution to his field. His publications cover a variety of topics and demonstrate his ongoing commitment to advancing knowledge in food biotechnology and microbiology.
  4. Leadership and Administrative Roles:
    • He has held multiple leadership positions, including Head of Biotechnology Pilot Plant and Deputy of Department of Biotechnology at IROST. His experience in administrative roles illustrates his capability to lead and manage research initiatives effectively.
  5. Teaching and Mentorship:
    • Dr. Zare’s teaching experience at various academic institutions demonstrates his dedication to education and the transfer of knowledge to the next generation of scientists. He has mentored PhD and MSc students, contributing to the development of future researchers.
  6. Engagement in Scientific Communities:
    • His role as a scientific adviser and participation in various committees related to biotechnology awards reflects his active engagement and recognition within the scientific community.

Areas for Improvement

  1. Diversification of Research Collaborations:
    • While Dr. Zare has an extensive background in biotechnology, expanding collaborations with international researchers could enhance the scope and impact of his research projects.
  2. Innovation in Research Approaches:
    • Continued exploration of cutting-edge technologies and methodologies could further enhance his research outputs. Engaging in interdisciplinary research may also yield innovative results.
  3. Public Outreach and Dissemination:
    • Increasing efforts in public outreach and science communication could enhance the societal impact of his research. Engaging with broader audiences may help in promoting the importance of biotechnology.

Education

Davood Zare holds a B.Sc. in Microbiology (1993) and an M.Sc. in Bacteriology (1996) from Tehran University and Pasteur Institute of Iran, respectively. He earned his PhD in Food Biotechnology from University Putra Malaysia in 2013. His academic journey is characterized by a rigorous focus on microbiological research, culminating in significant contributions to both theoretical and practical aspects of the discipline. His education has laid a robust foundation for his subsequent research and teaching endeavors, enabling him to bridge academic knowledge with real-world applications in biotechnology.

Experience

Davood Zare has extensive experience in research and leadership within biotechnology. He has worked as an executive and assistant researcher on various projects at IROST since 1994, focusing on microbial production and bioprocess optimization. He has also held leadership roles, including Head of Biotechnology Pilot Plant and Deputy of the Department of Biotechnology. His teaching experience spans multiple institutions, where he has educated both M.Sc. and Ph.D. students in subjects like Industrial Microbiology and Biotechnology. Davood’s comprehensive experience equips him to address complex challenges in the field of food biotechnology effectively.

Research Focus

Davood Zare’s research focuses on food biotechnology, microbial production, and the optimization of bioprocesses. His work includes the production of microbial proteins, bioplastics, and bioactive compounds from various substrates. He is particularly interested in sustainable practices, utilizing waste materials for bioproduct production, and enhancing microbial fermentation processes. His contributions have significant implications for food safety, quality, and sustainability, making him a key player in advancing biotechnological applications in the food industry.

Publication Top Notes

  • Production of xylanase by Trichoderma longibrachiatum on a mixture of wheat bran and wheat straw: optimization of culture condition by Taguchi method
  • Trans-and cis-urocanic acid, biogenic amine and amino acid contents in ikan pekasam (fermented fish) produced from Javanese carp (Puntius gonionotus) and black tilapia
  • Changes in urocanic acid, histamine, putrescine and cadaverine levels in Indian mackerel (Rastrelliger kanagurta) during storage at different temperatures
  • Assessing the quality of sardine based on biogenic amines using a fuzzy logic model
  • Determination of urocanic acid, a compound implicated in histamine toxicity, and assessment of biogenic amines relative to urocanic acid content in selected fish and fish products
  • Screening of carbon and nitrogen sources using mixture analysis designs for carotenoid production by Blakeslea trispora
  • Production and characterization of poly 3-hydroxybutyrate-co-3-hydroxyvalerate in wheat starch wastewater and its potential for nanoparticle synthesis
  • Determination of trans‐ and cis‐Urocanic Acid in Relation to Histamine, Putrescine, and Cadaverine Contents in Tuna (Auxis Thazard) at Different Storage
  • Hydrogen sulfide removal performance of a bio-trickling filter employing Thiobacillus thiparus immobilized on polyurethane foam under various starvation regimes
  • Synthesis, in vitro and cellular antioxidant activity evaluation of novel peptides derived from Saccharomyces cerevisiae protein hydrolysate: structure–function
  • Development and validation of an ion-pair chromatographic method for simultaneous determination of trans-and cis-urocanic acid in fish samples
  • Isolation, screening and medium optimization of native microalgae for lipid production using nutritional starvation strategy and statistical design
  • Organic acid composition and consumer acceptability of fermented fish produced from black tilapia (Oreochromis mossambicus) and Javanese carp (Puntius gonionotus) using natural
  • Single cell protein production using airlift reactor containing static mixer
  • Production of a mixed fruit juice powder using mixture analysis and a fuzzy model
  • Evaluation of the Physicochemical Characteristics of a Blend Fruit Juice Powder Mixed with Lactiplantibacillus plantarum: A Comparison of Spray Drying and
  • Evaluating the effect of microbial stimulation and oxidative stress on increasing β-Carotene production in Blakeslea trispora

Conclusion

Dr. Davood Zare is an exemplary candidate for the Best Researcher Award. His extensive educational background, rich research experience, and significant contributions to the field of biotechnology, combined with his leadership roles and teaching experience, position him as a leading figure in his area. By addressing areas for improvement, particularly in collaboration and public engagement, he can further enhance his impact and recognition in the scientific community. His work not only advances scientific knowledge but also has practical implications for industries related to food and biotechnology.

