Tag: Best Researcher Award

Shashi Bhushan, Computer Science, Best Researcher Award

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Doctorate Shashi Bhushan: Senior Lecturer at University Teknologi PETRONAS, Malaysia

Dr. Shashi Bhushan is a highly accomplished Associate Professor at Universiti Teknologi PETRONAS (UTP), Malaysia, affiliated with the Centre for Intelligent Signal and Imaging Research (CISIR). With a robust background in computer science and computational intelligence, he has established himself as a leading researcher in biomedical image processing and signal analysis. Over the years, Dr. Bhushan has developed an interdisciplinary research portfolio that integrates artificial intelligence, deep learning, and medical diagnostics. His work is dedicated to solving real-world problems in healthcare, focusing on automated systems for disease detection, classification, and decision support. He actively collaborates with national and international institutions and contributes as a reviewer and editor for several high-impact scientific journals.

Online Profiles

Google Scholar Profile

ORCID Profile

  • Citations: 703

  • h-index: 17

  • i10-index: 26

Dr. Shashi Bhushan maintains an active online academic presence through several platforms. His UTP official profile provides detailed information on his teaching, research interests, and institutional contributions. His Scopus profile showcases his indexed publications and citation metrics, reflecting the impact of his research. Through his Google Scholar page, readers can track his h-index, i10-index, and recent scholarly contributions. On ResearchGate, Dr. Bhushan actively shares preprints, project updates, and engages with the broader research community. These platforms collectively reflect his research influence and collaborative efforts.

Education

Dr. Bhushan holds a Doctor of Philosophy (Ph.D.) in Computer Science with a specialization in computational and biomedical systems. His doctoral work focused on the development of hybrid intelligent algorithms for image classification and signal processing, particularly in the domain of healthcare analytics. Prior to his Ph.D., he earned a Master’s degree and a Bachelor’s degree in Computer Science and Engineering, where he laid the foundational knowledge in programming, machine learning, and embedded systems. His academic training has enabled him to bridge the gap between traditional computing and next-generation intelligent systems for practical, high-impact applications.

Research Focus

Dr. Bhushan’s research primarily lies in the areas of computational intelligence, machine learning, biomedical image processing, and intelligent signal interpretation. His key interests include the development of AI algorithms for early disease detection, such as brain tumors, breast cancer, and neurodegenerative conditions. He also investigates EEG and ECG signal analysis for predictive diagnostics and real-time monitoring. His recent work focuses on convolutional neural networks (CNNs), hybrid feature extraction techniques, deep belief networks (DBNs), and fuzzy logic systems. With a commitment to practical relevance, his research often results in prototype systems and software tools for medical professionals and researchers.

Experience

Dr. Bhushan brings over 15 years of academic and research experience to his role as Associate Professor at Universiti Teknologi PETRONAS. Throughout his career, he has taken on responsibilities as a lecturer, supervisor, research leader, and technical committee member. He has supervised multiple Ph.D. and Master’s students, and he has published extensively in reputed journals and conferences. Dr. Bhushan has secured numerous research grants and has led projects involving AI-based healthcare applications and intelligent signal systems. Beyond research, he is also active in academic governance, curriculum development, and mentoring young researchers, contributing holistically to academic excellence.

Research Timeline

Dr. Bhushan’s research trajectory reflects continuous growth and innovation. From 2010 to 2015, during his Ph.D. years, he developed hybrid intelligent models for image processing. Between 2016 and 2019, he expanded his work into biomedical applications, specifically targeting brain imaging and EEG-based analysis. From 2020 onward, his focus has been on integrating deep learning with classical signal processing techniques to enhance the accuracy and speed of automated diagnostic systems. His recent work also includes AI-powered frameworks for real-time healthcare monitoring and cross-disciplinary projects involving industrial and academic partners.

Awards & Honors

Dr. Bhushan has received several accolades in recognition of his scholarly contributions. He has been awarded multiple Best Paper Awards at international IEEE and Scopus-indexed conferences. His innovative work in biomedical signal classification earned him research excellence awards from UTP and other collaborating institutions. He has also received prestigious grants and funding from government and industry for leading-edge projects in artificial intelligence and healthcare technology. His research impact is acknowledged globally through invitations as keynote speaker, session chair, and editorial board member of reputed journals.

Top-Noted Publication

Among Dr. Bhushan’s impactful publications, his paper titled “A hybrid model for brain tumor classification using convolutional neural networks and handcrafted features” published in Biomedical Signal Processing and Control stands out. This work combines deep learning with traditional feature extraction to create a robust diagnostic tool capable of classifying complex brain tumor types with high accuracy. The study is widely cited and has influenced subsequent research in AI-assisted medical imaging. It demonstrates Dr. Bhushan’s unique ability to merge theory with clinical relevance, leading to improved decision support tools in radiology and oncology.

  • Code-Switching ASR for Low-Resource Indic Languages: A Hindi-Marathi Case Study
    Authors: H Palivela, M Narvekar, D Asirvatham, S Bhusan, V Rishiwal, U Agarwal
    Published in: IEEE Access, 2025
  • Design and Study of Single Array and 2 x 2 Array Patch Array Antenna
    Authors: AR Sharmila, AK Singh, S Bhushan
    Published in: Proceedings of the 4th International Conference on Machine Learning, Advances in …, 2025
  • Beyond Blockchain: Reviewing the Impact and Evolution of Decentralized Networks
    Authors: RKYMK Shashi Bhushan, Sharmila Arunkumar, Neha Goel
    Published in: 2024
  • DeepSplice: A Deep Learning Approach for Accurate Prediction of Alternative Splicing Events in the Human Genome
    Authors: M Abrar, D Hussain, IA Khan, F Ullah, MA Haq, MA Aleisa, A Alenizi, …
    Published in: Frontiers in Genetics, 2024
  • Design and Study of Single Array and 2× 2 Array Patch Array Antenna
    Authors: A Rajeev, AK Singh, S Bhushan, DD Dominic
    Published in: International Conference on Machine Learning, Advances in Computing …, 2024

Andrea Darù, Chemistry, Best Researcher Award

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Doctorate Andrea Darù: Postdoc at The University of Chicago, United States

Andrea Darù, PhD, is a dedicated computational chemist with a deep passion for computational modeling and simulation across inorganic, organic, and biological systems. With over 10 years of experience, he specializes in porous materials design, including Metal-Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs), and other surface materials. Darù has a strong background in quantum chemistry techniques, such as density functional theory (DFT), ab initio methods, and Monte Carlo simulations, and has extended his expertise to machine learning applications in chemistry. His research focuses on the design of novel materials for catalysis and climate solutions, and he is motivated to bridge the gap between computational studies and experimental research. His interdisciplinary approach combines computational chemistry with cutting-edge experimental work, contributing to innovations in catalysis and sustainable energy.

Online Profiles

ORCID Profile

Education

Andrea completed his Ph.D. in Chemistry at KU Leuven in Belgium in 2020, specializing in non-noble metal catalysis and computational simulations of chemical reactions. His doctoral work was part of the Marie Skłodowska-Curie Initial Training Network project, Horizon 2020 NoNoMeCat, where he investigated the role of metal clusters in catalysis. Before his Ph.D., Andrea earned dual Master’s degrees in Chemistry from the University of Zaragoza (Spain) and University of Ferrara (Italy) in 2015 and 2013, respectively. His academic journey provided him with a strong foundation in computational chemistry, leading to his passion for applying computational methods to real-world challenges in catalysis and material science.

