Chihyun Hwang | Energy Sustainability | Best Researcher Award

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Dr. Chihyun Hwang | Energy Sustainability | Best Researcher Award

Principle at Koreal Electronics Technology Institute | South Korea

Dr. Chihyun Hwang is a distinguished energy scientist and Senior Researcher at the Korea Electronics Technology Institute (KETI), specializing in next-generation electrochemical energy storage systems. His expertise spans lithium-ion, sodium-ion, zinc-ion, and all-solid-state batteries, with particular emphasis on molecular binder design, nanostructured anodeless materials, and in-situ electrochemical analysis. Over the years, he has developed an outstanding research profile, contributing significantly to advancing energy technologies that support high-density, durable, and safe energy storage solutions for electric vehicles and renewable energy systems. With an H-index of 22 and nearly 60 published papers in prestigious journals such as Advanced Energy Materials, Advanced Functional Materials, and Angewandte Chemie, he has demonstrated both academic excellence and industry relevance. His work has frequently addressed critical issues in interface stability, electrode architecture, and electrochemical reversibility, ensuring long-term performance and scalability of energy storage devices. Beyond publications, Dr. Hwang actively contributes to professional communities, serving as Academic Director of the Korean Battery Society. His research leadership, supported by national and international collaborations, has positioned him as a vital contributor to the global battery research community, dedicated to enabling sustainable and high-performance energy technologies for the future.

Professional Profile

Scopus | ORCID | Google Scholar

Education

Dr. Chihyun Hwang pursued a rigorous academic path that laid the foundation for his career in energy storage research. He earned his Bachelor of Science in Fiber Engineering from Inha University, where he developed a strong materials science background. Motivated by the potential of energy technologies, he advanced to doctoral studies at the Ulsan National Institute of Science and Technology (UNIST), completing his Ph.D. in Energy Engineering under the mentorship of Professor Hyun-Kon Song. His doctoral research, titled Designing Molecular Structures of Polymeric Binders for Alloying-Based Anodes, reflected his early focus on electrochemical materials engineering and binder chemistry. The project involved designing and optimizing polymer binders to enhance electrode reversibility and stability, especially for high-capacity alloying anode systems such as silicon and antimony. This work gave him critical expertise in molecular design, electrochemical kinetics, and the durability of next-generation battery systems. His academic training was further enriched through exposure to interdisciplinary studies in chemical engineering, materials processing, and nanotechnology. Collectively, his education equipped him with both theoretical depth and experimental versatility, enabling him to address fundamental challenges in modern battery science while preparing him for a highly impactful international research career.

Professional Experience

Dr. Chihyun Hwang’s professional journey demonstrates a consistent trajectory of leadership and innovation in advanced energy storage. He has served as Senior Researcher at the Advanced Batteries Research Center of KETI, where he leads multiple large-scale projects on lithium metal, sodium-ion, and solid-state batteries. He was previously a Research Professor at UNIST, focusing on energy and chemical engineering, bridging academia and industry in battery innovation. Before that, he broadened his international exposure as a Postdoctoral Fellow in the research group of Prof. Nian Liu at the Georgia Institute of Technology, investigating zinc-ion and solid-state battery chemistries. Prior to his U.S. experience, he worked as a Postdoctoral Researcher in Prof. Hyun-Kon Song’s group at UNIST, extending his doctoral research into industrially viable energy storage solutions. At KETI, Dr. Hwang plays a critical role in projects developing digital twin infrastructures for battery manufacturing, high-energy solid-state batteries, and safe sodium-ion systems. His career reflects an integration of academic rigor, postdoctoral innovation, and applied industrial research, with a strong emphasis on multidisciplinary collaboration. This combination highlights his ability to translate laboratory advances into scalable technologies, essential for global energy transition initiatives.

