zhang jinliang | Energy | Best Researcher Award

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Prof. zhang jinliang | Energy | Best Researcher Award

Prof. zhang jinliang, north china electric power university, China

Jinliang Zhang, a distinguished expert in Energy Economics and Policy, has made significant contributions to the field of energy management and sustainable development. Born in Jiangshu, China, and a member of the Communist Party, he is highly respected for his interdisciplinary research in energy economics, energy policy, and econometric analysis. With an impressive academic background, Jinliang holds a Ph.D. in Technical Economics and Management from North China Electric Power University, and completed postdoctoral research at both Tufts University (Fletcher School) and Beijing Institute of Technology. Over the years, he has led numerous impactful projects, including those on carbon emission trading mechanisms and renewable energy optimization. As a prolific researcher and project leader, his works are shaping the future of energy systems and sustainability worldwide.

Professional Profile

Scopus

Summary of Suitability for the “Research for Best Researcher Award” for Jinliang Zhang

Jinliang Zhang demonstrates exceptional qualifications and accomplishments in the fields of energy economics, energy policy, and econometrics, making him a highly suitable candidate for the “Research for Best Researcher Award.” His strong educational background includes a Ph.D. in Technical Economics and Management, with extensive research in large systems, applied mathematics, and econometric analysis. His postdoctoral experiences at prestigious institutions, including Tufts University and Beijing Institute of Technology, have further honed his expertise in energy-related topics.

Zhang has published extensively in high-impact journals such as Energy, Applied Energy, and Sustainable Energy Technologies and Assessments. His publications primarily focus on low-carbon economic dispatching models, energy storage optimization for microgrids, and the integration of carbon capture systems in virtual power plants. These contributions are not only academically significant but also have a direct impact on sustainable energy solutions and policy formulation. His work on forecasting and energy pricing has been instrumental in advancing the understanding of electricity markets and renewable energy systems.

🎓  Education

Jinliang Zhang’s academic journey is a testament to his deep commitment to the field of energy economics and management. He obtained his B.S. in Mathematics from North China Electric Power University in 2005, where he also earned his M.A. and Ph.D. in Technical Economics and Management between 2006 and 2011. His doctoral research focused on large systems and econometric analysis, providing a strong foundation for his future endeavors in energy systems. He further honed his expertise by completing postdoctoral studies in Management Science and Engineering at Tufts University’s Fletcher School (2018-2019) and Beijing Institute of Technology (2012-2016). During these postdoctoral programs, he concentrated on energy economics, policy formulation, and econometric modeling, which led to several high-impact publications. His extensive education has been instrumental in shaping his research career and leadership in the energy field.

💼 Professional Experience

Jinliang Zhang’s professional experience spans academia, research, and industry, making him a key figure in energy economics and management. As a postdoctoral researcher, he worked at prestigious institutions like Tufts University and Beijing Institute of Technology, focusing on energy economics, policy, and econometric models. Over the years, Jinliang has been involved in numerous cutting-edge research projects and government-funded initiatives, including carbon emissions trading mechanisms and optimization of energy storage systems for microgrids. He has also worked on electricity price forecasting and the analysis of renewable energy systems. As the project leader for various national and international research projects, he has collaborated with organizations such as the National Natural Science Foundation of China, State Grid JiBei Electric Power Company, and China Electric Power Research Institute. His expertise has been sought after to analyze and develop energy-saving and emission-reduction policies for China’s power industry.

🏅  Awards and Recognition

Jinliang Zhang has garnered significant recognition for his contributions to energy research and policy. His innovative work in the optimization of energy systems and carbon emission trading mechanisms has earned him widespread acclaim in both academia and industry. Among his notable achievements, he has received funding and support from the National Natural Science Foundation of China, the China Postdoctoral Science Foundation, and various energy institutions. His groundbreaking research on low-carbon economic scheduling, energy storage, and electricity price forecasting has been published in top-tier journals such as Energy, Renewable Energy, and Applied Energy. Additionally, Jinliang has successfully led several high-profile projects in collaboration with governmental and corporate entities, such as the State Grid JiBei Electric Power Company and the China Electric Power Research Institute. His work has significantly influenced China’s energy policies and is widely regarded as pioneering in the field of energy economics.

🌍 Research Skills On Energy

Jinliang Zhang possesses exceptional research skills, particularly in energy economics, energy policy, and econometric analysis. His expertise lies in developing complex models for energy systems, such as those focused on optimizing energy storage, renewable energy integration, and low-carbon economic dispatch. He is skilled in using advanced econometric tools to analyze energy data, forecast electricity prices, and predict renewable energy outputs. Jinliang is also highly experienced in applying hybrid modeling techniques for short-term electricity price forecasting and wind and photovoltaic output prediction. His research in carbon emission trading and sustainable energy systems has greatly contributed to shaping policy in China and abroad. He is proficient in using statistical and mathematical modeling to solve energy-related challenges, and his ability to lead interdisciplinary research projects has earned him a reputation as a leader in the field. His strong foundation in applied mathematics, probability, and statistical analysis enhances the precision and applicability of his work.

📖 Publication Top Notes

  • Title: “Economic-emission dispatch problem in a biomass-coal co-firing CCHP system based on natural gas deep peak-shaving and carbon capture technologies”

    • Authors: Jinliang Zhang, Zeping Hu
    • Journal: Computers and Industrial Engineering
    • Year: 2025

  • Title: “A scheduling optimization model for a gas-electricity interconnected virtual power plant considering green certificates-carbon joint trading and source-load uncertainties”

    • Authors: Jinliang Zhang, Ziyi Liu, Yishuo Liu
    • Journal: Energy
    • Year: 2025

  • Title: “Inventory Optimization Model of Biomass Power Plant Considering Multiple Uncertainties”

    • Authors: Jinliang Zhang, Zeping Hu
    • Journal: Zhongguo Dianli/Electric Power
    • Year: 2024

Shruti Kaushik | Energy | Best Researcher Award

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Ms. Shruti Kaushik | Energy | Best Researcher Award

Ms. Shruti Kaushik, National Institute of Technology, Kurukshetra, India

Shruti Kaushik is a highly motivated and talented researcher in the field of nanomaterials and nanotechnology, with a focus on energy storage applications. She holds a Bachelor of Technology in Computer Science and Engineering from Maharshi Dayanand University, and a Master of Technology in Nanomaterials and Nanotechnology from the National Institute of Technology, Kurukshetra. Shruti’s research primarily revolves around the development of high-performance supercapacitor devices using advanced materials like Zeolitic Imidazolate Framework-67 (ZIF-67). Her work has led to multiple publications in prominent journals, contributing to advancements in sustainable energy solutions. With a strong academic background and a passion for clean energy, Shruti continues to excel in her research, furthering her expertise in energy storage technologies.

Professional Profile

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Suitability for the “Research for Best Researcher Award” – Shruti Kaushik

Shruti Kaushik has demonstrated exceptional academic performance and research aptitude that makes her a strong candidate for the Research for Best Researcher Award. With a Master of Technology in Nanomaterials and Nanotechnology from the prestigious National Institute of Technology, Kurukshetra, India, and a remarkable CGPA of 9.98/10, Shruti’s academic background reflects a high level of dedication and excellence. Her undergraduate education in Computer Science and Engineering at Maharshi Dayanand University further solidifies her diverse skill set and ability to adapt to various research domains.