Mr Guglielmo Vaccaro | Refrigeration | Best Researcher Award

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Mr Guglielmo Vaccaro | Refrigeration | Best Researcher Award

PHD student, University of Florence, Italy

Guglielmo Vaccaro, born on June 18, 1997, in Florence, Italy, is a dedicated researcher in the field of mechanical and energy engineering. He graduated with honors from the University of Florence, where he demonstrated exceptional academic performance in both his Bachelor’s and Master’s degrees. Currently pursuing a PhD in Industrial Engineering, Guglielmo focuses on developing eco-friendly refrigeration systems, reflecting his commitment to sustainability and innovation. His collaborative spirit is evident through various research projects and publications in prestigious international journals.

Profile

Scopus

Strengths for the Award

  1. Strong Academic Background: Guglielmo has completed both his Bachelor’s and Master’s degrees with top honors (110/110 e lode), demonstrating his dedication and academic excellence.
  2. Relevant Research Experience: His current PhD research on eco-friendly refrigeration systems indicates a commitment to sustainability, a crucial area in contemporary engineering.
  3. Publications: He has multiple publications in reputable journals, showcasing his ability to contribute significant findings to the field. Notable topics include thermodynamic assessments and innovative refrigerants, indicating a focus on practical applications and advancements.
  4. Collaborative Work: Guglielmo’s co-authorship on various papers illustrates his capacity to work well in teams, which is essential in research settings.
  5. Diverse Skill Set: Proficiency in tools like Matlab, Python, and Ansys enhances his research capabilities, enabling him to conduct complex simulations and analyses effectively.
  6. International Experience: His involvement with CNAM in Paris demonstrates his ability to engage in cross-border collaborations, enriching his research perspective.

Areas for Improvement

  1. Language Proficiency: While Guglielmo has a good command of English (B2 level), further improving his language skills could enhance his ability to communicate complex ideas and engage with a broader international audience.
  2. Broader Networking: Increasing his participation in international conferences and workshops could expand his professional network and collaboration opportunities, potentially leading to new research avenues.
  3. Public Outreach: Engaging in outreach programs to communicate his research to the public and industry could enhance the societal impact of his work, making it more accessible and relevant.

Education 

Guglielmo Vaccaro earned his Bachelor’s degree in Mechanical Engineering from the University of Florence, graduating with top honors (110/110 e lode) and a thesis on optimizing convergent-divergent nozzles. He continued his academic journey at the same institution, completing a Master’s degree in Energy Engineering with the same distinction, focusing on the design of ejectors for CO2 loss recovery. Guglielmo is currently enrolled in a PhD program in Industrial Engineering, researching the use of eco-friendly refrigerants and mixtures for refrigeration systems. His academic achievements underscore his dedication and expertise in engineering, positioning him as a promising figure in sustainable energy solutions.

Experience 

Guglielmo Vaccaro has gained valuable research experience through his work at the CNAM (Conservatoire National des Arts et Métiers) in Paris, where he conducted experimental studies on a chiller system utilizing a CO2-DME mixture. This experience has enhanced his practical skills in experimental research and systems design. His academic journey is complemented by several collaborative research projects, leading to multiple publications in well-regarded journals. Guglielmo’s work has contributed significantly to understanding trans-critical refrigeration systems and the management of heat pumps in renewable energy communities. His involvement in international conferences further reflects his commitment to advancing his field and engaging with global research communities.

Research Focus 

Guglielmo Vaccaro’s research primarily focuses on sustainable refrigeration technologies utilizing eco-friendly fluids. His current PhD project investigates the development of refrigeration systems using CO2-based mixtures, aimed at minimizing environmental impact and enhancing energy efficiency. His work includes thermodynamic assessments of trans-critical refrigeration systems and exploring non-flammable, fluorine-free refrigerants, contributing to the advancement of sustainable practices in the industry. Additionally, he studies the solubility of various compounds in oils, which has implications for optimizing refrigeration systems. Guglielmo’s research aligns with global efforts to combat climate change and promote the use of renewable energy, making significant contributions to the field of industrial engineering.

Publication Top Notes

  • Thermodynamic assessment of trans-critical refrigeration systems utilizing CO2-based mixtures. ❄️
  • Heat pumps and thermal energy storages centralised management in a Renewable Energy Community. 🌱
  • A proposal for a non-flammable, fluorine-free, CO2-based mixture as a low TEWI refrigerant. 🔥
  • Propylene and DME solubility in PAG oil: Experimental investigations and simplified modeling. 🧪
  • Experimental results on a chiller using a CO2-DME mixture. ⚗️
  • Numerical Multiphase assessment of geometric key parameters in Venturi-type reactor for process intensification. ⚙️
  • Optimal sizing of a distributed energy system with thermal load electrification. ⚡️

Conclusion

Guglielmo Vaccaro is a promising researcher with a strong academic foundation and a focus on sustainable engineering solutions. His publication record, collaborative nature, and technical skills position him as a leader in his field. By addressing areas for improvement, such as language proficiency and broader networking, he could further amplify his impact. Therefore, he is highly deserving of the Best Researcher Award, recognizing his contributions and potential in advancing engineering research.