Research Focus

Andrea’s primary research interest lies in the computational design of porous materials, particularly Metal-Organic Frameworks (MOFs) and Covalent Organic Frameworks (COFs). His work is geared toward solving global challenges like sustainable energy, carbon capture, and water harvesting. By using advanced computational tools such as DFT, Monte Carlo simulations, and machine learning, he explores the thermo- and electro-catalytic processes in CO2 conversion, aiming to create novel materials for energy storage and environmental solutions. His other research areas include molecular qubits for quantum computing, catalysis mechanisms, and the development of tools for high-throughput screening of potential framework materials. He also curates extensive databases of porous materials, contributing to the open science movement.

Experience

Andrea Darù’s postdoctoral work at the University of Chicago (2022 – present) focuses on the development of generative tools for rapid identification and design of novel reticular frameworks, particularly those suited for CO2 conversion and water harvesting. His work has led to the conceptualization of a novel iron-sulfur-based coordination polymer for electrocatalysis, and his contributions to the field of COF design have influenced both academia and industry. Prior to this, Andrea was a Postdoctoral Associate at Scripps Research (2020 – 2022), where he led computational studies on metal-catalyzed reactions, optimizing reaction conditions and developing microkinetic models to understand catalytic mechanisms. His Ph.D. research at KU Leuven (2016 – 2020) focused on non-noble metal catalysis in cross-coupling reactions, uncovering new insights into the catalytic role of iron clusters, which challenged existing paradigms in catalysis. Andrea also completed an internship at Syngenta (Switzerland) in 2018, where he employed Fukui functions to develop descriptors for organic molecule databases.

Research Timeline

  • Dec 2022 – Present: Postdoctoral Researcher at The University of Chicago, working on developing generative tools for materials discovery, CO2 conversion catalysis, and COF-based atmospheric water harvesting.
  • Oct 2020 – Dec 2022: Postdoctoral Associate at Scripps Research (San Diego), focusing on computational modeling of metal-catalyzed reactions, including ligand design and microkinetic modeling.
  • Apr 2016 – Sep 2020: Doctoral Researcher at KU Leuven (Belgium), specializing in non-noble metal catalysis and computational simulations for cross-coupling reactions.
  • Jan – Mar 2018: Intern at Syngenta (Switzerland), developing a database of organic molecules using Fukui functions as molecular descriptors.

Awards & Honors

Andrea has been recognized for his excellence in research and mentorship. In 2024, he received the Maria Lastra Postdoctoral Scholar Excellence in Mentoring Award (Honorable Mention) from the University of Chicago, highlighting his commitment to fostering the next generation of scientists. In 2023, he earned a certificate in Entrepreneurship for Science and Medicine from the University of Chicago Booth School of Business, expanding his understanding of the commercial application of scientific research. Andrea also recently completed the AI Agents Fundamentals certification from Hugging Face in February 2025, reflecting his growing interest in the intersection of AI and computational chemistry.

Top-Noted Publication

Andrea Darù has authored several highly cited papers, particularly in the field of catalysis and porous materials design. Notably, his paper “Symmetry is the Key to the Design of Reticular Frameworks” (Advanced Materials, 2025) explores the role of symmetry in the rational design of reticular frameworks. Another highly impactful publication, “Pinpointing the Onset of Water Harvesting in Reticular Frameworks from Structure” (ACS Central Science, 2025), delves into the design principles that enable effective atmospheric water harvesting using COFs. His work on iron-catalyzed Kumada cross-coupling reactions, “Iron-catalyzed Kumada Cross-coupling Reaction Involving Fe8Me12- and Related Clusters: A Computational Study” (ACS Catalysis, 2022), challenged traditional concepts in metal catalysis and remains a reference in the field.

 

Symmetry is the Key to the Design of Reticular Frameworks
Advanced Materials | May 2, 2025 | DOI: 10.1002/adma.202414617

Contributors: Andrea Darù, John S. Anderson, Davide M. Proserpio, Laura Gagliardi

This paper discusses the crucial role of symmetry in the rational design of reticular frameworks (such as MOFs and COFs), providing computational insights into how symmetry can guide the creation of functional materials with tailored properties. The work aims to accelerate the discovery of novel materials with applications in catalysis and energy storage.

Designing Molecular Qubits: Computational Insights into First-Row and Group 6 Transition Metal Complexes
Preprint | April 8, 2025 | DOI: 10.26434/chemrxiv-2025-3tg1x-v3

Contributors: Arturo Sauza-de la Vega, Andrea Darù, Stephanie Nofz, Laura Gagliardi

This preprint provides valuable computational insights into the design of molecular qubits using first-row and group 6 transition metal complexes. The paper presents potential pathways for advancing quantum computing with molecular systems, offering a deep dive into electronic structure and qubit properties.

Electronically Tunable Low-Valent Uranium Metallacarboranes
Inorganic Chemistry | March 17, 2025 | DOI: 10.1021/acs.inorgchem.4c04431

Contributors: Kent O. Kirlikovali, Alejandra Gómez-Torres, Arturo Sauza-de la Vega, Andrea Darù, Matthew D. Krzyaniak, Palak Garg, Christos D. Malliakas, Michael R. Wasielewski, Laura Gagliardi, Omar K. Farha

This publication delves into uranium metallacarboranes and their potential as electronically tunable materials. The work explores their unique chemical properties and how these can be controlled for use in various applications, including catalysis and energy storage.

Pinpointing the Onset of Water Harvesting in Reticular Frameworks from Structure
ACS Central Science | February 17, 2025 | DOI: 10.1021/acscentsci.4c01878

Contributors: Ha L. Nguyen, Andrea Darù, Saumil Chheda, Ali H. Alawadhi, S. Ephraim Neumann, Lifen Wang, Xuedong Bai, Majed O. Alawad, Christian Borgs, Jennifer T. Chayes, et al.

This paper explores the structural basis for water harvesting in reticular frameworks, aiming to uncover how certain materials can be engineered for effective atmospheric water capture. The research has significant implications for sustainable water production in arid regions.

Designing Molecular Qubits: Computational Insights into First-Row and Group 6 Transition Metal Complexes
Preprint | February 5, 2025 | DOI: 10.26434/chemrxiv-2025-3tg1x-v2

Contributors: Arturo Sauza-de la Vega, Andrea Darù, Stephanie Nofz, Laura Gagliardi

This earlier version of the preprint provides foundational insights into the computational design of molecular qubits, offering a path forward in the development of quantum computing materials that utilize transition metal complexes.

Ronald Ranguin, Environmental Science, Best Researcher Award

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Doctorate at  Ronald Ranguin: Project manager at Skillcell, France

Dr. Ronald Ranguin is an accomplished French environmental chemist renowned for his pioneering work in the detection and remediation of hazardous pollutants, particularly the pesticide chlordecone. He earned his PhD in Environmental Chemistry from the Université des Antilles, where he focused on optimizing methods for quantifying chlordecone and developing innovative degradation processes using hybrid materials. With a passion for improving environmental health, Dr. Ranguin’s current role as Project Manager at Skilcell involves advancing research on remediation technologies, where he integrates his academic expertise and hands-on experience to tackle the environmental challenges posed by toxic pollutants.

Online Profiles

ORCID Profile 

Dr. Ranguin maintains an active presence on academic platforms such as ResearchGate and LinkedIn. His profiles serve as a resource for colleagues, collaborators, and students interested in his research on environmental chemistry and remediation techniques. Through these platforms, he shares updates on his projects, publications, and breakthroughs in the field, fostering greater engagement with the global scientific community. His professional online presence also offers opportunities for networking, collaboration, and sharing valuable knowledge with those in related fields.