Her postgraduate project on the fabrication of asymmetrical supercapacitor devices with Zeolitic Imidazolate Framework-67 (ZIF-67) stands out due to the innovative approach she employed. Shruti’s work involved synthesizing ZIF-67 under various conditions and evaluating its structural, morphological, and electrochemical properties. She fabricated both planar and coin cell supercapacitors and demonstrated their practical applicability, which could significantly impact the field of energy storage. These accomplishments highlight her ability to conduct cutting-edge research with real-world applications, particularly in the areas of energy storage and nanomaterials.

🎓 Education

Shruti Kaushik completed her Bachelor of Technology in Computer Science and Engineering at Maharshi Dayanand University, Rohtak, Haryana, India (Aug 2017 – May 2021) with a CGPA of 7.78/10. Following this, she pursued a Master of Technology in Nanomaterials and Nanotechnology at the National Institute of Technology, Kurukshetra, India (Aug 2022 – Jun 2024), where she achieved an impressive CGPA of 9.98/10. Her academic excellence has been marked by her deep interest in nanotechnology and energy storage materials, which has led her to focus on the development of supercapacitor devices with advanced materials for enhanced energy storage applications.

💼 Professional Experience

Shruti Kaushik has been actively involved in research since her postgraduate studies, particularly working on the fabrication of asymmetrical supercapacitor devices using Zeolitic Imidazolate Framework-67 (ZIF-67). During her project, she synthesized ZIF-67 under various conditions to enhance its cyclic stability and capacitance. Her research included studying the structural properties of ZIF-67 using various characterization techniques such as SEM, TEM, BET, and XRD, and evaluating its electrochemical performance for energy storage applications. Shruti has also presented her findings at various national and international conferences and symposia, contributing to the ongoing development of energy storage technologies.

🏅 Awards and Recognition

Shruti Kaushik has received several awards for her outstanding contributions to research and innovation. She earned the 2nd Prize for Best Model/Technology Presentation at the Student Research Symposium 2023, organized by IEEE NTC at IIT Indore. She also received a Consolation Prize for the best oral presentation at the same event. Additionally, Shruti was awarded the All India Council for Technical Education (AICTE) Graduate Aptitude Test in Engineering (GATE) Scholarship in 2022. These recognitions underscore her ability to make significant advancements in energy storage technology and her potential for future contributions to the field.

🌍 Research Skill On Energy

Shruti Kaushik is proficient in a range of research skills related to nanotechnology and energy storage. Her expertise includes the synthesis and characterization of advanced materials such as Zeolitic Imidazolate Framework-67 (ZIF-67), using techniques like SEM, TEM, BET, and XRD for structural analysis. She is highly skilled in electrochemical testing, utilizing methods like cyclic voltammetry (CV), galvanostatic charge-discharge (GCD), and electrochemical impedance spectroscopy (EIS) to assess the performance of supercapacitor devices. Shruti’s research has greatly contributed to the understanding and application of these materials in energy storage systems, particularly in achieving enhanced capacitance and stability in supercapacitors.

📖 Publication Top Notes

  • Title: Asymmetric supercapacitor device fabrication of pristine Zeolitic Imidazolate Framework-67 with ultrahigh performance and cyclic stability
    Authors: S Kaushik, P Chand, S Sharma
    Journal: Journal of Energy Storage
    Citation: 78, 110033
    Year: 2024
  • Title: High-performance pristine ZIF-67 asymmetric supercapacitor device with excellent energy and power density for energy storage application
    Authors: S Kaushik, P Chand, S Sharma
    Journal: Electrochimica Acta
    Citation: 144565
    Year: 2024
  • Title: Recent advancements in cathode materials for high-performance Li-ion batteries: Progress and prospects
    Authors: S Kaushik, T Mehta, P Chand, S Sharma, G Kumar
    Journal: Journal of Energy Storage
    Citation: 97, 112818
    Year: 2024
  • Title: A critical review of recent advancements in zinc-based metal-organic framework nanocomposites and their derivatives for supercapacitor applications with future perspectives and …
    Authors: S Sharma, P Chand, S Kaushik
    Journal: Sustainable Materials and Technologies
    Citation: e01045
    Year: 2024
  • Title: Green Supercapacitors: Design, Fabrication, and Future Perspectives in Clean Energy Storage Devices
    Authors: S Sharma, P Chand, S Kaushik, K Samdhyan
    Journal: Eco-Friendly Supercapacitors: Design and Future Perspectives in Sustainable …
    Year: 2024
  • Title: Electrochemical performance of ZIF-67 as electrode material for energy storage in supercapacitor application
    Authors: S Kaushik, P Chand, S Sharma
    Conference: Proceedings of the Indian Conference on Carbon Materials: Book of Abstracts
    Year: 2023

Baiyu Ren | Energy | Best Researcher Award

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Assist. Prof. Dr. Baiyu Ren | Energy | Best Researcher Award

 👤  Assist. Prof. Dr. Baiyu Ren, Southwest Jiaotong University, China

Dr. Baiyu Ren is an esteemed researcher and Assistant Professor at Southwest Jiaotong University, China. She earned her bachelor’s (2010) and master’s (2013) degrees from Beijing Institute of Technology (BIT) before completing her PhD at RMIT University, Australia, in 2019. With a deep passion for science, her expertise spans electrocatalysis and electrochemical detection, areas where she has made significant contributions. Dr. Ren has published over 20 high-impact research articles in leading journals like Advanced Functional Materials, Science Bulletin, and Chemical Engineering Journal. A visionary scholar, she focuses on developing innovative solutions to address global energy challenges. Known for her collaborative spirit and impactful teaching, Dr. Ren inspires the next generation of scientists. Her dedication to advancing knowledge in materials science and energy research has earned her a distinguished reputation in the international academic community.

Author Profile

Scopus

🌟 Summary of Suitability for the Research for Best Researcher Award

Dr. Baiyu Ren’s academic and research achievements make her a strong candidate for the Research for Best Researcher Award. With a robust educational foundation, including her Ph.D. from RMIT University, Australia, and earlier degrees from Beijing Institute of Technology, Dr. Ren has demonstrated a deep commitment to advancing knowledge in the fields of electrocatalysis and electrochemical detection. These areas are pivotal for various applications, such as energy conversion and environmental monitoring, showcasing her research’s relevance and impact.

Her publication record further highlights her qualifications, with over 20 research papers published in prestigious and high-impact journals such as Advanced Functional Materials, Advanced Science, and the Chemical Engineering Journal. These publications reflect her ability to contribute cutting-edge findings to the scientific community.

🎓 Education 

Dr. Baiyu Ren’s educational journey reflects her pursuit of academic excellence. She began her studies at Beijing Institute of Technology (BIT), where she earned a bachelor’s degree in Materials Science and Engineering in 2010. Building on her foundational knowledge, she pursued a master’s degree at the same institution, graduating in 2013 with a focus on material processing and electrochemical systems. Seeking to broaden her expertise and embrace a global perspective, Dr. Ren joined RMIT University, Australia, for her doctoral studies. In 2019, she earned her PhD in Chemistry, specializing in electrocatalysis and electrochemical detection. During her doctoral program, she honed her research skills, focusing on renewable energy applications and advanced material design. Dr. Ren’s strong academic foundation and diverse international experience have equipped her with a unique perspective, enabling her to contribute significantly to cutting-edge research in energy and materials science.