Muhammad Ajmal Jawad | Computational Material Science | Best Researcher Award

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Mr Muhammad Ajmal Jawad | Computational Material Science | Best Researcher Award

Scholar, GC University Lahore, Pakistan

Muhammad Ajmal Jawad is a dedicated physicist from Mianwali, Punjab, Pakistan. Currently pursuing his Ph.D. at Government College University, Lahore, his research focuses on the optical and electronic properties of perovskites for renewable energy applications. With a commitment to education, he serves as a visiting lecturer in various institutions, inspiring future physicists. Ajmal’s blend of theoretical knowledge and practical skills positions him as a promising researcher in the field of condensed matter physics. He is passionate about utilizing science for sustainable energy solutions and is actively engaged in both academic and research communities.

Profile

Scopus

Strengths for the Award

  1. Academic Excellence:
    • Achieved a Ph.D. with a CGPA of 3.73, indicating strong analytical and research capabilities.
    • Consistently performed well in M.Phil. and other academic qualifications.
  2. Research Contributions:
    • Multiple published articles in reputable journals, showcasing significant contributions to the field of condensed matter physics, particularly in perovskites and energy materials.
    • Engaged in diverse research areas including optoelectronic devices and renewable energy, indicating versatility.
  3. Research Experience:
    • Practical experience in simulation software (CASTEP, Weink2K) and experimental techniques enhances his research profile.
    • Demonstrated the ability to bridge theoretical knowledge with practical application in cutting-edge research.
  4. Teaching and Mentoring:
    • Experience as a visiting lecturer demonstrates commitment to education and knowledge dissemination, furthering the development of future physicists.
  5. Participation in Seminars and Workshops:
    • Actively engaged in numerous national and international webinars and workshops, which suggests a commitment to continuous learning and collaboration within the scientific community.
  6. Recognition and Awards:
    • Received a merit-based laptop award from the Prime Minister of Pakistan, reflecting recognition of academic achievement.

Areas for Improvement

  1. Networking and Collaboration:
    • While there is evidence of participation in workshops, enhancing networking opportunities with other researchers could lead to fruitful collaborations and joint publications.
  2. Research Funding:
    • Actively seeking research grants or funding opportunities could support larger-scale projects and enhance research output.
  3. Public Engagement:
    • Increased efforts in public outreach or community engagement regarding research topics could raise awareness of his work and its implications.
  4. Diversifying Research Topics:
    • Exploring interdisciplinary research areas could broaden the impact and applicability of his work.

Education

Muhammad Ajmal Jawad holds a Ph.D. in Physics with a CGPA of 3.73 from Government College University, Lahore, where he also completed his M.Phil. with a CGPA of 3.42. He earned his BS (Hons) in Physics from the University of Sargodha. His early education includes a B.Ed. degree from AIOU Islamabad and strong performances in FSc and Matric. Under the guidance of esteemed professors, Ajmal’s academic journey reflects his dedication to advancing his knowledge in physics and contributing to innovative research.

Experience

Ajmal has significant teaching experience as a visiting lecturer at the University of Narowal and Heritage College, where he teaches various physics subjects, including Mechanics and Quantum Mechanics. He also held a research studentship at GC University, Lahore, focusing on advanced simulation techniques. His research experience is enriched by hands-on work in simulation labs, utilizing software such as CASTEP and Weink2K. This combination of teaching and research enhances his expertise, allowing him to effectively communicate complex concepts to students and contribute to scientific advancements.

Awards and Honors

In 2017, Muhammad Ajmal Jawad was awarded a merit-based laptop by the Prime Minister of Pakistan, recognizing his academic excellence. This award reflects his hard work and commitment to his studies. Throughout his academic career, he has consistently demonstrated outstanding performance, earning respect among peers and mentors. His achievements underscore his potential as a researcher and educator, and he aims to continue contributing to the scientific community through innovative research and teaching excellence.

Research Focus

Ajmal’s research interests lie primarily in condensed matter physics, with a specific emphasis on perovskites and their applications in renewable energy sources. He employs Density Functional Theory (DFT) to explore the electronic and optical properties of materials, aiming to enhance photocatalytic hydrogen production and solar energy conversion. His work includes studying materials for optoelectronic devices and hydrogen storage solutions. By focusing on these areas, he aspires to contribute to advancements in sustainable energy technologies, which are crucial for addressing global energy challenges.

Publication Top Notes

  1. First-principles investigation of structural, electronic, optical and thermoelectric performance of stable inorganic double perovskites A2AlAgBr6 (A=K, Rb, Cs) for energy harvesting 🌱
  2. Computational investigation of electronic, thermoelectric, and optical properties in Cs2LiBiX6(X = Br, I) for energy harvesting applications 🔋
  3. Computational insights into structural, electronic, optical and thermoelectric features of ternary chalcogenide Ca2GeX4 (X=S, Se, Te) compounds 🌟
  4. Structural, optoelectronic, mechanical and thermoelectric properties of ZrO2 via band engineering with Nb doping ⚙️
  5. Exploring the impact of hydrostatic pressure on the essential physical properties of BaTiO3 perovskite: A first principles quantum investigation and prospects for optoelectronic and thermoelectric applications 🌐
  6. Tailoring electronic and optical properties of Lutetium pyrosilicate (Lu2Si2O7) through Nd and Tb doping: Insights from DFT+U calculations 💡
  7. Tuning the essential physical properties of KTaO3 through sulfur, selenium doping, and oxygen vacancy: A first principle investigation 🔍
  8. A DFT investigation of Li substitution in CsCaY3 (Y[dbnd]F, Cl, Br) having admirable optoelectronic characteristics as a viable candidate for photocatalytic water splitting 🚀
  9. First principle investigation of structural, optoelectronic and thermoelectric properties of lead-free Cs2AgAuX6 (X= Br, I) for energy harvesting applications ☀️
  10. From wide band gap semiconductor to visible light responsive material: The role of Li in K2PdO2 🌈

Conclusion

Muhammad Ajmal Jawad exhibits many qualities that make him a strong candidate for the Best Researcher Award. His impressive academic background, substantial research contributions, teaching experience, and active participation in scholarly activities highlight his dedication to the field of physics. By addressing areas for improvement, particularly in networking and funding, he can further amplify his impact in the scientific community. His potential for future contributions to research and education positions him as a deserving recipient of this award.