Education

Dr. Ranguin completed his doctoral studies at Université des Antilles, earning his PhD in Environmental Chemistry from 2011 to 2015. His dissertation focused on the optimization of chlordecone quantification techniques and the development of innovative degradation processes using hybrid materials like activated carbon combined with cobalamine (vitamin B12). This foundational research laid the groundwork for his later studies in environmental pollution and soil remediation, helping him develop specialized expertise in the field of environmental chemistry. His academic journey has been marked by a commitment to creating sustainable solutions to address environmental contamination.

Research Focus

Dr. Ranguin’s research interests lie at the intersection of environmental chemistry, pollution detection, and sustainable remediation technologies. His primary focus is on the environmental impact of chlordecone, a toxic pesticide, and developing methods to reduce its presence in contaminated soils. He investigates the use of novel materials, including activated carbon derived from local biomass, to remove pollutants from the environment. His work aims to create cost-effective and environmentally friendly solutions to mitigate soil and water contamination, particularly in tropical and subtropical regions. Dr. Ranguin’s interdisciplinary approach brings together materials science, environmental chemistry, and biochemistry for the development of advanced remediation technologies.

Experience

Dr. Ranguin has garnered extensive experience working in both academic and industrial settings. As a Project Manager at Skilcell since 2019, he has been at the forefront of developing innovative detection and remediation technologies to address chlordecone contamination in various environmental media. Prior to this, he worked as a Research Engineer at Université des Antilles, where he was involved in optimizing the process of producing activated carbon from local biomass materials for use in pollution control. His doctoral research provided him with the necessary skills to design and implement cutting-edge strategies for environmental remediation, positioning him as a leader in the field of environmental chemistry.

Research Timeline

Dr. Ranguin’s research career has evolved significantly over the past decade. Between 2011 and 2015, he worked intensively on his doctoral thesis at Université des Antilles, which focused on improving the detection and degradation processes for chlordecone. Following the completion of his PhD, he transitioned to a Research Engineer position at Université des Antilles from 2016 to 2019, where he led projects to optimize the production of activated carbon from biomass. In 2019, he moved into the role of Project Manager at Skilcell, where his work continues to advance the field of environmental remediation. His research timeline reflects his ongoing dedication to combating soil contamination and improving environmental health.

Awards & Honors

Dr. Ranguin’s work has garnered significant recognition in the scientific community, with several awards and honors underscoring his contributions to the field of environmental chemistry. His research on the development of hybrid materials for pollutant remediation has been widely published in peer-reviewed journals, earning accolades for its impact on environmental science. His interdisciplinary approach and the practical applications of his work have earned him respect among researchers and industry professionals alike. He has been a driving force in promoting sustainable environmental solutions, particularly in regions heavily affected by toxic pesticide contamination.

Top-Noted Publication

Dr. Ranguin has published several impactful research papers, with one of his most notable works being titled “Development and characterization of a nanostructured hybrid material with vitamin B12 and bagasse-derived activated carbon for anaerobic chlordecone (Kepone) removal”, published in Environmental Science and Pollution Research in 2020. This study represents a major breakthrough in the field of environmental remediation, highlighting the potential of hybrid nanomaterials for effectively removing chlordecone from contaminated environments. The innovative approach detailed in this publication provides a promising pathway for improving environmental health and managing toxic pesticide contamination in soil and water.

  • Adsorption of Vitamin B12 on Sugarcane-Derived Activated Carbon: Fractal Isotherm and Kinetics Modelling, Electrochemistry and Molecular Modelling Studies
    Molecules, 2025-05-08 | DOI: 10.3390/molecules30102096
    Contributors: Ronald Ranguin, Mohamed Chaker Ncibi, Corine Jean-Marius, François Brouers, Gerardo Cebrián-Torrejón, Antonio Doménech-Carbó, Steffen Souila, José-Emilio Sánchez-Aparicio, Daniel Dorce, Iker Zapirain-Gysling et al.
  • Carbon Materials Prepared from Invading Pelagic Sargassum for Supercapacitors’ Electrodes
    Molecules, 2023-08-04 | DOI: 10.3390/molecules28155882
    Contributors: Sandra Roche, Christelle Yacou, Corine Jean Marius, Ronald Ranguin, Marckens Francoeur, Pierre-Louis Taberna, Nady Passe-Coutrin, Sarra Gaspard.
  • In vitro and in vivo assessment of a CLD sequestration strategy in Nitisol using contrasted carbonaceous materials
    Environmental Geochemistry and Health, 2021-10-22 | DOI: 10.1007/s10653-021-01108-5
    Contributors: Ronald Ranguin, et al.
  • Biochar and activated carbons preparation from invasive algae Sargassum spp. for Chlordecone availability reduction in contaminated soils
    Journal of Environmental Chemical Engineering, 2021-08 | DOI: 10.1016/j.jece.2021.105280
    Contributors: Ronald Ranguin, et al.
  • Development and characterisation of a nanostructured hybrid material with vitamin B12 and bagasse-derived activated carbon for anaerobic chlordecone (Kepone) removal
    Environmental Science and Pollution Research, 2020-11 | DOI: 10.1007/s11356-020-08201-9
    Contributors: Ronald Ranguin, et al.

Zirun Chen, Marine Science, Best Researcher Award

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Dr. Zirun Chen: Lecturer at Beibu Gulf University, China

Dr. Zirun Chen is a highly accomplished Lecturer at Beibu Gulf University, specializing in polymer chemistry and physics. Holding a Ph.D. from Sun Yat-sen University, he has a robust academic background with a focus on the development and application of Schiff base polymers and porous carbon materials. Over the years, Dr. Chen has led multiple provincial research projects and played a pivotal role in various national collaborations. His work has resulted in over eight peer-reviewed publications in SCI journals, as well as three patents. His primary research interests lie in addressing global challenges in water treatment and energy storage by developing advanced functional materials with tailored properties.

Online Profiles

Scopus Profile

Total Documents: 15
Total Citations: 482 (from 477 documents)
h-index: 9

To stay connected with Dr. Zirun Chen’s academic contributions, you can explore his research profiles through the following platforms:

  • Scholarmate: Profile Link

  • Beibu Gulf University: Faculty Profile
    These profiles provide detailed insights into his research publications, ongoing projects, and academic background, showcasing his work in polymer chemistry and materials science.

Education

Dr. Chen completed his undergraduate studies in Chemistry before pursuing advanced research in Polymer Chemistry and Physics at Sun Yat-sen University. His Ph.D. work involved exploring the properties of polymeric materials with a specific emphasis on their design and application in various engineering fields. Throughout his academic career, Dr. Chen has maintained a strong focus on advancing both the theoretical and practical aspects of polymer materials, particularly in their application to solve real-world challenges in energy storage and environmental protection.

Research Focus

Dr. Chen’s research is primarily focused on the design and application of Schiff base polymers and porous carbon materials. His work aims to optimize the properties of these materials for specific applications in environmental remediation and energy storage. Dr. Chen’s group has developed innovative methods to control the morphology and surface chemical structure of carbon materials, improving their performance in water treatment systems and energy conversion/storage technologies. His research is highly interdisciplinary, bridging materials science, chemistry, and engineering to address critical global issues.