Research Interest

Dr. Chihyun Hwang’s research interests span a wide spectrum of next-generation energy storage technologies, emphasizing fundamental innovation and practical application. A major focus is all-solid-state batteries, where he works on designing polymeric binders, nanostructured anodeless materials, and interfacial stabilizers to improve energy density and long-term cycling. He also explores large-scale bipolar stacking strategies to enable commercialization. His second research stream involves sodium-ion batteries, particularly mitigating reactive oxygen species through surface doping and additive engineering for stable high-voltage cathodes. Another growing area is zinc-ion batteries, where his work includes developing single-crystalline zinc anodes, electrolyte systems, and protective interfacial layers that enhance cycling stability and suppress dendritic growth. A distinctive strength of his research lies in in-situ electrochemical analysis, employing advanced techniques such as Raman microscopy, differential electrochemical mass spectrometry, and impedance spectroscopy to elucidate reaction mechanisms. These methods provide molecular-level insights into degradation and reversibility, accelerating the design of more robust systems. Collectively, his research aims to develop high-energy-density, safe, and durable electrochemical storage devices for electric mobility and renewable integration. His interests integrate theoretical understanding, nanomaterials design, and scalable processing, establishing him as a leading figure in the quest for sustainable battery technologies.

Research Skills

Dr. Chihyun Hwang possesses a diverse and highly specialized skill set that underpins his success in energy storage research. He is an expert in molecular and polymer design, particularly for binders that enhance electrode kinetics and mechanical resilience. His skills in nanostructure engineering allow him to create novel anodeless materials and functional electrode architectures that optimize charge transport and suppress failure mechanisms. A significant technical strength lies in his command of in-situ characterization techniques, including Raman microscopy, electrochemical impedance spectroscopy, and differential electrochemical mass spectrometry, which provide real-time insights into electrochemical reactions and interfacial dynamics. He is also highly experienced in solid-state battery fabrication and analysis, enabling him to evaluate interface stability and optimize electrolyte formulations. His expertise extends to computational and analytical methods, which he uses to model battery reactions and validate experimental findings. Beyond laboratory techniques, Dr. Hwang demonstrates strong project management skills, having coordinated multi-institutional and industry-supported initiatives. His ability to integrate materials synthesis, device engineering, and mechanistic analysis allows him to approach research challenges holistically. These combined skills make him not only a prolific researcher but also a leader capable of bridging science, engineering, and technology development in advanced energy systems.

Awards and Honors

Dr. Chihyun Hwang’s contributions to energy research have been recognized through prestigious awards and leadership roles that highlight both his scientific excellence and professional impact. He was elected Academic Director of the Korean Battery Society, underscoring his standing as a leading voice in the national research community. He also received the Award Certificate of Chungbuk Governor, reflecting regional acknowledgment of his technological contributions. He was honored with the highly competitive Sejong Science Fellowship (NRF), awarded to exceptional early-career researchers in Korea. This fellowship supported his independent research initiatives and accelerated his trajectory in advanced battery innovation. In addition to these distinctions, Dr. Hwang has consistently been invited to deliver presentations at international conferences, including meetings of the Materials Research Society, Electrochemical Society, and Korean Battery Society. His invited talks and presentations demonstrate global recognition of his expertise in zinc-ion, sodium-ion, and solid-state batteries. Collectively, these awards and honors not only validate his scientific contributions but also highlight his leadership potential in shaping Korea’s and the world’s energy technology landscape. His recognitions underscore his dual role as a pioneering researcher and influential academic contributor.

Publications Top Notes

Title: Gel/solid polymer electrolytes characterized by in situ gelation or polymerization for electrochemical energy systems
Year: 2019
Citation: 304

Title: Self‐assembling films of covalent organic frameworks enable long‐term, efficient cycling of zinc‐ion batteries
Year: 2021
Citation: 188

Title: Mechanical mismatch-driven rippling in carbon-coated silicon sheets for stress-resilient battery anodes
Year: 2018
Citation: 138

Title: Folding graphene film yields high areal energy storage in lithium-ion batteries
Year: 2018
Citation: 122