Joseph A Manga | Health Information Technology | Best Researcher Award

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Assist Prof Dr Joseph A Manga | Health Information Technology | Best Researcher Award

Assistant Professor, Abilene Christian University, United States

Joseph A. Manga is an accomplished academic currently serving as a faculty member at Abilene Christian University. With a Ph.D. in Business Administration from the University of Texas Rio Grande Valley, he specializes in Information Systems. Joseph has a strong background in teaching and research, focusing on the intersection of technology and healthcare. He is dedicated to mentoring students and enhancing their learning experiences through innovative teaching methods. Beyond academia, he has coordinated community outreach programs and served in leadership roles within his church. Joseph is passionate about leveraging technology to address societal challenges, particularly in health information technology, and has contributed significantly to various conferences and journals in his field.

Profile 

Google scholar

Strengths for the Award

  1. Diverse Research Interests:
    • Dr. Manga’s research spans a range of impactful areas, including information security policy compliance, health information technology, and social media. This diversity showcases his ability to contribute to multiple fields within information systems.
  2. Publication Record:
    • Dr. Manga has a robust publication record with significant contributions to reputable journals and conferences. Notable works include studies on user resistance to healthcare information technology and electronic health records systems, reflecting a deep engagement with current challenges in the field.
  3. Citations and Impact:
    • His work has been cited multiple times, indicating that it resonates with peers and has influenced ongoing research. For instance, his paper on perceived threats in healthcare technology has received significant attention, demonstrating its relevance.
  4. Teaching and Mentorship:
    • As an educator, Dr. Manga has taught various courses related to management information systems and data analytics, nurturing the next generation of researchers and professionals in the field.
  5. Professional Development:
    • He has actively engaged in workshops and mentorship programs, enhancing his skills and contributing to the academic community. This commitment to continuous improvement reflects positively on his dedication to research excellence.
  6. Review and Service Contributions:
    • His roles as a reviewer for multiple esteemed journals and conferences showcase his commitment to maintaining academic standards and contributing to the peer-review process, highlighting his expertise and respect within the research community.

Areas for Improvement

  1. Research Funding:
    • While Dr. Manga has received research awards, seeking larger grants could enhance the scope and impact of his research. Fostering partnerships with industry or other academic institutions might yield additional funding opportunities.
  2. Broader Collaboration:
    • Expanding collaboration with interdisciplinary teams could enrich his research perspectives and applications, particularly in areas like artificial intelligence and public health.
  3. Public Engagement:
    • Increasing efforts in public dissemination of his research findings through community outreach or industry partnerships could enhance the societal impact of his work, particularly in health informatics.
  4. Innovation in Methodology:
    • Exploring novel research methodologies or emerging technologies, such as machine learning applications in health informatics, could strengthen the innovative aspect of his research.

Education 

Joseph A. Manga holds a Ph.D. in Business Administration with a concentration in Information Systems from the University of Texas Rio Grande Valley (UTRGV), awarded in 2022. He earned his MSc in Management Information Systems, focusing on Business Analytics, from the University of North Texas (UNT) in 2018. Prior to that, he completed his MBA in Business Administration with a concentration in Management Information Systems at Midwestern State University (MSU) in 2014. His academic journey began with a BSc in Mathematics, complemented by a minor in Computer Science from the University of Buea in Cameroon, awarded in 2006. Joseph’s educational foundation equips him with a robust understanding of both theoretical and practical aspects of information systems and business analytics.

Experience

Joseph A. Manga has extensive teaching and tutoring experience across various institutions. Currently, he teaches Management Information Systems at Abilene Christian University (ACU), having held multiple teaching positions since Fall 2022. Prior to his current role, he was a Teaching Assistant at UTRGV, where he designed course outlines and assessed student performance. He has also served as a Research Assistant, contributing to impactful research in business and technology. Joseph’s tutoring background spans various subjects, including data analysis and statistics, at both UNT and MSU. His non-academic roles include being a Production Scheduler at TRANTER Corp. and a Mathematics Instructor at Mathnesium, showcasing his versatility and commitment to education in both academic and practical settings.

Awards and Honors 

Joseph A. Manga has received numerous accolades for his academic achievements and contributions to research. Notably, he was awarded the R. Vackar COBE Student Research Award Grant and the R. Vackar COBE Student Research Award Winner in 2021. He also received the Bill Russell Family Scholarship for IT & Decision Science majors during the 2017-2018 academic year. His membership in several honor societies, including the Association for Information Systems and Alpha Chi National College Honor Society, highlights his dedication to academic excellence. Joseph was nominated for “Who’s Who Among Students in American Universities” in 2014 and recognized on the President’s Honor Roll in 2012. His consistent engagement in professional development activities further demonstrates his commitment to advancing his knowledge and expertise in the field of information systems.