💼 Professional Experience 

Dr. Baiyu Ren is a distinguished Assistant Professor at Southwest Jiaotong University, where she has been shaping the future of energy research and education. With expertise in electrocatalysis and electrochemical detection, she leads groundbreaking projects aimed at advancing sustainable energy technologies. Prior to her academic role, Dr. Ren gained substantial research experience during her PhD at RMIT University, where she collaborated with multidisciplinary teams on projects that bridged chemistry, materials science, and engineering. Her professional journey also includes postdoctoral research that focused on developing novel materials for renewable energy applications. Beyond research, Dr. Ren has a strong commitment to teaching and mentoring, guiding students toward achieving academic excellence. She frequently presents her findings at international conferences and workshops, fostering global collaborations. With a proven track record of impactful publications and innovative projects, Dr. Ren continues to influence the field of materials science and renewable energy solutions.

🏅 Awards and Recognitions 

Dr. Baiyu Ren’s outstanding contributions to science and education have earned her numerous accolades. She has been recognized for her impactful research in electrocatalysis and energy solutions, receiving prestigious awards such as the “Young Scientist Excellence Award” for Renewable Energy Research in 2021. During her doctoral studies, she was honored with the RMIT International Research Scholarship for her groundbreaking contributions to advanced materials. Additionally, Dr. Ren’s papers have been awarded “Best Paper Presentation” at several international conferences, showcasing her ability to communicate complex ideas effectively. In her role as a mentor, she has been recognized for excellence in teaching and student supervision, receiving departmental awards at Southwest Jiaotong University. Her dedication to sustainability and energy innovation has also been acknowledged through research grants and fellowships. These accolades reflect her passion for advancing knowledge and her influential role in shaping the future of energy research.

🌍 Research Skills On Energy

Dr. Baiyu Ren possesses exceptional research skills in materials science, focusing on electrocatalysis and electrochemical detection. Her expertise lies in synthesizing and characterizing advanced materials for renewable energy applications. Proficient in various techniques, including cyclic voltammetry, impedance spectroscopy, and material surface analysis, she excels at evaluating catalytic activity and optimizing reaction conditions. Dr. Ren’s analytical acumen enables her to identify innovative approaches to address global energy challenges. She is highly skilled in designing and implementing experiments, analyzing data, and interpreting complex phenomena. Her collaborative spirit has led to interdisciplinary research projects with chemists, engineers, and physicists. Additionally, she is adept at securing funding, drafting research proposals, and managing projects. Dr. Ren’s publication record demonstrates her ability to present findings in a clear, impactful manner. Her dedication to solving real-world problems through innovative materials research underscores her role as a leader in the scientific community.

📖 Publication Top Notes

1. Flexoelectricity Modulated Electron Transport of 2D Indium Oxide
  • Authors: Hu, X.; Yu Chen, G.; Luan, Y.; Cheng, Y.F.; Ou, J.Z.
  • Year: 2024
  • Citations: 0
  • Journal: Advanced Science, 11(33), 2404272
2. 3D substoichiometric MoO3−x/EGaln framework for room temperature NH3 gas sensing
  • Authors: Wang, X.X.; Li, Z.; Yang, Y.; Ren, B.Y.; Ou, J.Z.
  • Year: 2023
  • Citations: 17
  • Journal: Journal of Alloys and Compounds, 939, 168690
3. Liquid elementary metals and alloys: Synthesis, characterization, properties, and applications
  • Authors: Afrin, S.; Haque, E.; Ren, B.; Ou, J.Z.
  • Year: 2023
  • Citations: 9
  • Journal: Applied Materials Today, 31, 101746
4. Single-step salt-template-based scalable production of 2D carbon sheets heterostructured with nickel nanocatalysts for lowering overpotential of hydrogen evolution reaction
  • Authors: Yi, Q.; Ren, B.; Han, P.; Thammakhet-Buranachai, C.; Ou, J.Z.
  • Year: 2023
  • Citations: 5
  • Journal: Journal of Colloid and Interface Science, 629, pp. 960–969
5. A Single-Step-Grown Semiconducting vdW Heterostructure of Tungsten Oxide – Sulfide for High-Performance Photodetection
  • Authors: Chen, G.; Hu, X.; Gu, M.; Zhang, B.Y.; Ou, J.Z.
  • Year: 2022
  • Citations: 12
  • Journal: Advanced Functional Materials, 32(41), 2202239
6. Recent advances in the tuning of the organic framework materials – The selections of ligands, reaction conditions, and post-synthesis approaches
  • Authors: Afrin, S.; Khan, M.W.; Haque, E.; Ren, B.; Ou, J.Z.
  • Year: 2022
  • Citations: 19
  • Journal: Journal of Colloid and Interface Science, 623, pp. 378–404
7. MOF-Derived Zero-Dimensional Cu3P Nanoparticles Embedded in Carbon Matrices for Electrochemical Hydrogen Evolution
  • Authors: Ren, B.; Yi, Q.; Yang, F.; Li, Z.; Ou, J.Z.
  • Year: 2022
  • Citations: 12
  • Journal: Energy and Fuels, 36(15), pp. 8381–8390
8. Core-shell PPy@TiO2 enable GO membranes with controllable and stable dye desalination properties
  • Authors: Yu, H.; He, Y.; Li, H.; Cheng, Y.; Ou, J.Z.
  • Year: 2022
  • Citations: 17
  • Journal: Desalination, 526, 115523
9. 3D micro-combs self-assembled from 2D N-doped In2S3 for room-temperature reversible NO2 gas sensing
  • Authors: Cheng, Y.; Li, Z.; Tang, T.; Chen, H.; Ou, J.Z.
  • Year: 2022
  • Citations: 29
  • Journal: Applied Materials Today, 26, 101355
10. CoNi Layered Double Hydroxide Nanosheets Vertically Grown on Electrodeposited Dendritic Copper Substrates for Supercapacitor Applications
  • Authors: Ren, B.; Zhang, B.Y.; Zhang, H.; Jeerapan, I.; Ou, J.Z.
  • Year: 2022
  • Citations: 23
  • Journal: ACS Applied Nano Materials, 5(2), pp. 2395–2404

Prof. Dr. Haiyan Wang | Statistics | Best Researcher Award

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Prof. Dr. Haiyan Wang | Statistics | Best Researcher Award

Prof. Dr. Haiyan Wang, Kansas State University, United States

Professor Haiyan Wang, based at Kansas State University, is an esteemed academic in the Department of Statistics. With a Ph.D. from The Pennsylvania State University (2004), she has developed a robust research profile in statistical methods, specializing in nonparametric techniques for big data, image analysis, and high-dimensional data studies. Her scholarly journey encompasses profound contributions to advancing rank tests, functional data analytics, and data mining. At Kansas State University, Professor Wang has risen through the ranks from Assistant Professor to a full Professorship, illustrating her steadfast commitment to academic excellence and statistical innovation. Her research impacts not only theoretical statistics but also practical applications in data science, fostering collaboration across various disciplines. With a passion for teaching and mentoring, she continues to shape future statisticians while driving forward significant breakthroughs in her field.