Title: An antiaging electrolyte additive for high‐energy‐density lithium‐ion batteries
Year: 2020
Citation: 83

Conclusion

Dr. Chihyun Hwang exemplifies the profile of a modern applied scientist, integrating deep academic training, cutting-edge research, and practical innovation in the field of advanced batteries. With a career spanning prestigious institutions in Korea and the United States, he has built a strong reputation for addressing critical challenges in electrochemical energy storage through creative design and rigorous analysis. His more than 50 publications, combined with international collaborations and leadership in professional societies, mark him as both a thought leader and a collaborative innovator. His work consistently bridges the gap between theory and application, from molecular design of binders to the development of high-energy solid-state and sodium-ion systems. Recognition through fellowships, awards, and professional leadership further reflects his excellence and influence in the scientific community. Looking forward, Dr. Hwang is well-positioned to drive transformative advances in sustainable energy technologies, particularly in developing safer, higher-density, and more durable batteries for electric mobility and renewable integration. His career embodies a commitment to excellence, innovation, and impact, making him not only a respected researcher but also a vital contributor to the global transition toward sustainable energy solutions.

Yu-Xin Miao | Environmental Science | Best Researcher Award

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Assoc. Prof. Dr. Yu-Xin Miao | Environmental Science | Best Researcher Award

Teacher at Shenyang Normal University | China

Dr. Yu-Xin Miao, born in 1984, is an accomplished Associate Professor and a Supervisor of Master’s candidates, currently affiliated with Shenyang Normal University. With a Ph.D. from the State Key Laboratory of Fine Chemicals, Dalian University of Technology, he has made significant strides in the field of energy and environmental catalysis. Dr. Miao is an integral member of the Liaoning Innovation Team for “Energy and Environment Catalysis” and is recognized through prestigious programs such as the “Millions of Talents Project” in Liaoning Province and the Shenyang High-level Talent Support Plan. His role as a manager in Shenyang Science and Technology and a member of the Chinese Chemical Society reflects his leadership in academic and professional communities. His primary research focuses on the catalytic treatment of atmospheric pollutants, utilizing nanomaterials and heterogeneous catalysis techniques. With over 30 peer-reviewed publications in leading journals like Chinese Journal of Catalysis, Chemical Communications, and New Journal of Chemistry, as well as three patents to his name, Dr. Miao has demonstrated a strong track record of innovation. His contributions to over ten national and provincial research projects mark him as a rising authority in environmental chemistry and applied catalysis.

Professional Profile

Scopus | ORCID 

Education

Dr. Yu-Xin Miao received his doctoral degree in 2016 from the State Key Laboratory of Fine Chemicals at the prestigious Dalian University of Technology. His doctoral training placed strong emphasis on advanced research methodologies in chemical engineering, particularly in fine chemical synthesis and environmental catalysis. The rigorous academic environment and exposure to cutting-edge laboratory techniques enabled him to specialize in catalytic processes related to atmospheric pollutant mitigation. Prior to his Ph.D., he likely pursued foundational studies in chemistry or chemical engineering that prepared him for the competitive research landscape at the graduate level. His educational pathway reflects a deep commitment to scientific excellence and multidisciplinary integration, aligning physical chemistry with environmental applications. Dr. Miao’s academic background has laid a solid foundation for his subsequent research in nanomaterials, heterogeneous catalysis, and environmental remediation technologies. Furthermore, his education has empowered him with a comprehensive understanding of both theoretical and experimental aspects of chemical science, which he now leverages to supervise graduate students and lead funded research projects. His ability to translate complex scientific theory into applicable technologies for pollution control highlights the depth and utility of his academic training.