Research Focus 

Joseph A. Manga’s research focuses on the critical intersection of information systems and healthcare technology. His primary areas of interest include information security policy compliance, health information technology, and the societal impacts of digital transformation in healthcare. Joseph investigates user behavior in online health communities, exploring themes of information disclosure and emotional responses in adopting technology. His work also encompasses the role of social media and electronic health records systems in enhancing patient engagement and outcomes. By leveraging data analytics and artificial intelligence, Joseph aims to uncover insights that can inform both academic theory and practical applications within the health sector. His contributions to various journals and conferences reflect a commitment to advancing understanding in these dynamic fields.

Publication Top Notes

  • The nature and role of perceived threats in user resistance to healthcare information technology: a psychological reactance theory perspective 🏥
  • Patient Empowerment and Electronic Health Record Systems Sharing: A Design Perspective 🖥️
  • The impacts of anxiety emotion and behavioral control on student learning management system adoption 📚
  • Is First Impression Relevant in Online Health Support Communities? Preliminary Investigation of the Effects of Social Presence 🌐
  • Predicting user response and support activities in virtual health support communities 📈
  • Physicians’ perceived threats and electronic medical record workaround 🩺
  • Think and Act Positively: A Motivational Organizational Citizenship Behavior Approach Towards Information Security Policy Compliance 🔒
  • Routinization of Digital Transformation of Work: A Discursive Practice Orientation Toward a Native IS Theory 🔄
  • Enhancing Information Systems Success Outcomes with Electronic Health Records Systems Post-Adoption Implementation 📊
  • Essays on Individuals’ Information Assessment, Information Disclosure, Participation, and Response Behaviors in Online Health Communities ✍️
  • Examining Users’ Information Disclosure and Audience Support Response Dynamics in Online Health Communities: An Empirical Study 📑
  • Impact of Internet Incivility on Health Professionals’ Job Involvement: Roles of Organizational Support and Sanctions 💼

Conclusion

Dr. Joseph A. Manga exemplifies a dedicated researcher and educator with significant contributions to the fields of information systems and health informatics. His extensive publication record, impactful research topics, and active participation in academic service demonstrate his qualifications for the Best Researcher Award. While there are opportunities for growth in areas such as funding acquisition and broader collaboration, his overall profile showcases a commitment to advancing knowledge and practice in his field. Therefore, he is highly suitable for the Best Researcher Award based on his strengths and potential for further impact.

 

Madison N Ngafeeson | Health Information Technology | Best Researcher Award

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Prof Madison N Ngafeeson | Health Information Technology | Best Researcher Award

Award Academician/Research Scholar, Palm Beach Atlantic University, United States

Dr. Madison N. Ngafeeson is a Professor of Business Data Analytics at Palm Beach Atlantic University, where he specializes in health information technology and e-government systems. With a robust academic background and years of practical experience, Dr. Ngafeeson is dedicated to advancing the field of information systems through research and teaching. His expertise encompasses user resistance to health IT, e-textbook acceptance, and the impact of technology on education and healthcare. Dr. Ngafeeson has published extensively, contributing valuable insights into the challenges and opportunities within healthcare information systems.

Profile

google scholar

Strengths for the Award

Dr. Madison N. Ngafeeson has made significant contributions to the fields of business data analytics and healthcare information systems. His extensive research output, evidenced by numerous publications and citations, demonstrates his expertise and impact in understanding user behavior towards technology adoption. With over 88 citations for his influential work on e-textbooks and 65 citations for his comprehensive overview of healthcare information systems, Dr. Ngafeeson’s research is highly regarded in academia. His focus on user resistance in health IT provides vital insights into improving technology acceptance in healthcare settings. Moreover, Dr. Ngafeeson has effectively integrated theoretical frameworks, such as the Theory of Planned Behavior, into practical applications, enhancing the relevance of his research.

Areas for Improvement

While Dr. Ngafeeson has a robust publication record, exploring interdisciplinary collaborations could further enhance his research impact. Engaging with more diverse research teams may provide new perspectives and methodologies that can enrich his studies, particularly in health IT and e-government. Additionally, expanding his research into emerging technologies, such as artificial intelligence in healthcare, could position him as a thought leader in cutting-edge areas.

Education 

Dr. Madison N. Ngafeeson earned his PhD in Information Systems from the University of Texas-Pan American, where he developed a keen interest in the intersection of technology and user behavior. His educational journey laid a strong foundation in both theoretical and practical aspects of information systems. Dr. Ngafeeson also holds a Master’s degree in Business Administration, providing him with a comprehensive understanding of business dynamics and the role of data analytics. Throughout his academic career, he has attended numerous workshops and conferences, continually enhancing his knowledge and expertise in areas like e-government, health IT, and cybercrime classification. This commitment to lifelong learning reflects his dedication to advancing the field of business data analytics. His educational background, combined with extensive research, positions him as a leading scholar and educator, shaping the next generation of data analysts and IT professionals.