Professional Profile

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Summary of Suitability for the Research for Best Researcher Award

Professor Haiyan Wang, a distinguished researcher in the Department of Statistics at Kansas State University, brings a wealth of expertise in statistical methods that are highly relevant in the current era of big data. Her research contributions span several critical areas, including nonparametric methods for big data, high-dimensional data analysis, image analysis, and computational statistics. These research domains are crucial in addressing the challenges posed by the explosion of data in science and industry, making her work both timely and impactful.

🎓   Education

Haiyan Wang earned her Ph.D. in Statistics from The Pennsylvania State University in 2004, where she focused on testing in multifactor heteroscedastic ANOVA and repeated measures designs with a large number of levels. Under the guidance of Professor Michael G. Akritas, she honed her expertise in statistical modeling and data analysis. Prior to her doctoral studies, she completed both her Master of Science (1999) and Bachelor of Science (1996) degrees at Beijing University, China. Her education laid a strong foundation for her analytical acumen, blending rigorous theoretical knowledge with applied methodologies. Through her studies, Professor Wang gained proficiency in complex statistical approaches, equipping her to tackle challenges in high-dimensional data, computational statistics, and advanced nonparametric techniques, which have become central to her research and academic endeavors.

💼  Professional Experience

Haiyan Wang began her academic career as a Graduate Teaching Assistant at The Pennsylvania State University from 1999 to 2003, transitioning to a Graduate Research Assistant role until 2004. She joined Kansas State University as an Assistant Professor in 2004, where she demonstrated exceptional research and teaching capabilities. Her commitment earned her tenure as an Associate Professor in 2010. In 2016, she was promoted to Professor, a testament to her continued excellence in statistical research and academic service. Throughout her career, she has actively engaged in teaching, curriculum development, and mentorship, shaping the future of statistics students. Her professional journey is marked by significant scholarly output, leadership roles in research collaborations, and active involvement in academic and research committees, further enhancing the reputation of Kansas State University in the field of statistics.

🏅 Awards and Recognition

Professor Haiyan Wang has received several accolades acknowledging her contributions to statistics and academia. Her research, often groundbreaking in nonparametric and high-dimensional data analysis, has been recognized through grants and publication awards. Her ability to innovate in computational and data-driven statistical methods has drawn acclaim from academic peers and professional organizations. In addition to research honors, she has been celebrated for her excellence in teaching and mentorship, fostering a new generation of statisticians and researchers. As a leading scholar at Kansas State University, she has also been acknowledged for her contributions to cross-disciplinary projects that leverage statistical analysis for broader scientific discoveries, securing her place as a respected voice in the global statistical community.

🌍   Research Skills

Professor Wang’s research skills are diverse and comprehensive. She specializes in nonparametric methods for big data analysis, including techniques for high-dimensional datasets, image analysis, and the development of rank tests. Her expertise extends to longitudinal and functional data analysis, crucial for understanding time-dependent and complex structured data. She is also adept in computational methods, utilizing advanced algorithms to facilitate large-scale data mining. Her skill set includes analyzing clustered and structured data, essential for applications in bioinformatics and social sciences. A visionary researcher, she combines rigorous theoretical development with practical applications, pushing the boundaries of what is possible in statistical analysis, machine learning, and big data interpretation.

📖 Publications Top Notes

  • Title: New two-sample tests for skewed populations and their connection to theoretical power of Bootstrap-t test

 

Assoc. Prof. Dr. Ozra Tabatabaei-Malazy | Medicine | Best Researcher Award

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Assoc. Prof. Dr. Ozra Tabatabaei-Malazy | Medicine | Best Researcher Award

Assoc. Prof. Dr. Ozra Tabatabaei-Malazy, Tehran University of Medical Sciences, Iran.

Dr. Ozra Tabatabaei Malazy is a distinguished researcher and academic in endocrinology and metabolism, associated with the Tehran University of Medical Sciences (TUMS) Endocrinology & Metabolism Research Institute (EMRI). Born in Iran in 1966, Dr. Tabatabaei has dedicated her career to improving clinical and public health outcomes, particularly in diabetes and metabolic disorders. With an impressive h-index of 23 (Scopus) and 33 (Google Scholar), she has contributed significantly to scientific knowledge through her expertise in clinical trials, cross-sectional studies, and meta-analyses. Her academic achievements include an MD, MPH, and PhD in Pharmacology, culminating in her current position as Assistant Professor. Dr. Tabatabaei’s influence extends to editorial roles in prominent journals, reflecting her commitment to advancing research quality and ethics. Her work is characterized by a focus on translating research into effective treatments and preventive measures, particularly for non-communicable diseases prevalent in Iran and worldwide.

Professional Profile

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summary of suitability for Best Researcher Award

Dr. Ozra Tabatabaei Malazy demonstrates an impressive track record in medical research, particularly in endocrinology and metabolism. Her extensive educational background, including an MD, an MPH focused on Knowledge Transfer Exchange, and a PhD in Pharmacology, aligns well with the research and clinical demands of the field. With over two decades of dedicated research experience at Tehran University of Medical Sciences, she has contributed to numerous studies on topics like diabetes, metabolic disorders, oxidative stress, and systematic reviews of therapeutic interventions. Her ongoing involvement in research projects, particularly in clinical trials, cross-sectional studies, and meta-analyses, highlights her commitment to advancing scientific knowledge and clinical practices.

🎓 Education 

Dr. Tabatabaei Malazy’s educational background underscores her dedication to both medical practice and research. She earned her General Medical Doctor (MD) degree in 1993, providing a strong foundation in clinical medicine. In 2006, she pursued a Master of Public Health (MPH) at Tehran University of Medical Sciences (TUMS), where her dissertation focused on Knowledge Transfer Exchange (KTE), a critical area for implementing research findings into healthcare practice. Driven by her passion for pharmacology and therapeutic interventions, she further advanced her academic qualifications with a PhD in Pharmacology in 2016. These degrees equipped her with the skills to integrate clinical insights with a population health perspective, fostering her development as a versatile researcher. Today, as an Assistant Professor, Dr. Tabatabaei combines her expertise in medicine, public health, and pharmacology to contribute to the fields of endocrinology and metabolism through her research and clinical trials.

💼    Experience 

Dr. Tabatabaei has a robust career in endocrinology and metabolism, with over two decades at the Tehran University of Medical Sciences’ Endocrinology & Metabolism Research Institute (EMRI). Since 1998, she has served as a research fellow, contributing to groundbreaking research in diabetes and lipid disorders. Additionally, she has been an active reviewer for journals like Iranian Journal of Diabetes & Lipid Disorders and Plos One, among others. Her influence extends to editorial roles, including Section Editor for the Journal of Diabetes and Metabolic Disorders and Plos One. Dr. Tabatabaei’s contributions are enriched by her membership on EMRI’s peer-review committee and her involvement as a guest editor. These positions showcase her commitment to advancing scientific standards. Through her editorial and peer-review work, Dr. Tabatabaei is shaping the quality of research published in her field, ensuring its relevance and integrity in endocrinology and metabolic sciences.

🏅Awards and Honors 

Dr. Tabatabaei’s outstanding contributions to endocrinology and metabolism have earned her numerous awards and honors, recognizing her influence in clinical research. Her editorial appointments across renowned journals such as Plos One and the Journal of Diabetes and Metabolic Disorders underline her authority in the field. Additionally, Dr. Tabatabaei’s role as a guest editor for Frontiers in Endocrinology highlights her expertise and leadership in metabolic research. Her efforts in reviewing and overseeing high-impact research have further contributed to her esteemed status within the academic community. With her impressive h-index metrics—23 in Scopus and 33 in Google Scholar—she is well-regarded for her scholarly impact. Dr. Tabatabaei’s recognitions underscore her commitment to advancing research and influencing global health perspectives, particularly within endocrinology and non-communicable disease prevention.