Professional Experience

Dr. Yu-Xin Miao currently serves as an Associate Professor at Shenyang Normal University, where he also supervises Master’s candidates. His professional journey is distinguished by his active role in several high-impact research and innovation programs. As a key member of the Liaoning Innovation Team for “Energy and Environment Catalysis,” he contributes to addressing critical environmental challenges through scientific and technological solutions. In addition to his academic duties, he plays a managerial role in Shenyang’s science and technology sector, bridging the gap between scientific research and practical implementation. He has led over ten research projects funded by prestigious institutions such as the National Natural Science Foundation of China and the Liaoning Provincial Natural Science Foundation. These include both general and youth projects, demonstrating his cross-generational leadership. Dr. Miao’s professional expertise lies in developing and applying catalytic technologies for air pollutant treatment, with a focus on utilizing nanomaterials in heterogeneous catalytic systems. His work has earned him multiple awards and recognition in regional and institutional talent support plans, confirming his position as a valuable asset in both academic and industrial contexts. His dual role as a researcher and academic mentor ensures the translation of research excellence to educational enrichment.

Research Interest

Dr. Yu-Xin Miao’s research interests are firmly rooted in environmental chemistry, with a primary focus on the catalytic treatment of atmospheric pollutants. He is particularly interested in the design and application of advanced nanomaterials for heterogeneous catalysis, aiming to address pressing issues related to air quality and environmental sustainability. His work involves the development of efficient catalysts capable of breaking down harmful gases and pollutants through advanced oxidation and reduction processes. Dr. Miao’s research combines fundamental studies in surface chemistry and reaction mechanisms with practical applications in pollution control technologies. He is also exploring novel catalytic pathways that enhance the selectivity and activity of materials under environmentally relevant conditions. By integrating material science with environmental engineering, his research contributes to the broader goals of green chemistry and sustainable development. His ongoing projects are aimed at developing cost-effective and scalable solutions for industrial and urban air purification. This includes collaborations with academic institutions, governmental agencies, and industry partners. Dr. Miao’s interdisciplinary research agenda reflects a strong commitment to scientific innovation that directly benefits ecological health and human well-being, positioning him as a leading figure in the field of catalytic environmental remediation.

Research Skills

Dr. Yu-Xin Miao possesses a comprehensive skill set in chemical engineering and environmental catalysis, particularly in the synthesis, characterization, and application of nanomaterials. He is adept at employing a range of analytical techniques such as X-ray diffraction (XRD), transmission electron microscopy (TEM), scanning electron microscopy (SEM), and X-ray photoelectron spectroscopy (XPS) to elucidate the structure and performance of catalytic materials. His proficiency in reaction engineering allows him to design and operate catalytic reactors for real-world applications in atmospheric pollution control. Dr. Miao is also skilled in kinetic modeling and mechanistic analysis, which he uses to optimize catalytic processes and understand reaction pathways. His experience includes managing large-scale research projects, securing competitive grants, and collaborating across interdisciplinary teams. Additionally, he is an effective academic mentor, guiding graduate students through the design and execution of experimental studies. His research is supported by a solid foundation in environmental science, materials chemistry, and surface catalysis, making him highly versatile in addressing multifaceted environmental challenges. Dr. Miao’s ability to integrate theoretical knowledge with practical applications enhances the relevance and impact of his work, and his technical and project management skills continue to drive forward cutting-edge research in catalytic environmental technologies.

Awards and Honors

Dr. Yu-Xin Miao has been the recipient of multiple awards and honors in recognition of his academic excellence and innovative research. He was selected for the “Millions of Talents Project” under the million people support plan by Liaoning Province, an initiative designed to cultivate and support top-tier scientific professionals. He has also been honored under the Shenyang High-level Talent Support Plan and the Outstanding Talent Support Plan of Shenyang Normal University, which further highlights his exceptional contributions to scientific research and academic leadership. These distinctions underscore his status as a key contributor to environmental catalysis research in northeastern China. In addition to these honors, Dr. Miao has led over ten major research projects funded by national and provincial science foundations, a testament to the trust and recognition bestowed upon him by leading research bodies. His successful track record of securing competitive funding and his consistent publication output in reputable journals also reflect his academic prestige. Furthermore, with three patents granted under his name, Dr. Miao’s innovations have extended beyond academic theory into practical applications, earning him both professional respect and societal impact. These accolades collectively affirm his role as a leading researcher in environmental chemistry.