Experience

With extensive research experience, Dr. Chen has successfully led three provincial research projects and participated in a total of seven collaborative research initiatives. His expertise in polymer chemistry has led to the development of novel materials with a wide range of applications in industry and academia. Dr. Chen’s contributions include eight SCI-indexed publications, two EI-indexed papers, and three patents. His professional involvement also extends to consultancy and industry partnerships, where he applies his academic expertise to solve practical problems in materials science.

Research Timeline

Dr. Chen’s research career began with his doctoral studies at Sun Yat-sen University, where he first explored the potential of Schiff base polymers for energy-related applications. After completing his Ph.D., he continued to refine his expertise by focusing on the synthesis and application of carbon-based materials for water treatment and energy storage. Over the years, Dr. Chen has collaborated with both domestic and international researchers to develop cutting-edge materials that can be used for environmental protection and energy storage, resulting in an impactful body of work in these fields.

Awards & Honors

Dr. Chen has received numerous awards for his academic and research excellence. Notably, he has been recognized for his contributions to the development of novel polymer materials and their applications in energy and environmental sectors. He has won several provincial-level awards for research excellence and project leadership, underscoring the significance of his contributions to the field of polymer chemistry. In addition to academic recognition, Dr. Chen is a respected member of the Chinese Chemical Society, reflecting his standing within the scientific community.

Top-Noted Publication

A standout publication by Dr. Chen is featured in the prestigious journal Molecules: “Development of Schiff Base Polymers and Their Application in Water Treatment and Energy Storage” (2024, MDPI). This work is considered a seminal paper in the field, as it outlines a novel methodology for modifying the structure and surface chemistry of carbon materials derived from Schiff base polymers. The paper has received considerable attention for its potential impact on improving the efficiency of water treatment processes and enhancing energy storage systems. This publication reflects Dr. Chen’s ability to push the boundaries of current material science toward practical, real-world applications.

Title: Facile synthesis of atomic Fe anchored on defected carbon spheres with high N/S content for sodium-ion batteries
Journal: Electrochimica Acta (2025)
Authors: Wu, Zhen; Xiong, Yuang; Teng, Xin; Yin, Yanzhen; Chen, Zirun
This article presents a novel method for the development of advanced anode materials in sodium-ion batteries, utilizing defect-engineered carbon spheres with high nitrogen and sulfur content. Dr. Chen’s contributions to this study showcase his growing involvement in next-generation energy storage solutions, extending beyond water treatment into battery material innovation.

Huan Yi, Business Administration, Best Researcher Award

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Huan Yi: student at School of Business Administration, Hunan University of Technology and Business, China

Huan Yi is a dedicated master’s student at the School of Business Administration, Hunan University of Technology and Business, specializing in consumer behavior and autonomous driving. Born in December 2000 in You County, Hunan Province, she is also a member of the Chinese Communist Party. Her academic journey reflects a passion for both research and teaching, where she has published extensively and contributed to various projects involving technological innovation and transportation management. With a strong foundation in both theoretical knowledge and practical applications, she aims to bridge the gap between academia and industry in her chosen fields.

Online Profiles

Scopus Profile

Citations: 8 citations across 8 documents
Documents: 2 published documents
h-index: 1

Huan Yi maintains an active online presence through academic platforms like ResearchGate, where she shares her latest publications and research insights. She also uses LinkedIn to engage with professionals and scholars worldwide, expanding her network in the fields of autonomous driving and consumer behavior. These platforms enable her to stay connected with the global academic community, collaborate on research projects, and stay updated on the latest trends in her area of expertise. Her profiles are a valuable resource for anyone interested in her research or potential collaborations.

Education

Huan Yi is currently pursuing a master’s degree at the School of Business Administration at the Hunan University of Technology and Business. Her educational path has provided her with a comprehensive understanding of business administration, technological innovation, and management, with a particular emphasis on autonomous vehicles and consumer behavior. Prior to her graduate studies, she completed her undergraduate education in Hunan Province, where she laid the groundwork for her future research in technology and management.

Research Focus

Huan Yi’s research primarily focuses on consumer behavior and the dynamics of autonomous driving technologies. She is particularly interested in understanding the adoption of Robo-taxis, integrating theories from economics, psychology, and sociology. Her work addresses the turnover intention of online ride-hailing drivers and the factors influencing driver satisfaction in the context of digital platforms. By examining both psychological and social factors, her research seeks to provide insights into improving technology adoption and management strategies in transportation sectors.

Experience

Huan Yi has extensive experience in teaching and research. She has taught at Hunan Business Vocational and Technical College and Modern Logistics Vocational and Technical College, offering courses like E-commerce Fundamentals and Applications and Transportation Management. Her teaching experience has been recognized with awards such as the outstanding instructor honor. Additionally, Huan Yi has worked on various research projects, contributing to commissioned studies by the Hunan Provincial Department of Commerce and engaging in technical consultations. She has also filed 2 patents and secured 3 software copyrights, demonstrating her ability to apply her research practically.

Research Timeline

  • 2021: Began preliminary research on online ride-hailing driver turnover, identifying key factors contributing to high turnover rates.

  • 2022: Published her first SSCI paper on the psychological and economic drivers of driver turnover in online ride-hailing services, which was later cited in industry reports.

  • 2023: Extended her research to include Robo-taxi adoption, integrating sociological and psychological factors within an extended UTAUT2 framework.

  • 2024: Published her high-impact study in Transportation Research Part A: Policy and Practice and applied for 2 patents in the area of transportation technology.

Awards & Honors

Huan Yi has received multiple accolades throughout her academic career. These include recognition as an outstanding member of the Chinese Communist Party and outstanding instructor for her contributions to education. She was also awarded the prestigious national graduate scholarship, which recognizes top graduate students for their academic excellence and contributions to research and teaching. Her efforts have been acknowledged both within her university and in the broader academic community.

Top-Noted Publication

One of Huan Yi’s most significant publications is the paper titled “What drives the drivers away? An empirical study on the factors influencing the turnover intention of full-time online ride-hailing drivers in China”, published in Transportation Research Part A: Policy and Practice in 2024. The study, co-authored with leading scholars, examines the underlying factors contributing to the high turnover rate among ride-hailing drivers in China, offering actionable insights for platform managers and policymakers. This paper, which was published in an SCI Q1 journal with an impact factor of 6.30, is highly regarded for its in-depth analysis and contribution to transportation research.

Hongbing Song, Chemistry, Best Researcher Award

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Prof. Dr. Hongbing Song: Professor at Qingdao University of Science and Technology, China

Hongbing Song is a Professor at Qingdao University of Science and Technology, specializing in green chemistry, catalytic materials, and sustainable chemical processes. With a strong background in molecular design and synthesis, his work aims to develop efficient catalysts for cleaner and more sustainable industrial applications.

He has published over 80 SCI-indexed papers in high-impact journals and has contributed significantly to the field of catalysis. In addition to his research, he actively participates in peer review for top-tier journals, ensuring the advancement of scientific knowledge in his domain.

Online Profiles

ORCID Profile

Scopus Profile

Dr. Hongbing Song is affiliated with Qingdao University of Science and Technology and has an extensive research portfolio in catalysis and materials science. His contributions have been widely recognized in the scientific community.

Total Citations

Dr. Song’s work has received 1,843 citations from 1,581 documents, highlighting the influence of his research in catalysis, nanomaterials, and chemical engineering.

Total Publications

He has authored 99 scientific papers, contributing significantly to high-impact journals, including ACS Applied Materials & Interfaces, Molecular Catalysis, and Fuel.

h-index

Dr. Song holds an h-index of 24, reflecting both the quantity and quality of his research publications. This metric signifies that at least 24 of his papers have been cited 24 times or more, indicating a strong research impact.