🌍   Research Focus 

Dr. Tabatabaei’s research primarily centers on non-communicable diseases, particularly diabetes and metabolic disorders. Her studies explore the underlying mechanisms of these conditions, emphasizing risk factors, preventive measures, and therapeutic interventions. Dr. Tabatabaei has contributed to numerous clinical trials and cross-sectional studies, providing valuable insights into the epidemiology and management of metabolic diseases. Her work often includes systematic reviews and meta-analyses, establishing her as a pivotal figure in evidence-based medicine. Dr. Tabatabaei is also actively involved in scientometric studies that analyze research trends and their impact on healthcare practices. Her commitment to research extends to the field of pharmacology, where she examines the effects of natural and synthetic compounds on metabolic health. Through her extensive research, Dr. Tabatabaei aims to develop practical solutions for managing and mitigating the global burden of diabetes and related metabolic disorders.

📖 Publication Top Notes

  • Title: Nurses’ role in diabetic foot prevention and care; a review
    Citation: 259
  • Title: New horizons in treatment of osteoporosis
    Citation: 211
  • Title: Global burden of 288 causes of death and life expectancy decomposition in 204 countries and territories and 811 subnational locations, 1990–2021: a systematic analysis for the …
    Citation: 185
  • Title: Global incidence, prevalence, years lived with disability (YLDs), disability-adjusted life-years (DALYs), and healthy life expectancy (HALE) for 371 diseases and injuries in …
    Citation: 161
  • Title: Global burden and strength of evidence for 88 risk factors in 204 countries and 811 subnational locations, 1990–2021: a systematic analysis for the Global Burden of Disease .
    Citation: 149

Dr. Fatima Ezzahra BELHARCHA | Corrosion | Best Researcher Award

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Dr. Fatima Ezzahra BELHARCHA | Corrosion | Best Researcher Award

Dr. Fatima Ezzahra BELHARCHA, Ibn Tofail University, Morocco

Fatima Ezzahra Belharcha, born on October 21, 1989, in Marrakech, Morocco, is a distinguished researcher in physical chemistry with a specialization in corrosion inhibition and environmental chemistry. She holds a State Doctorate from Ibn Tofail University, Kenitra, Morocco, achieved in 2023, following her Master’s degree in Functional Materials and her Bachelor’s in Physical Chemistry of Materials from Caddy Ayyad University. Fatima has actively contributed to preserving cultural heritage through corrosion resistance research, focusing on archaeological conservation. As a patent-holder and a skilled advisor in intellectual property, she offers valuable expertise to SB ENERGIE and serves as an administrator at the Ibn Tofail University’s Center for Analysis and Technology Transfer. Fatima’s commitment to academia and environmental preservation is evident in her ongoing research and teaching efforts, particularly in materials science and conservation.

Professional Profile

scopus

Summary of Suitability for the Research for Best Researcher Award

Dr. Fatima Ezzahra Belharcha demonstrates remarkable depth in research and innovation within the fields of physical chemistry and materials science, specifically focusing on corrosion protection for historical artifacts and the conservation of iron-wood composites. Her expertise is evidenced through multiple patents aimed at advanced formulations for corrosion inhibition, highlighting her innovative contributions to this niche area in materials preservation. Additionally, Dr. Belharcha has co-authored published research on electrochemical behavior and corrosion resistance, providing insights that blend practical conservation needs with scientific rigor. Her patents, including those for anticorrosion and antifungal compositions, underscore her commitment to safeguarding cultural heritage, while her hands-on roles in academic and professional capacities demonstrate her strong project management and technical expertise.

🎓 Education

Fatima Ezzahra Belharcha’s academic journey is marked by her extensive studies in physical chemistry and materials science. She earned her State Doctorate Diploma in 2023 from Ibn Tofail University, Kenitra, with a focus on Physical Chemistry and Environment. Prior to this, she completed a Technical Master in Functional Materials in 2014 and a Bachelor’s degree in Physical Chemistry of Materials in 2012 from Caddy Ayyad University, Marrakech. Her foundational education began with a Deust in Mathematics, Computer Science, Physics, and Chemistry in 2011, and she graduated with a Baccalaureate in Experimental Science in 2008. Fatima’s academic background is underpinned by a dedication to understanding environmental conservation through materials science, preparing her for a career centered on impactful research and technological innovation in material corrosion protection.

💼  Experience

Fatima has been an administrator at the Center for Analysis and Technology Transfer at Ibn Tofail University since 2016, where she manages various academic responsibilities, including roles as a Patent Filing Focal Point and as the DRX and FTIR specialist. Her efforts extend to project management, entrepreneurship incubation, and technological expertise transfer. Since 2018, she has contributed as a member of the National Network of Expert-Valuators and has offered her intellectual property and R&D advisory expertise to SB ENERGIE. Recently, she has served as an advisor and researcher with the Centre Technique de Plasturgie et de Caoutchouc. With her cross-functional roles, Fatima brings extensive experience in overseeing critical analysis projects, incubating innovative solutions, and driving intellectual property development in corrosion protection for historical preservation.

🏅Awards and Honors

Fatima Ezzahra Belharcha has earned notable recognition in physical chemistry and materials science, with several patents registered in corrosion inhibition formulations. Her most significant patents include unique anticorrosion and antifungal compositions tailored for the preservation of metal-wood archaeological artifacts. These patents showcase her innovation in developing eco-friendly corrosion inhibitors using polyethylene glycol. She has also presented her research internationally, such as at the Virtual Conference on Chemistry and its Applications in 2020 and at a conference in 2022, focusing on corrosion resistance in archaeological conservation. Her pioneering contributions are recognized nationally, where she has played a vital role in intellectual property advisement and materials conservation, bridging academia and industry.

🌍  Research Focus

Fatima’s research is centered on corrosion inhibition and materials conservation, particularly for archaeological and historical artifacts. Her work investigates electrochemical behaviors and corrosion-resistant treatments for metal-wood composites, utilizing polyethylene glycol-based formulations that offer antifungal and visual quality-indicator properties. These formulations play a crucial role in preserving artifacts from corrosion in neutral media. In collaboration with the Centre Technique de Plasturgie et de Caoutchouc and SB ENERGIE, she is also exploring biofongicides and corrosion inhibitors for industrial applications. Fatima’s research aims to advance sustainable conservation techniques, providing essential solutions for heritage preservation while reducing environmental impact.

📖 Publication Top Notes

  • Title: “Long-term electrochemical and biological study of archaeological iron-wood composite impregnated with 10% PEG-200 solution”
  • Title: “Electrochemical Behavior and Corrosion Resistance of Steel in Waterlogged Archaeological Wood Impregnation Solutions: Effect of Operating Parameters and Corrosion Products”

Ms. BAMULI SWAPNA | computer science | Women Researcher Award

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Ms. BAMULI SWAPNA | computer science | Women Researcher Award

Ms. BAMULI SWAPNA, VAAGDEVI DEGREE AND PG COLLEGE, India

Pursuing a Ph.D. at SR University, Warangal, since 2023, [Name] has established herself as a dedicated scholar and educator in Computer Science and Engineering. She holds an M.Tech from CVSR Engineering College (2011) and an M.Sc in Computer Science from Kakatiya University (2008). Her academic journey began with a B.Sc from Chaitanya Degree and P.G College (2006) and includes intermediate studies at S.V.S Junior College for Girls. Throughout her career, she has been actively involved in research and teaching, focusing on innovative approaches in machine learning and wireless sensor networks. Recognized for her contributions to academia, she has earned several awards and accolades, including the Best Women Faculty Award and the Dr. Sarvepalli Radhakrishnan Best Teacher & Researcher Award in Computer Science (2024). [Name] continues to inspire students and colleagues alike, making significant strides in her field.