Experience 

Dr. Madison N. Ngafeeson has extensive experience in academia and industry, making him a valuable asset in the field of business data analytics. Currently, he serves as a Professor at Palm Beach Atlantic University, where he teaches courses on data analytics, e-government, and health information technology. Prior to his academic role, Dr. Ngafeeson worked as a researcher and consultant, focusing on the implementation of information systems in healthcare organizations. His experience includes leading projects aimed at enhancing user acceptance of technology and analyzing user resistance in health IT. Dr. Ngafeeson has also contributed to various interdisciplinary initiatives, collaborating with healthcare professionals and educational institutions to address real-world challenges. His practical insights, combined with his academic prowess, enable him to bridge the gap between theory and application, fostering innovation in data-driven decision-making and technology integration.

Awards and Honors 

Dr. Madison N. Ngafeeson has received several accolades in recognition of his contributions to research and education in business data analytics and health information technology. His work on user resistance to information systems has garnered attention, leading to numerous citations and invitations to present at national and international conferences. He was awarded the Best Paper Award at the International Journal of Web-Based Learning and Teaching Technologies for his research on e-textbook acceptance, highlighting his impact in the educational technology domain. Additionally, Dr. Ngafeeson has been recognized by his peers for his dedication to student mentorship and curriculum development, receiving the Excellence in Teaching Award at Palm Beach Atlantic University. His commitment to fostering a collaborative and engaging learning environment has earned him respect among colleagues and students alike. These honors reflect his ongoing commitment to advancing knowledge and practice in his fields of expertise.

Research Focus 

Dr. Madison N. Ngafeeson’s research primarily focuses on the intersection of health information technology, user behavior, and e-government systems. His work investigates user resistance to technology adoption, particularly in healthcare settings, where understanding user perceptions is crucial for successful implementation. He employs theoretical frameworks, such as the Theory of Planned Behavior, to analyze factors influencing user acceptance and to develop strategies for overcoming resistance. Dr. Ngafeeson also explores the implications of e-government on public service delivery, examining how technology can enhance citizen engagement and streamline operations. His publications contribute to a deeper understanding of how technology innovativeness and system exposure impact user acceptance in educational contexts. By addressing these critical issues, Dr. Ngafeeson aims to inform policy and practice, ultimately fostering greater integration of technology in healthcare and education. His research is vital for developing effective solutions that enhance user experience and improve outcomes in these sectors.

Publication Top Notes

  1. The effects of technology innovativeness and system exposure on student acceptance of e-textbooks 📚
  2. Healthcare information systems opportunities and challenges 🏥
  3. Cybercrime classification: a motivational model 🔒
  4. Learning management system adoption: A theory of planned behavior approach 📊
  5. E-government diffusion: Evidence from the last decade 🌐
  6. An exploratory study of user resistance in healthcare IT 🚑
  7. Understanding user resistance to information technology in healthcare: The nature and role of perceived threats ⚠️
  8. Northern Michigan University online campus: A case of digital transformation in higher education 🎓
  9. The nature and role of perceived threats in user resistance to healthcare information technology: a psychological reactance theory perspective 💡
  10. Meaningful use and meaningful curricula: a survey of health informatics programmes in the USA 🇺🇸
  11. E-book acceptance among undergraduate students: a look at the moderating role of technology innovativeness 📖
  12. Healthcare Information Systems Opportunities and Challenges; Encyclopedia of Information Science and Technology 📘
  13. Healthcare IT: Current research and future trends 🔍
  14. Understanding user resistance to information technology: Toward a comprehensive model in health information technology 🧠
  15. Information Security as a Determinant of Nation’s Networked Readiness: A Country Level Analysis 🌍
  16. E-book acceptance by undergraduate students: do gender differences really exist? 🚻
  17. The impacts of anxiety emotion and behavioral control on student learning management system adoption 📅
  18. User resistance to health information technology 🚨
  19. Electronic health record (EHR) diffusion and an examination of physician resistance 🩺
  20. Enhancing Information Systems Success Outcomes with Electronic Health Records Systems Post-Adoption Implementation 📈

Conclusion

Dr. Madison N. Ngafeeson’s commitment to advancing knowledge in business data analytics and healthcare information systems makes him a strong candidate for the Best Researcher Award. His substantial contributions, evidenced by high citation rates and influential publications, showcase his expertise and impact. With a focus on user resistance to technology and the practical implications of his research, Dr. Ngafeeson is well-positioned to lead future inquiries that can transform health IT and e-government systems. Recognizing his work with this award would not only honor his achievements but also encourage further innovation and exploration in these critical fields.

ShujieYang | Triboelectric Nanogenerator | Young Scientist Award

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Dr ShujieYang | Triboelectric Nanogenerator | Young Scientist Award

 

Student/Member, Peter the Great St. Petersburg Polytechnic University, Russia 

Shujie Yang is a researcher at Peter the Great St. Petersburg Polytechnic University in Russia, specializing in materials science and engineering. With a focus on Triboelectric Nanogenerator and magnesium alloys, Yang has made significant contributions to understanding the wear behavior and friction properties of various materials. His work is recognized for its innovative approach to developing low-cost, efficient energy-harvesting technologies. Yang holds a robust academic background and has collaborated with several co-authors to advance the field of materials science. His publications reflect a commitment to exploring sustainable and practical applications of material properties. As an active member of the academic community, Yang continuously seeks to enhance the understanding of materials’ behavior under different conditions, paving the way for future innovations in engineering and technology.