Education

Hongbing Song earned his Bachelor of Science degree from Hubei University of Technology, where he developed a strong foundation in chemical engineering and materials science. His undergraduate research sparked his interest in catalysis and sustainable chemistry, leading him to pursue further studies.

He completed his Ph.D. at South China University of Technology, where he focused on catalytic materials and reaction mechanisms. During his doctoral studies, he had the opportunity to conduct joint research at the École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland. This international experience enriched his expertise and exposed him to advanced catalytic technologies.

His training at EPFL allowed him to work with leading scientists in the field, further strengthening his research capabilities in catalyst design and application.

Research Focus

Hongbing Song’s research revolves around the molecular design and synthesis of catalytic materials, aiming to develop environmentally friendly catalysts for industrial applications. His work integrates principles of green chemistry to enhance catalytic efficiency and reduce harmful byproducts.

One of his key research areas is the development of novel nanostructured catalysts for biomass conversion and hydrogen production. These catalysts play a crucial role in sustainable energy solutions, addressing global energy and environmental challenges.

He is also interested in heterogeneous catalysis, particularly in oxidation and hydrogenation reactions. By designing highly active and selective catalysts, he aims to improve the efficiency of chemical processes used in the production of fuels and fine chemicals.

Additionally, his work explores catalytic reaction mechanisms using in situ characterization techniques. Understanding these mechanisms at the molecular level enables the optimization of catalyst performance for industrial applications.

Experience

After earning his Ph.D., Hongbing Song joined Qingdao University of Science and Technology as a Lecturer, where he continued his research on catalytic materials and sustainable processes. His dedication to teaching and research quickly earned him recognition within the academic community.

In 2016-2017, he conducted research at the National University of Singapore, where he collaborated with leading scientists on advanced catalytic materials. This experience broadened his expertise and allowed him to apply his knowledge to real-world industrial challenges.

In 2017, he was promoted to Associate Professor, reflecting his contributions to research and education. He played a key role in mentoring students and leading research projects focused on green catalysis and sustainable chemical engineering.

His continued excellence in research and teaching led to his promotion to full Professor in 2021. Currently, he leads several research projects funded by national and international agencies, focusing on the development of next-generation catalysts for clean energy and environmental applications.

Research Timeline

  • 2010-2012: Conducted joint Ph.D. research at EPFL, Switzerland, focusing on catalyst synthesis and characterization.
  • 2012: Earned Ph.D. from South China University of Technology, specializing in green catalysis.
  • 2012: Joined Qingdao University of Science and Technology as a Lecturer, initiating independent research on catalytic materials.
  • 2016-2017: Worked as a visiting researcher at the National University of Singapore, expanding his expertise in nanostructured catalysts.
  • 2017: Promoted to Associate Professor, leading multiple research projects on sustainable catalysis.
  • 2021: Promoted to full Professor, overseeing research in catalytic materials for energy and environmental applications.

Awards & Honors

Hongbing Song has received multiple research grants from the National Natural Science Foundation of China (NSFC) and other funding agencies, supporting his work on advanced catalytic materials. His contributions have been recognized through various national and international awards.

He holds several patents related to catalytic materials and separation technologies, demonstrating the practical impact of his research. These patents contribute to industrial applications, particularly in energy and environmental sectors.

As a respected reviewer for journals such as ACS Catalysis and Applied Catalysis B: Environmental, he plays a crucial role in maintaining research quality in the field of catalysis. His expertise is frequently sought for evaluating cutting-edge research in green chemistry and sustainable processes.

Top-Noted Publications

  1. Regulation of Oil/Water Separation Using Pyridinium-Based Poly(ionic liquid)s with Prewetted Induced Responsive Transition
    ACS Applied Materials & Interfaces, 2025 (DOI: 10.1021/acsami.4c17987)

    • Developed a novel poly(ionic liquid)-based system for efficient oil/water separation, enhancing industrial wastewater treatment and environmental sustainability.

  2. A Broad-Spectrum Oxidation Capability Ru-CeO₂ Catalyst for Efficient Synergistic Selective Oxidation of Benzyl Alcohol
    Molecular Catalysis, 2024 (DOI: 10.1016/j.mcat.2024.114383)

    • Designed a Ru-CeO₂ catalyst with enhanced oxidation activity, providing insights into synergistic catalytic mechanisms for selective oxidation reactions.

  3. One-Step Synthesis of BiOCl/Bi₄NbO₈Cl Heterostructures with High-Purity and Enhanced Photocatalytic Activities via In-Situ Room-Temperature Acid-Etching
    Molecular Catalysis, 2024 (DOI: 10.1016/j.mcat.2024.113979)

    • Developed a novel heterostructured photocatalyst with improved performance in environmental remediation and solar energy conversion.

  4. Oxidative Esterification of 5-Hydroxymethylfurfural to Dimethyl 2,5-Furandicarboxylate over Au-Supported Poly(ionic liquid)s
    Fuel, 2024 (DOI: 10.1016/j.fuel.2023.130354)

    • Investigated gold-supported poly(ionic liquid)s for the oxidative esterification of biomass-derived compounds, contributing to sustainable chemical production.

  5. Green and Designable Deep Eutectic Solvents for Extraction Separation of Oxygenated Compounds in Fischer-Tropsch Oil Products: Hydrogen Bond Descriptors and Structure–Activity Study
    Separation and Purification Technology, 2024 (DOI: 10.1016/j.seppur.2023.125540)

    • Developed hydrogen bond-based deep eutectic solvents for efficient extraction of oxygenated compounds, enhancing the purity of fuel products.

Berat Çınar Acar, Biology, Best Researcher Award

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Asst. Prof. Berat Çınar Acar: Assistant Professor at Gazi University Department of Biology, Turkey

Dr. Berat Çınar Acar is an academic member at the Department of Biology, Faculty of Science, Gazi University, specializing in microbiology and biotechnology. He holds a Bachelor’s degree in Biology from Niğde University, a Master’s degree in Biotechnology from Gazi University, and a Ph.D. in Biotechnology from the same institution. Dr. Acar’s research interests are centered on microbiology, food biotechnology, environmental biotechnology, and microbial biotechnology.

Online Profiles

Education

  • B.S. in Biology: Niğde University, Faculty of Science and Literature (2004-2008)
  • M.S. in Biotechnology: Gazi University, Institute of Science (2009-2012)
  • Ph.D. in Biotechnology: Gazi University, Institute of Science (2012-2018)

Research Focus
Dr. Acar’s primary research focuses on microbial biotechnology, food microbiology, and environmental biotechnology. He is particularly interested in the enzymatic activity of Lactobacillus and Bifidobacterium species, microbial biofilms, and the application of non-thermal plasma and ozone for pathogen inactivation in food safety. His work contributes to the development of innovative biotechnological applications in food preservation and environmental remediation.

Experience
Dr. Acar has extensive academic experience, currently serving as a faculty member at Gazi University, where he has held various roles from Lecturer to Assistant Professor. His teaching experience includes courses in microbial taxonomy, bacterial world, and applications of plasma technology. His research has been published in numerous high-impact journals, and he has supervised multiple postgraduate theses.

Research Timeline
Dr. Acar’s research timeline spans from his doctoral thesis, which focused on environmental remediation through biosorption and bioremediation, to his recent work on food safety using plasma technologies. His research has led to the development of several national and international collaborations and research projects, which aim to address contemporary issues in biotechnology, such as antimicrobial resistance and sustainable food production.