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Summary of Suitability for the Research for Women Researcher Award

The candidate’s comprehensive background in research, teaching, and professional development aligns strongly with the Research for Women Researcher Award. Her dedication to advancing her knowledge and supporting the academic community makes her a strong candidate for this recognition. Her achievements and continuous efforts in research and professional development showcase her suitability, and she stands as an inspiring figure in the realm of computer science research for women.

🎓  Education 

[Name] has an impressive educational background in Computer Science and Engineering. She is currently pursuing her Ph.D. at SR University, Warangal (2023). She completed her M.Tech in Computer Science and Engineering in 2011 from CVSR Engineering College, affiliated with JNTU University in Hyderabad. Prior to that, she earned her M.Sc in Computer Science from Kakatiya University in 2008. Her undergraduate education includes a B.Sc degree obtained in 2006 from Chaitanya Degree and P.G College, also affiliated with Kakatiya University. She completed her Intermediate studies in 2003 at S.V.S Junior College for Girls, Warangal. Her foundational education began at St. Ann’s High School in Karimnagar, where she completed her Secondary School Certificate in 2001. This comprehensive educational background has equipped [Name] with a strong theoretical and practical foundation in computer science, enabling her to contribute meaningfully to research and academia.

💼 Experience 

[Name] has a wealth of experience in academia, with a focus on teaching and research in Computer Science and Engineering. Currently pursuing her Ph.D., she has worked as a faculty member and researcher, contributing significantly to the field. Her research interests include machine learning, wireless sensor networks, and optimization techniques. [Name] has also been involved in organizing various workshops and conferences, such as the Refresher Course on Database Security and workshops on research methodology, demonstrating her commitment to education and professional development. In addition to her teaching responsibilities, she has participated in numerous online courses, enhancing her expertise in data structures, machine learning, and wireless communications. Her active engagement in academia and research has not only contributed to her professional growth but has also inspired her students and peers. With her diverse experience, [Name] is well-equipped to tackle complex challenges in her field and drive innovation.

🏅   Awards and Honors 

[Name] has received several prestigious awards and honors throughout her academic career, reflecting her dedication and excellence in the field of Computer Science and Engineering. She was awarded the Best Women Faculty Award by Novel Research Academy, recognizing her exceptional contributions to education. In 2024, she received the Dr. Sarvepalli Radhakrishnan Best Teacher & Researcher Award in Computer Science, underscoring her impact as an educator and researcher. Additionally, she has been recognized as an Editorial Reviewer member in the International Journal of Innovative Research in Technology, showcasing her expertise and commitment to advancing research in her field. Her accolades serve as a testament to her hard work, dedication, and passion for teaching and research. [Name] continues to inspire her students and colleagues, fostering an environment of innovation and academic excellence within the educational community.

🌍   Research Focus 

[Name]’s research focus centers on the intersection of machine learning and wireless sensor networks, with an emphasis on optimizing data transmission and improving network security. She is particularly interested in leveraging machine learning techniques to enhance the performance of sensor nodes and develop efficient intrusion detection systems. Her work addresses critical challenges in agriculture and infrastructure, contributing to the broader goal of integrating renewable energy solutions into these sectors. [Name] has published several research papers in reputable journals, exploring topics such as sentiment analysis, packet transmission, and security in wireless networks. Through her innovative research, she aims to develop practical applications that can significantly impact real-world challenges, particularly in renewable energy integration. As she continues her Ph.D. studies, [Name] seeks to further her contributions to the field and inspire future generations of researchers in Computer Science and Engineering.

📖 Publication Top Notes

  • Title: A Reliable and Energy-Efficient Routing Transport Protocol for Distributed Wireless Sensor Networks
  • Title: Scalable Network Architectures for Distributed Wireless Sensor Networks
  • Title: Improving Security In Wireless Sensor Networks Through Machine Learning–Based Intrusion Detection System
  • Title: Integrating Machine Learning with Wireless Sensor Networks in Agriculture
  • Title: Improving Performance of Cost-Effective Sensor Nodes With Machine Learning Field Calibration Method

Mr. Enock Yeng | Research | Excellence in Research

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Mr. Enock Yeng | Research | Excellence in Research

Mr. Enock Yeng, Liberty University, United States

Enock Yeng, a Doctor of Philosophy in Education (Curriculum and Instruction) candidate at Liberty University, is a visionary educator, researcher, and leader renowned for his trailblazing contributions to the field of education. Holding multiple prestigious certifications from esteemed global institutions, Enock has distinguished himself as a champion of educational innovation. As a consummate educator at Milwaukee Public Schools, Enock’s expertise spans mathematics, social studies, and English language arts, complemented by his mentorship and technology integration initiatives. His pioneering spirit led to the establishment of Eduhub Consultancy Services, providing expert guidance on educational policy, curriculum development, and leadership. Enock’s commitment to educational excellence has garnered international recognition, solidifying his position as a thought leader shaping the future of education globally. His groundbreaking research and interdisciplinary approach have fostered transformative educational reforms.

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Summary of Suitability for the Award

Enock Yeng’s extensive academic background, professional experience, and commitment to educational research position him as a strong candidate for the Research for Excellence in Research Award. He is a PhD candidate in Education (Curriculum and Instruction) at Liberty University and holds multiple certifications from prestigious institutions globally, including the University of Hong Kong, Erasmus University, and the University of Illinois. His expertise spans curriculum development, instructional strategies, educational leadership, and research methodologies, showcasing his commitment to advancing educational research. Enock’s groundbreaking work has the potential to significantly impact educational landscapes, making him an outstanding contender for this award.

🎓  Education

Enock Yeng’s exemplary academic trajectory demonstrates an unwavering commitment to scholarly excellence and continuous professional development. Currently, a Doctor of Philosophy candidate in Education (Curriculum and Instruction) at Liberty University, his academic credentials also include a Master of Philosophy in Education and a Bachelor of Education from the University of Education, Winneba. Mr. Yeng’s foundational education was established through a General Arts program at Lawra High School, preceded by Middle and Primary Education at T.I Ahmadiyya Basic School and Great Provider Academy, respectively. Furthermore, Enock has participated in esteemed international exchange programs, notably the Tri-Continental Teacher Training Exchange at the University of Hamburg, Germany, and a Commonwealth of Learning Scholarship in Canada. These global engagements have significantly enhanced his expertise and capacity to promote innovative educational leadership. Enock Yeng’s distinguished academic background, characterized by a dedication to excellence and global perspectives, distinguishes him as a leading educator and researcher.