Profile

scopus

Strengths for the Award

Shujie Yang has demonstrated significant contributions to materials science, particularly in the area of triboelectric nanogenerators and magnesium alloys. His recent publication on developing low-cost, structurally simple nanogenerators showcases innovative research that could have a wide range of applications in energy harvesting. With a respectable citation count of 54 across three documents, his work is recognized within the academic community, indicating the relevance and impact of his research. His collaborative approach, as evidenced by multiple co-authors in his publications, highlights his ability to work effectively in interdisciplinary teams. Additionally, Yang’s focus on sustainable materials aligns with contemporary research priorities, making him a strong candidate for the award.

Areas for Improvement

While Yang’s research shows promise, there are areas for potential enhancement. Increasing the number of published documents would provide a broader representation of his work and impact. Engaging in more collaborative research projects could also expand his influence and citation metrics further. Additionally, actively participating in conferences and workshops could enhance his visibility and networking opportunities within the research community.

Education 

Shujie Yang completed his higher education at leading institutions, focusing on materials science and engineering. His educational background includes a Master’s degree and subsequent research, which laid the foundation for his current expertise in nanotechnology and alloy development. Throughout his academic journey, Yang has honed his skills in experimental design, data analysis, and material characterization. His education has equipped him with a robust understanding of the principles governing materials behavior, especially in terms of wear, friction, and energy harvesting. This strong educational foundation has been instrumental in shaping his research direction and enhancing his contributions to the field.

Experience 

Yang has accumulated valuable experience in both academic and research settings. He is currently a researcher at Peter the Great St. Petersburg Polytechnic University, where he engages in cutting-edge research on triboelectric nanogenerators and magnesium alloys. Previously, he has collaborated on various projects that explore the mechanical properties and applications of advanced materials. His research not only emphasizes theoretical understanding but also practical applications, making his work relevant to industry needs. Yang has also co-authored several influential publications, demonstrating his ability to collaborate effectively with peers and contribute to interdisciplinary projects. His experience spans multiple aspects of materials science, including experimental research, data interpretation, and application development.

Awards and Honors 

Throughout his academic career, Shujie Yang has received recognition for his contributions to materials science. His work has led to significant citations, reflecting the impact of his research within the scientific community. While specific awards may not be publicly listed, his collaborative publications and active engagement in the field suggest acknowledgment from peers and institutions alike. Yang’s dedication to research excellence and his innovative approaches to tackling contemporary challenges in materials science position him favorably for future accolades. As he continues to advance his work, further awards and honors are likely to follow, celebrating his commitment to the discipline and his contributions to sustainable technology.

Research Focus 

Shujie Yang’s research primarily focuses on the development and application of advanced materials, particularly in the areas of triboelectric nanogenerators and magnesium alloys. His work aims to enhance the efficiency and sustainability of energy harvesting technologies, making significant strides in the utilization of renewable energy sources. Yang investigates the mechanical properties, wear behavior, and treatment processes of magnesium alloys, contributing to the understanding of their performance under various conditions. By exploring the interplay between material composition and application, he aims to innovate solutions that can address real-world challenges in energy and materials technology. His research not only advances theoretical knowledge but also holds potential for practical applications in industries reliant on efficient and sustainable materials.

Publication Top Notes

  1. The Preparation of a Low-Cost, Structurally Simple Triboelectric Nanogenerator Based on Fullerene Carbon Soot-Doped Polydimethylsiloxane Composite Film 🛠️⚡
  2. Effects of Load on Dry Sliding Wear Behavior of Mg–Gd–Zn–Zr Alloys ⚙️🧪
  3. Effect of Heat Treatment on Friction and Wear Properties of GZ60K Magnesium Alloy 🔥🔩

 

Conclusion

Shujie Yang possesses a solid foundation in materials science, evidenced by impactful research contributions and a growing citation record. His innovative approach to developing sustainable technologies positions him well for the Best Researcher Award. By continuing to publish, collaborate, and engage with the broader academic community, Yang can further solidify his standing as a leading researcher in his field.

Yingnan Li | Urban renewal | Best Researcher Award

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Prof Yingnan Li | Urban renewal | Best Researcher Award

Associate professor, Jiangsu University, China

Yingnan Li is an Associate Professor in the Department of Environmental Design at Jiangsu University, China. With a Ph.D. in Landscape Architecture from Seoul National University, she specializes in ecological landscape planning, urban thermal environments, and climate-adaptive urban design. Yingnan is recognized as a ‘Dual-Creation Doctor’ in Jiangsu Province and has received numerous accolades, including the Social Science Outstanding Youth award in Zhenjiang. As a member of the American Geophysical Union and the Jiangsu Civil Architecture Society’s Landscape Architecture Committee, she contributes to several academic journals. Her extensive design experience includes urban renewal and landscape design projects, significantly enhancing her students’ competitive success in various national and international competitions.

Profile

GOOGLE SCHOLAR

Strengths for the Award

  1. Academic Excellence: Dr. Yingnan Li holds a Ph.D. in Landscape Architecture from a prestigious institution (Seoul National University) and has published over 10 academic papers in reputable journals. Her research on ecological landscape planning, urban thermal environments, and climate adaptive design is both relevant and impactful.
  2. Research Impact: Her work has significant implications for urban sustainability and climate resilience, addressing pressing global challenges such as urban heat islands and ecosystem service evaluation. The breadth of her research reflects a strong commitment to advancing knowledge in these critical areas.
  3. Professional Recognition: Dr. Li has received several awards, including recognition as an Excellent Academic Mentor and Excellent Instructor at Jiangsu University, highlighting her contributions to education and mentorship. Her involvement in notable academic societies and competitions further underscores her standing in the academic community.
  4. Active Engagement: She regularly presents her research at international conferences and serves as a reviewer for leading journals, demonstrating her active engagement in the scientific community and her commitment to advancing research in her field.
  5. Student Success: Dr. Li’s guidance has led her students to win numerous prestigious awards in design competitions, showcasing her effectiveness as an educator and her ability to inspire and cultivate talent in future professionals.
  6. Practical Application of Research: Her extensive experience in design practice complements her academic work, allowing her to translate theoretical research into practical applications, which enhances the relevance of her research findings.