Awards & Honors
Dr. Acar has received several recognitions, including national research grants from Gazi University and TÜBİTAK. His work in the field of biotechnology has been acknowledged through awards for his contributions to microbial biotechnology and his innovative research on food safety and environmental biotechnology. He has also been invited to present at numerous international scientific conferences.

Top-Noted Publication
One of Dr. Acar’s highly regarded publications is “Biogenic-synthesized silver nanoparticles using the Ligilactobacillus salivarius KC27L postbiotic: Antimicrobial, anti-biofilm, and antioxidant activity and cytotoxic effects,” published in Probiotics and Antimicrobial Proteins (2025). This paper presents the novel use of biogenic silver nanoparticles in antimicrobial and anti-biofilm applications, showcasing his innovative contributions to the field of microbial biotechnology.

  • Biogenic-Synthesized Silver Nanoparticles Using the Ligilactobacillus salivarius KC27L Postbiotic: Antimicrobial, Anti-Biofilm, and Antioxidant Activity and Cytotoxic Effects
    Probiotics and Antimicrobial Proteins (2025-02-26)
    DOI: 10.1007/s12602-025-10481-x
    This paper explores the biogenic synthesis of silver nanoparticles using Ligilactobacillus salivarius KC27L postbiotics, detailing their antimicrobial, anti-biofilm, antioxidant, and cytotoxic effects. The research contributes significantly to the development of novel antimicrobial agents in biotechnology, particularly in the context of combating biofilm-related infections.
    Contributors: Zehranur Yuksekdag, Reyhan Kilickaya, Filiz Kara, Berat Cinar Acar.

  • Pichia kudriavzevii (JD2) Immobilized on Acid Activated Perlite as a Biosorbent for Solid Phase Extraction of Cr(III) Determination by AAS (Atomic Adsorption Spectroscopy)
    Microscopy Research and Technique (2025-02-11)
    DOI: 10.1002/jemt.24815
    This research investigates the use of Pichia kudriavzevii (JD2) immobilized on acid-activated perlite for the biosorption and extraction of chromium(III) from solutions, offering an efficient method for heavy metal analysis in environmental biotechnology.
    Contributors: Aliya Amanzhol, Özcan Yalçınkaya, Berat Çinar Acar, Zehranur Yuksekdag.

  • Determination of Antioxidant and Antimicrobial Activities of Cell-Free Supernatant (CFSKC27L) and Exopolysaccharide (EPSKC27L) obtained from Ligilactobacillus salivarius KC27L
    Tekirdağ Ziraat Fakültesi Dergisi (2024-09-20)
    DOI: 10.33462/jotaf.1370839
    This article provides an in-depth analysis of the antioxidant and antimicrobial properties of the cell-free supernatant and exopolysaccharide obtained from Ligilactobacillus salivarius KC27L, highlighting their potential applications in food biotechnology and health.
    Contributors: Kübra Çelik, Zehranur Yuksekdag, Berat Çınar Acar, Filiz Kara.

  • Diş Hekimliği Uygulamalarında Soğuk Atmosferik Plazma (CAP)
    Acta Odontologica Turcica (2024-09-04)
    DOI: 10.17214/gaziaot.1294782
    This study evaluates the use of cold atmospheric plasma (CAP) in dental applications, exploring its efficacy in sterilization, wound healing, and bacterial inactivation, particularly in dental treatments.
    Contributors: Berat Çınar Acar, Zehranur Yuksekdag, Elif Açar, Tuğba Şahin, Hazer Yüksekdağ.

  • Evaluation of Ozone Effectiveness Against Gram-Positive and Gram-Negative Pathogens Using Different Methods
    Mustafa Kemal Üniversitesi Tarım Bilimleri Dergisi (2024-08-12)
    DOI: 10.37908/mkutbd.1437244
    This publication investigates the effectiveness of ozone as a disinfectant against both Gram-positive and Gram-negative pathogens, assessing its potential for use in food safety and environmental sanitation.
    Contributors: Berat Çınar Acar.

Nur Aziemah Abd Rashid, Engineering, Best Researcher Award

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Dr. Nur Aziemah Abd Rashid: Doctorate at universiti kebangsaan malaysis, Malaysia

Dr. Nur Aziemah Abd Rashid is a dedicated environmental engineer specializing in water resources management and riverbank filtration systems. With a focus on improving water quality through innovative treatment technologies, she has significantly contributed to both academic research and practical applications in sustainable water engineering. Over the years, Dr. Rashid has become a thought leader in her field, with multiple publications in high-impact journals, and is actively engaged in both local and international environmental engineering communities.

Online Profiles

Scopus Profile

ORCID Profile

Dr. Rashid NAA maintains an active professional presence online through platforms such as Google Scholar, ResearchGate, and LinkedIn, where she shares her work on water quality, riverbank filtration, and environmental sustainability. Her research articles and conference proceedings are available for public access, contributing to the global discourse on water security and engineering innovations.

profile for Abd Rashid, Nur Aziemah from Universiti Sains Malaysia with Scopus ID: 24741062100. The profile shows details such as 16 citations from 14 documents, with an h-index of 2.

Education

Dr. Rashid holds a Ph.D. in Environmental Engineering from Universiti Sains Malaysia (USM), where she specialized in riverbank filtration and water quality enhancement. She completed her Master’s degree in Environmental Engineering at the same institution, followed by a Bachelor’s degree in Civil Engineering. Her academic journey has been marked by a passion for sustainable water management and a strong commitment to research excellence.

Research Focus

Dr. Rashid’s primary research focus is on the application of innovative technologies for water treatment, particularly riverbank filtration and artificial barriers to improve water quality. Her work spans various aspects of environmental engineering, including the characterization of water resources, turbidity removal, and the use of coagulants in wastewater treatment. She is also interested in the impacts of climate change on water systems and the application of sustainable practices in water management.

Experience

With over a decade of experience in both academia and practical environmental engineering, Dr. Rashid has worked as a researcher, lecturer, and consultant. She has been involved in numerous projects focusing on water quality, riverbank filtration, and the development of sustainable engineering solutions. Dr. Rashid has contributed significantly to the scientific community by publishing her research and reviewing papers for prominent journals.

Research Timeline

Dr. Rashid’s research journey began with her work on water quality improvements in riverbank filtration in 2015. Over the years, her research has expanded to include studies on turbidity removal, the use of artificial barriers, and the characterization of river water filtration systems. Notable research projects have been published in journals since 2016, with ongoing contributions to the field of water resource management and sustainability.

Awards & Honors

Throughout her career, Dr. Rashid has received several accolades for her contributions to environmental engineering, including the Bestari List Award from the School of Environmental Engineering, UniMAP, and awards for her innovative work in sustainable water treatment systems. She has also been recognized for her leadership in various professional associations and her involvement in community work related to water security and sustainability.

Top-Noted Publication

Dr. Rashid’s top-noted publication is her chapter on the application of artificial barriers in riverbank filtration, which has been widely cited in the field of environmental engineering. Her research on improving the removal of Escherichia coli and turbidity from river water using these barriers has made a significant impact on the design and implementation of sustainable water filtration systems. This publication is part of her extensive body of work on riverbank filtration and water treatment technology.