💼    Experience 

Enock Yeng brings over a decade of diverse experience in educational leadership, pedagogy, and policy development. His expertise spans multiple roles, demonstrating his exceptional breadth of knowledge. Currently, as an educator at Milwaukee Public Schools, Enock designs and implements mathematics, social studies, and English language arts curricula. Concurrently, he spearheads digital integration initiatives to enhance student engagement. Preceding his current role, Enock served as a lecturer at the University of Education, Winneba’s College of Distance Education and e-Learning. There, he instructed early-grade education courses and mentored students. Additionally, he contributed to the Ghana Education Service as Principal Superintendent, cultivating specialized instruction in Mathematics, Science, and Information and Communication Technology (ICT). As the visionary Founder and Executive Director of Eduhub Consultancy Services, Enock provides expert consultancy on educational policy formulation, curriculum design, and leadership development. He also delivers professional training programs for educators nationwide, fostering capacity building and instructional excellence. Internationally, Enock has served as an exchange educator and researcher at the University of Hamburg. He contributed to bilateral education policy initiatives and cultural exchange programs between Ghana and Germany, broadening his global perspective. Furthermore, Enock holds key positions in academic publishing and conference planning. He serves as Editorial Secretary for the International Multidisciplinary Journal of Research and Education (IMJRE) and Secretary for the Committee of International Multidisciplinary Conference for Postgraduate Students at the University of Education, Winneba. Enock’s extensive experience, marked by leadership, instructional expertise, and policy acumen, distinguishes him as a pioneering force in education.

🏅  Awards and Honors 

Enock Yeng’s dedication to education and leadership has earned him numerous awards and honors throughout his career. Notably, he has been awarded as a Fellow of the Scholars Academic and Scientific Society and Dignitary Fellow of the International Organization for Academic and Scientific Development. He holds prestigious international certifications, including a Certificate in University Teaching from the University of Hong Kong and a Certificate in Assessment for Learning from the University of Illinois. His contributions to distance education and educational reform have been recognized with esteemed accolades, such as the Commonwealth of Learning Scholarship from Canada and the Tri-Continental Teacher
Training Exchange Program in Germany. Eduhub Consultancy Services has achieved accreditation by the National Teaching Council, further affirming its impact on education. Enock has presented at premier global conferences, leveraging his expertise to shape the future of education through innovative teaching methods and informed policy reforms.

🌍   Research Focus 

Enock Yeng’s research focuses on the intersection of educational theory, policy reform, and innovative teaching methodologies. He is particularly interested in curriculum design, instructional strategies, and the integration of technology to enhance student learning outcomes. His work emphasizes the need for differentiated assessment and inclusive education, aiming to improve educational access and quality for diverse student populations. Enock is also invested in
the advancement of distance education, contributing to the development of online learning programs that reach underserved communities. His research has explored the effectiveness of project-based learning and flipped classroom techniques, as well as the role of emotional intelligence in educational leadership. Enock’s commitment to evidence-based policy reforms has led him to collaborate with national and international educational institutions, shaping best practices in education. His research is widely published in peer-reviewed journals, contributing to the global discourse on education innovation.

 📖 Publication Top Notes

  • Assessment of supervision in public basic schools in northern Ghana: the case of Lambussie-Karni District
    Cited by: 6
  • The Influence of Teachers’ Familiarity on Competency in Integrating Instructional Technology in Mathematics Teaching
    Cited by: 2
  • Relationship between Familiarity and Competency in Integrating Information and Communication Technology into Mathematics Instruction
    Cited by: 1
  • A Multilevel Analysis of the National Teachers’ Standards’ Impact on Mathematics Teachers’ Instructional Practices
  • Examining Teachers’ Use of Play-Based Pedagogy in Mathematics Learning in Basic Schools

Dr. MENGYING YAN | biomaterial | Women Researcher Award

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Dr. MENGYING YAN | biomaterial | Women Researcher Award

Dr. MENGYING YAN, The Brain Cognition and Brain Disease Institute, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, China

Mengying Yan is an accomplished researcher specializing in neural interface materials, bio-3D printing, and cell culture technology. She holds a Ph.D. in Pharmaceutical, Food, and Cosmetic Sciences from the University of Genoa, Italy, and has extensive experience in food science and nutrition. Mengying’s career spans over five years in academic and research environments, primarily at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences. She has worked as an assistant researcher and postdoctoral fellow, focusing on cutting-edge materials for neural interfaces and flexible electronic materials. Fluent in Italian and English, Mengying’s linguistic and cross-cultural communication skills have been honed by her nine years of international experience. Her research contributions have led to numerous publications in high-impact journals, showcasing her expertise in materials science and bioengineering. Mengying also has a passion for art, particularly traditional Chinese painting, and enjoys integrating creativity into her scientific endeavors.

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Summary of Suitability for the Research for Women Researcher Award

Mengying Yan is a highly qualified candidate for the Research for Women Researcher Award. With over 10 years of academic and research experience in the fields of pharmaceutical, food, and cosmetic sciences, her expertise spans across cell culture, 3D printing, neural interface materials, and conductive polymers. She holds a Ph.D. from the University of Genoa, Italy, and has contributed to advanced research during her time as a postdoctoral researcher and assistant researcher at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences. Her research has resulted in several high-impact publications, and she has been recognized as a co-first author in notable journals like Advanced Healthcare Materials and ACS Applied Materials & Interfaces.

🎓   Education 

Mengying Yan’s academic journey reflects a deep commitment to science and research. She earned her Ph.D. in Pharmaceutical, Food, and Cosmetic Sciences from the University of Genoa, Italy, in 2018. During her doctoral studies, she focused on hydrogels for 3D cell culture, further expanding her expertise with an internship at the EU Institute on Membrane Technology (ITM-CNR), where she worked on developing drug-loaded microspheres using membrane emulsification techniques. Prior to this, Mengying completed her Master’s degree in Nutrition from the University of Calabria, Italy, and a Bachelor’s degree in Food Science and Engineering from Sichuan University, China. Her education equipped her with a comprehensive understanding of food science, membrane technology, and cellular systems. This strong foundation has been crucial in her current research work on neural interfaces and flexible materials, driving innovation and advancing the boundaries of biomedical technology.

💼   Experience 

Mengying Yan’s professional experience spans diverse areas of materials science and biomedical research. Currently, she serves as an Assistant Researcher at the Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, where she focuses on 3D cell culture systems, flexible electronic materials, and neural interface technologies. Previously, she completed a postdoctoral fellowship at the same institution, contributing to significant advancements in bio-3D printing and conductive ink development. Her responsibilities included daily laboratory management, training new employees, and overseeing the maintenance of sophisticated research equipment. Mengying’s hands-on expertise with instruments such as UV spectrophotometers, DSC, and electrochemical workstations has enabled her to excel in experimental research. Her extensive academic background and practical experience, combined with her organizational skills and technical proficiency, make her a well-rounded researcher with the ability to lead innovative projects in biomedical engineering.

🏅   Awards and Honors 

Mengying Yan’s academic and research excellence has been recognized through multiple awards and honors. During her doctoral studies at the University of Genoa, she received a prestigious research grant from the European Union’s Institute on Membrane Technology (ITM-CNR), which funded her innovative work on developing drug-loaded microspheres for therapeutic applications. Her contributions to neural interface technology and bio-3D printing have garnered attention in the scientific community, resulting in her being selected as a co-author in several high-impact publications. In addition to academic recognition, Mengying has been honored for her mentorship and leadership in guiding new researchers at the Shenzhen Institutes of Advanced Technology. Her proficiency in integrating advanced scientific techniques with practical applications has set her apart as a leader in her field, earning her accolades from both peers and institutions. Mengying’s achievements are a testament to her dedication, innovation, and contributions to biomedical research.