Areas for Improvement

  1. Interdisciplinary Collaboration: While Dr. Li’s work is commendable, exploring interdisciplinary collaborations could enhance her research impact. Engaging with experts from fields such as urban planning, public health, and environmental science could lead to more comprehensive studies.
  2. Broader Outreach: Expanding her research’s public engagement and outreach efforts could further enhance its visibility and applicability. This could include workshops, community projects, or partnerships with local governments.
  3. Funding Opportunities: Actively seeking external funding for research projects could help expand the scope of her work and enable larger-scale studies that could contribute even more significantly to the field.
  4. Publication Strategy: Focusing on publishing in high-impact journals and diversifying the publication types (e.g., reviews, policy papers) could enhance her academic visibility and influence.

Education 

Yingnan Li earned her Ph.D. in Landscape Architecture from Seoul National University, South Korea, from September 2014 to August 2018, under the supervision of Youngkeun Song. Before this, she obtained her Master’s degree in Horticulture from Yanbian University, where she studied from September 2012 to June 2014. Yingnan completed her undergraduate studies in Landscape Architecture at the same institution, graduating in June 2012. This strong academic foundation has equipped her with comprehensive knowledge and skills in landscape architecture and environmental design, enabling her to address complex ecological and urban challenges effectively. Her educational journey reflects a commitment to academic excellence and a passion for sustainable design practices.

Experience 

Yingnan Li’s professional journey includes significant roles in academia and research. Since September 2018, she has been an Associate Professor in the Department of Environmental Design at Jiangsu University, where she also serves as a Master’s Supervisor. Prior to this, she worked as a Postdoctoral Researcher in the Department of Landscape Architecture at Southeast University from November 2019 to December 2021. Additionally, she was a researcher at the Environmental Planning Institute of Seoul National University from December 2021 to December 2023, supported by the CSC Young Backbone Teacher Grant. Yingnan has a wealth of experience in design practice, completing projects focused on urban renewal, rural transformation, and residential landscapes. Her expertise bridges theory and practice, enhancing both her research contributions and her students’ educational experiences.

Awards and Honors 

Yingnan Li has received numerous awards recognizing her contributions to academia and student mentorship. In 2023, she was named the Excellent Academic Mentor of Jiangsu University for the 2022-2023 academic year. She was also honored as an Excellent Instructor at the 11th Chinese National College Student Digital Media Technology Works and Creativity Competition in 2023. Her students have thrived under her guidance, achieving multiple awards in various competitions, including the Chinese National Digital Art Design Competition and the Asia Design Academic Year Award. In 2021, she received the Outstanding Award for her performance in the English Teaching Competition at Jiangsu University. Her involvement in the Jiangsu province high-level innovation and entrepreneurship talent plan further underscores her commitment to fostering creativity and excellence in the field of environmental design.

Research Focus 

Yingnan Li’s research interests encompass ecological landscape planning, urban thermal environments, climate-adaptive urban design, and ecosystem service evaluation. She aims to understand the interaction between urban landscapes and their ecological functions, particularly in the context of climate change. Her work on microclimate variations in urban green spaces has provided insights into enhancing thermal comfort and urban resilience. Yingnan’s research also focuses on quantifying ecosystem services provided by urban trees and green spaces, contributing to more sustainable urban planning practices. By integrating scientific knowledge with design, she strives to promote environmental sustainability and enhance the quality of urban life. Her scholarly contributions are reflected in over ten academic papers and various presentations at international conferences, showcasing her commitment to advancing the field of environmental design.

Publication Top Notes

  • Optimization of vegetation arrangement to improve microclimate and thermal comfort in an urban park 🌳
  • Spatial and temporal patterns of microclimates at an urban forest edge and their management implications 🌲
  • Quantifying tree canopy coverage threshold of typical residential quarters considering human thermal comfort and heat dynamics under extreme heat ☀️
  • Zonal classification of microclimates and their relationship with landscape design parameters in an urban park 🏞️
  • Evaluation and prediction of land use change impacts on ecosystem service values in Nanjing City from 1995 to 2030 🌍
  • The Impacts of Morphology of Traditional Alleys on Thermal comfort: A case study of Da Long Wang Xiang in Zhenjiang, China 🏘️
  • Measuring and Modeling the Influences of Street Tree Species on Microclimate and Pedestrian Comfort 🚶‍♀️
  • Microclimate Variations in Urban Green Spaces Depending on Site Characteristics 🌿

Conclusion

Dr. Yingnan Li is a highly qualified candidate for the Best Researcher Award, demonstrating exceptional contributions to the field of landscape architecture and environmental design. Her academic achievements, professional recognition, and dedication to mentoring students position her as a leading figure in her field. By addressing the suggested areas for improvement, Dr. Li can further amplify her impact and continue to lead innovative research in ecological landscape planning and climate adaptive urban design. Recognizing her with this award would not only honor her past accomplishments but also encourage her ongoing contributions to academia and society.