1. Protection of Water: Robust of Artificial Barriers in Application of Riverbank Filtration Abstraction for Water Sustainability

  • Journal: Desalination and Water Treatment
  • Year: 2025
  • DOI: 10.1016/J.DWT.2025.101034
  • Contributors: Nur Aziemah Abd Rashid, Mohamad Faiz Mohd Amin, Mohd Remy Rozainy Mohd Arif Zainol, Ismail Abustan, Wan Hanna Melini Wan Mohtar, Mohd Khairul Nizar Shamsuddin

2. Determination of Water Resources in Tube Well Using Hydrofacies for Riverbank Filtration

  • Journal: International Journal of Integrated Engineering
  • Year: 2023
  • DOI: 10.30880/IJIE.2023.15.02.013
  • WOSUID: WOS:001137920600005
  • Contributors: Zakaria, Siti Nor Farhana; Abd Rashid, Nur Aziemah; Abustan, Ismail; Aziz, Hamidi Abdul

3. Water Security: Application of Artificial Barriers in Riverbank Filtration Abstraction

  • Book Chapter: Water for All: A Tribute to Prof. Dr. Hj. Ismail Abustan
  • Year: 2022
  • Contributors: Nur Aziemah Abd Rashid; Ismail Abustan; Universiti Sains Malaysia

4. Application of Artificial Barrier as Mitigation of E. coli Which Pass through Riverbank Filtration

  • Book Chapter: New Insight into Brucella Infection and Foodborne Diseases
  • Year: 2020
  • DOI: 10.5772/intechopen.86079
  • Contributors: Nur Aziemah Abd Rashid; Ismail Abustan

5. Effect of Particle Size Distribution on the Removal of Color and Escherichia coli in Shallow Groundwater

  • Journal: Hydrological Research Letters
  • Year: 2016
  • DOI: 10.3178/HRL.10.34
  • WOSUID: WOS:000416305500006
  • Contributors: Abd Rashid, Nur Aziemah; Abustan, Ismail; Adlan, Mohd Nordin; Ismail, Mohd Ashraf Mohamad; Awalluddin, Nur Atiqah Ahmad

Marwa Soliman, Neuroscience, Best Researcher Award

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Dr. Marwa Soliman: Senior Research Assistant at Burke Neurological Institute, United States

Marwa Soliman is a graduate student pursuing a Master of Computer Science with a focus on Big Data Systems at Arizona State University. With a background in both Computer Science and Biology, she is passionate about applying computational techniques to biological research, particularly in the field of neuroscience. Currently a Senior Research Assistant at the Burke Neurological Institute, she combines her expertise in data analysis, image processing, and deep learning to support cutting-edge research on spinal cord injury and circuit repair.

Online Profiles

Research Metrics
  • Total Citations: 17
  • Citations Since 2020: 17
  • h-index: 1
  • i10-index: 1

These metrics reflect a growing body of research with impactful contributions in the fields of neuroscience and motor learning, highlighting the relevance and influence of your work in advancing scientific understanding.

Education

Marwa is currently pursuing her Master of Computer Science in Big Data Systems at Arizona State University, expected to graduate in June 2025. She holds a B.A. in Computer Science and a B.A. in Biology, both earned summa cum laude from Manhattanville University, where she achieved a GPA of 3.91/4.00. Her academic journey has equipped her with a strong foundation in data science, machine learning, and computational biology.

Research Focus

Her primary research interests revolve around utilizing big data systems, machine learning, and image analysis to better understand neurological conditions, particularly spinal cord injury and neuroregeneration. Marwa is actively working on automating high-dimensional biological data analysis, integrating behavioral and neural activity data, and exploring gene networks related to axonal regeneration.

Experience

As a Senior Research Assistant at the Burke Neurological Institute, Marwa specializes in image and data analysis, with a focus on automating complex biological datasets, such as RNA sequencing and KDI analysis. She is proficient in using tools like DeepLabCut, OpenCV, and Python to analyze behavioral videos, and she leads efforts in 3D printing and laser cutting within the lab. Additionally, she has contributed to the development of synchronized systems that link motor behavior to neural recordings, advancing research on neurodegenerative diseases.

Research Timeline

Marwa’s research timeline spans from her undergraduate years, where she developed deep-learning algorithms for early skin cancer detection, to her current work in spinal cord injury research. At Manhattanville University, she worked on skin cancer detection algorithms during the summer of 2019. From 2020 onwards, she has been involved in more advanced projects at the Burke Neurological Institute, focusing on motion function assessment and neuroregeneration through data-driven tools and techniques.

Awards & Honors

Marwa has received multiple honors, including the Computer Science Department Honors Award, Biology Department Honors Award, and the prestigious Daughters for Life Scholarship in 2016. She was also a finalist at the Intel ISEF in 2014 and has been recognized for leadership and outstanding service, notably receiving the Leadership and Outstanding Service Award from the Mary T. Clark Center for Religion and Social Justice in 2019.

Top-Noted Publication

  • Task-specific modulation of corticospinal neuron activity during motor learning in mice
    N Serradj, F Marino, Y Moreno-López, A Bernstein, S Agger, M Soliman, …
    Nature Communications, 14(1), 2708, 2023
    This study explored how task-specific activities modulate corticospinal neuron function during motor learning, shedding light on how skilled motor behavior impacts the neural circuits responsible for voluntary movement.

  • A Kinematic Deviation Index (KDI) for Evaluation of Forelimb Function in Rodents
    A Torres-Espin, A Bernstein, M Soliman, JS Jara, Y Moreno-López, …
    bioRxiv, 1, 2024
    This paper introduced the Kinematic Deviation Index (KDI), a novel metric for assessing forelimb function in rodents, providing a more precise tool for evaluating motor deficits and recovery in animal models of neurological disorders.

  • Acute Extrinsic Activation of the RANKL Pathway Decreases Wound Healing and Functional Recovery After Spinal Cord Injury in Mice
    AL Vivinetto, A Bernstein, M Soliman, JW Cave, E Hollis
    Glia, 2025
    This publication explored how acute activation of the RANKL pathway impairs both wound healing and functional recovery following spinal cord injury, highlighting a potential target for therapeutic intervention.

  • Conditioning electrical stimulation enhances functional rewiring in a mouse model of nerve transfer to treat chronic spinal cord injury
    JS Jara, M Soliman, A Bernstein, P di Grazia, AR Ferguson, JM Brown, …
    bioRxiv, 2025.01.17.633666
    This study demonstrated that conditioning electrical stimulation enhances functional rewiring in a mouse model of nerve transfer for treating chronic spinal cord injury, providing promising insights into improving recovery outcomes.

  • Task-specific modulation of corticospinal neuron activity during skilled motor learning
    N Serradj, F Marino, Y Moreno-López, A Bernstein, S Agger, M Soliman, …
    bioRxiv, 2021.03.22.436415
    In this earlier work, the team investigated how skilled motor learning drives changes in corticospinal neuron activity, contributing to our understanding of the neural mechanisms underlying motor skill acquisition.

Nargiz Hajiyeva, Political Science, Best Researcher Award

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Dr. Nargiz Hajiyeva: Political Scientist, Academic lecturer, Weiser Scholar, University of Michigan, Ann Arbor, Ludovika Scholar, Ludovika UPS, Hungary,Chair of Women Researchers Council, Head of Organization of Scientific Activities Unit at Azerbaijan State University of Economics (UNEC), Azerbaijan

Dr. Nargiz Hajiyeva is a distinguished academic and researcher specializing in political science, international law, and intellectual property rights. With a strong academic background and a career enriched by various international collaborations, Dr. Hajiyeva has contributed significantly to research and discourse on issues related to geopolitical dynamics, energy diplomacy, and intellectual property within the South Caucasus region and beyond. She has held prominent positions, including as a visiting guest lecturer and project coordinator for several global programs, and actively participates in high-level academic and diplomatic forums.