🌍   Research Focus 

Mengying Yan’s research focuses on the intersection of materials science and biomedical engineering, with a particular emphasis on neural interface technologies and 3D cell culture systems. She has made significant contributions to developing flexible electronic materials and conducting polymers that improve the electrode-neural interface, facilitating better communication between electronic devices and biological tissues. Mengying’s work also explores bio-3D printing and the creation of hydrogel scaffolds that mimic natural tissue environments, enabling more effective tissue engineering and regenerative medicine. Her research aims to solve critical challenges in neural interface systems, enhancing their integration with the human body for medical applications such as brain-computer interfaces. By combining materials innovation with biological applications, Mengying’s research holds promise for advancing treatments for neurodegenerative diseases and improving prosthetic technologies. Her interdisciplinary approach ensures her research stays at the forefront of biomedical advancements.

 📖 Publications Top Notes

  • Three-dimensional highly porous hydrogel scaffold for neural circuit dissection and modulation
  • Flexible and stretchable polymer optical fibers for chronic brain and vagus nerve optogenetic stimulations in free-behaving animals
  • Low‐Cost Paper‐Based Conducting Polymer‐Hydrogel Flexible Bio‐Radar Sensor for Detecting Biological Objects
  • Development of enzyme-loaded PVA microspheres by membrane emulsification
    Development and characterization of a mucoadhesive sublingual formulation for pain control: Extemporaneous oxycodone films in personalized therapy

     

Ms. Havva Mehralitabar | Biophysics | Women Researcher Award

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Ms. Havva Mehralitabar | Biophysics | Women Researcher Award

Ms. Havva Mehralitabar, Tarbiat modares university, Iran

Dr. Havva Mehralitabar Firozjah, born on December 2, 1985, is a distinguished biophysicist specializing in molecular dynamics simulations, peptide design, and nanotechnology. Currently a researcher at Sari Agricultural Sciences and Natural Resources University, Iran, she has made significant contributions to cancer research, bacterial and viral infections, and peptide-based therapeutic designs. With a strong academic foundation, Dr. Mehralitabar’s Ph.D. in Biophysics from Tarbiat Modares University centered on self-assembling peptide nanofibers, laying the groundwork for her innovative approaches in neural stem cell differentiation. Her work is marked by numerous high-impact publications and collaborations in computational biology and molecular simulations. As a researcher and educator, she has excelled in both wet lab and computational biology skills, mentoring students and contributing to interdisciplinary scientific advancements.

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Summary of Suitability for the Research for Women Researcher Award

Havva Mehralitabar Firozjah is an outstanding candidate for the Research for Women Researcher Award based on her impressive academic background, diverse research experience, and contributions to science. With a Ph.D. in Biophysics from Tarbiat Modares University and a focus on molecular dynamics, she has worked on pioneering projects in cancer, bacterial and viral infections, and nanotechnology. Her research skills, particularly in computational biology and molecular dynamics simulations, are extensive, covering critical areas like protein modeling, molecular docking, and bioactive peptide design.

🎓  Education 

Dr. Havva Mehralitabar Firozjah’s academic journey is marked by excellence and dedication to biophysics and molecular biology. She earned her Ph.D. in Biophysics (2013-2018) from Tarbiat Modares University, Tehran, where her thesis on self-assembling alkylated peptide nanofibers provided a unique perspective on neural differentiation. Before this, she completed her M.Sc. in Biophysics (2009-2012) at the Institute for Advanced Studies of Basic Sciences (IASBS), Zanjan, where she investigated the thermodynamic interactions between Doxorubicin and DNA. Dr. Mehralitabar also holds a B.Sc. in Plant Biology (2004-2008) from Alzahra University, Tehran. Her research focus spans molecular dynamics simulations and computational biology, and she has developed deep expertise in both theoretical and practical applications of biophysics, laying a strong foundation for her groundbreaking research in peptide-based therapeutic designs and biomolecular structures.

 💼    Experience

Dr. Havva Mehralitabar Firozjah has accumulated extensive research experience across various scientific domains. She is currently a researcher (2020-2023) at Sari Agricultural Sciences and Natural Resources University, focusing on in silico studies of lactoferrin mechanisms in cancer and bacterial infections. Prior to this, she served as a consultant (2018-2020) at Hakim Sabzevari University, guiding M.Sc. students in molecular dynamics simulations. As an adjunct professor (2019-2022), she taught advanced courses in system biology and molecular docking methods, further shaping young scientists. Her experience in both wet labs and computational biology makes her a versatile scientist, skilled in molecular simulations, peptide design, and biophysics research. Through multiple collaborations and supervisory roles, Dr. Mehralitabar has played a key role in advancing research in the field of molecular biology and nanotechnology.

🏅 Awards and Honors 

Dr. Havva Mehralitabar Firozjah’s contributions to biophysics have earned her numerous awards and recognitions. Notably, she secured 6th place in the National Ph.D. Entrance Exam (2013) out of 120 participants, showcasing her academic prowess. She has also served as a reviewer for the esteemed Journal of Computer in Biology and Medicine (2020-2022), underlining her expertise in computational biology. During her academic tenure, Dr. Mehralitabar received several honors for her innovative research in molecular dynamics simulations and peptide nanotechnology, including recognition from Tarbiat Modares University for her exceptional Ph.D. thesis on alkylated-peptide nanofibers. Additionally, her active participation in conferences and workshops has led to several poster presentations, contributing to her standing as a thought leader in her field. Her relentless pursuit of scientific excellence continues to make a significant impact on the biophysics research community.

🌍 Research Focus 

Dr. Havva Mehralitabar Firozjah’s research primarily revolves around molecular dynamics simulations, peptide design, and nanotechnology. Her work focuses on exploring the interactions between peptides and biological molecules to develop innovative therapeutic strategies. One of her most notable projects includes in silico studies of lactoferrin mechanisms, aiming to address cancer, bacterial, and viral infections. She also specializes in self-assembling peptides for neural stem cell differentiation, demonstrating the potential of biomaterials in regenerative medicine. Dr. Mehralitabar’s research extends into the structural dynamics of proteins, molecular docking, and simulations to understand how molecular structures influence biological functions. With extensive expertise in computational biology and hands-on molecular biology techniques, her work integrates theoretical approaches with practical lab results, making strides in drug design and biomolecular engineering.

📖 Publication Top Notes

  • A combination of bioactive and nonbioactive alkyl-peptides form a more stable nanofiber structure for differentiating neural stem cells: a molecular dynamics simulation survey
    Citations: 9
  • Abiraterone and D4, 3-keto Abiraterone binding to CYP17A1, a structural comparison study by molecular dynamic simulation
    Citations: 3
  •  The role of Wnt palmitoleylated loop conserved disulfide bonds in Wnt-frizzled complex structural dynamics: Insights from molecular dynamics simulations
    Citations: 1
  • The physicochemical properties role of a functionalized alkyl-peptide in nanofibre formation and neural progenitor cells viability and survival
    Citations: 1
  •  In vitro study of the expression of autophagy genes ATG101, mTOR and AMPK in breast cancer with treatment of lactoferrin and in silico study of their communication networks and …