Online Profiles

Scopus Profile

ORCID Profile

Citations & Publications:

  • Citations: 6
  • Documents: 9

Dr. Nargiz Hajiyeva maintains an active presence in the academic community, participating in online platforms and research conferences. She engages with fellow researchers, scholars, and institutions through various online conferences, collaborations, and workshops, contributing her expertise on topics such as political science, intellectual property, and the social sciences. She also utilizes platforms like LinkedIn, ResearchGate, and academic university portals for sharing research outputs and ongoing projects.

Education

Dr. Hajiyeva’s academic journey includes a distinguished educational background. She completed her Ph.D. Research Fellowship at the University of St. Gallen, Switzerland, under the Swiss Government Excellence Scholarship (ESKAS). She holds an M.A. degree from Vytautas Magnus University in Lithuania and a B.A. from Baku State University, Azerbaijan. Over the years, she has attended multiple international workshops, summer schools, and seminars in Europe, Asia, and the United States, further enhancing her expertise in political science, international law, and intellectual property.

Research Focus

Dr. Hajiyeva’s research focuses on the intersection of international law, intellectual property rights (IPR), political economy, and regional security, particularly in the context of the South Caucasus. Her work explores the politicization of IPR, energy diplomacy, and the role of women in entrepreneurship, particularly in Azerbaijan. She is deeply interested in examining the socio-political dynamics of post-conflict regions, the legal frameworks surrounding intellectual property violations, and the impact of international law in resolving regional conflicts.

Experience

Dr. Hajiyeva has extensive experience in both academia and international projects. As a researcher, she has coordinated significant projects such as the Business in Eurasia Programme and led initiatives aimed at strengthening research capacity and enhancing the role of women in entrepreneurship. She has held leadership roles at prominent institutions, including the University of St. Gallen, University of Siegen, and Azerbaijan State University of Economics (UNEC), where she also teaches and supervises students. Her work as a guest lecturer and keynote speaker spans numerous international conferences and universities.

Research Timeline

  • 2023: Published key works on intellectual property rights and the post-conflict region of Nagorno-Karabakh, alongside delivering lectures and serving as a keynote speaker at international conferences.
  • 2022: Coordinated and participated in international workshops and projects like the “Business in Eurasia Programme” and a book project on women entrepreneurs in community-based tourism in Azerbaijan.
  • 2021: Awarded multiple grants and participated in research activities and conferences focused on the intersection of intellectual property and conflict resolution.
  • 2020: Worked on socio-economic integration research, focusing on Azerbaijan’s role in European energy policy and its relations with the EU.

Awards & Honors

Dr. Hajiyeva has received numerous accolades, including the prestigious Swiss Government Excellence Scholarship, a Distinguished Winning Award on IP Skills Development by WIPO, and the MIRAI Scholarship from the Government of Japan. She has also been honored with the DAAD funding for international projects and earned first-place awards in academic essay competitions, including those related to the Eastern Partnership Program and the UN Security Council Resolution 1540.

Top-Noted Publication

The Politicization of Intellectual Property Rights in the Context of Karabakh

Cogent Social Sciences | 2024-12-31
DOI: 10.1080/23311886.2024.2386710
Contributors: Adalat Jalal Muradov, Nargiz Hajiyeva
This article addresses the politicization of intellectual property rights (IPR) in the context of the Karabakh conflict, exploring how geopolitical tensions shape and influence legal and economic systems in post-conflict regions. It also delves into the challenges and implications of enforcing international IPR frameworks in areas affected by territorial disputes. The research contributes to the broader discourse on international law and the intersection of intellectual property with political instability.

The War in Ukraine and the EU’s Policy of Economic Globalisation: New Security Challenges and Issues

Revista CIDOB d’Afers Internacionals | 2024-12-24
DOI: 10.24241/rcai.2024.137.2.14/en
Contributor: Nargiz Hajiyeva
In this article, Dr. Hajiyeva analyzes the geopolitical and security implications of the ongoing war in Ukraine on the European Union’s policy of economic globalization. She assesses how the conflict challenges existing EU policies, particularly those related to energy security, economic integration, and international cooperation in an increasingly fragmented world order.

Fostering Green Entrepreneurship Education and the Socioeconomic Inclusion of Women in the South Caucasus Region

Marketing and Resource Management for Green Transitions in Economies | 2024-08-01
DOI: 10.4018/979-8-3693-3439-3.ch007
Contributors: Nargiz Hajiyeva, Zarina Burkadze, Saida Khalil
This book chapter explores the role of green entrepreneurship in promoting sustainable economic development in the South Caucasus region. It highlights the importance of including women in the green economy and providing them with the necessary education and resources to contribute effectively. The authors argue for a paradigm shift that promotes environmental sustainability while fostering the socioeconomic inclusion of marginalized groups, particularly women.

The Impact of Economic Growth on the Ecological Environment and Renewable Energy Production: Evidence from Azerbaijan and Hungary

Journal of Risk and Financial Management | 2024-06-30
DOI: 10.3390/jrfm17070275
Contributors: Sugra Ingilab Humbatova, Nargiz Hajiyeva, Monika Garai Fodor, Kiran Sood, Simon Grima
This research examines the relationship between economic growth, ecological sustainability, and renewable energy production in Azerbaijan and Hungary. The article provides valuable insights into how these two countries manage their energy policies and environmental challenges, offering comparative analysis and recommendations for future green energy strategies.

The Politicization of Intellectual Property Rights in the Context of Karabakh

Przeglad Strategiczny | 2022
DOI: 10.14746/ps.2022.1.25
Contributors: Adalat Jalal Muradov, Nargiz Hajiyeva
This earlier version of the publication from 2022 further explores the impact of intellectual property rights on the Karabakh region amidst ongoing geopolitical tensions. It provides an analysis of IPR violations and their implications for economic recovery in post-conflict zones, drawing attention to how the international legal system addresses such challenges in the context of regional disputes.

Economic and Legal Assessment of the Violation of Property Rights During the Occupation of Azerbaijani Territories

Business & IT | 2021
DOI: 10.14311/bit.2021.01.05
Contributors: Nargiz Hajiyeva, Irshad Karimli
This article examines the economic and legal repercussions of property rights violations during the occupation of Azerbaijani territories. It focuses on the financial and legal implications for the affected communities and the international community’s role in addressing such violations through legal frameworks and restitution mechanisms.

Economic and Legal Assessment of Illicit Activities During the Occupation of Karabakh and Its Adjacent Districts

Societate si Politica | 2020
Contributors: Adalat Jalal Muradov, Nargiz Hajiyeva
This publication provides an in-depth analysis of the illicit economic activities that occurred during the occupation of the Karabakh region, examining the legal violations and the broader impacts on international law, regional security, and post-conflict reconstruction efforts.

The Current Dynamics of International Migration in Europe: Problems and Perspectives

Eastern European Journal of Transnational Relations | 2018
DOI: 10.15290/eejtr.2018.02.02.02
Contributor: Nargiz Hajiyeva
This article focuses on the evolving dynamics of international migration in Europe, highlighting the challenges posed by migration policies, security concerns, and the social integration of migrant populations. Dr. Hajiyeva evaluates the effectiveness of EU migration strategies and their implications for transnational relations.