Publications Top Notes

Title: Facile hydrothermal synthesis of hydroxyapatite nanosheets as highly “active” supports for stabilizing silver nanoparticles in toluene oxidation
Year: 2025

Title: Unlocking new frontiers in ultrasmall-sized metal nanoclusters for boosting electrochemical energy conversions
Year: 2025

Title: Highly dispersed silver nanoparticles supported on a hydroxyapatite catalyst with different morphologies for CO oxidation
Year: 2022

Title: Preparation of MgAl LDH with various morphologies and catalytic hydrogenation performance of Pt/LDH catalysts
Year: 2021

Conclusion

In conclusion, Dr. Yu-Xin Miao exemplifies academic excellence, scientific innovation, and impactful leadership in the realm of environmental catalysis. With a strong educational foundation and a Ph.D. from the State Key Laboratory of Fine Chemicals at Dalian University of Technology, he has cultivated a career dedicated to addressing critical environmental issues through advanced catalytic technologies. His extensive research on the treatment of atmospheric pollutants, combined with his expertise in nanomaterials and heterogeneous catalysis, places him at the forefront of sustainable chemical engineering. Dr. Miao’s contributions are not only evident in his over 30 peer-reviewed publications and three patents but also in his leadership roles in multiple provincial and national talent initiatives. As an Associate Professor and a mentor to graduate students, he is shaping the next generation of environmental scientists while continuing to lead high-impact research projects. His blend of academic, managerial, and technical skills enables him to bridge the gap between theory and application, contributing both to scientific advancement and societal benefit. Recognized through numerous awards and leadership positions, Dr. Miao’s career is a testament to sustained excellence and commitment in research, innovation, and education in environmental science and technology.

 

Venkatesan K | Green Chemistry | Best Researcher Award

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Assist. Prof. Dr. Venkatesan K | Green Chemistry | Best Researcher Award.

Sr. Asst. Prof at CVR College of Engineering, India

Dr. K. Venkatesan is an accomplished academic and researcher in the field of chemistry, with a specialized focus on sensor technology, nanomaterials, and analytical chemistry. With over a decade of experience in research and teaching, he has demonstrated a consistent commitment to advancing scientific knowledge and promoting innovation. He is currently serving as an Assistant Professor in the Department of Chemistry at Sir Theagaraya College, affiliated with the University of Madras, Chennai, India. Dr. Venkatesan has a prolific research portfolio that includes publications in high-impact international journals, reflecting his contributions to the development of novel electrochemical sensors and the synthesis of functional nanomaterials. His academic journey, marked by a Ph.D. from Annamalai University, showcases a deep and sustained engagement with interdisciplinary science. As an educator, he has mentored numerous undergraduate and postgraduate students, encouraging research-led learning and academic excellence. He has actively participated in national and international conferences, further enhancing his visibility and collaboration within the scientific community. Dr. Venkatesan’s ability to combine theoretical insights with practical applications makes him a valuable contributor to both academia and industry. His dedication to research, mentorship, and continuous learning underscores his role as a leading scholar in his field.

Professional Profiles

Education

Dr. K. Venkatesan has a distinguished academic background marked by rigorous training and research across the fields of chemistry and materials science. He earned his Doctor of Philosophy (Ph.D.) in Chemistry from Annamalai University in Tamil Nadu, India, in 2011. His doctoral research focused on advanced materials and chemical sensors, laying the foundation for his subsequent research career. Prior to this, Dr. Venkatesan completed his Master of Philosophy (M.Phil.) in Chemistry in 2007, also at Annamalai University, where he delved deeper into analytical chemistry and its applications. His academic journey began with a Master of Science (M.Sc.) in Chemistry, which he completed in 2006 at the same institution, with a strong emphasis on inorganic chemistry, spectroscopy, and electrochemical methods. Throughout his educational progression, Dr. Venkatesan developed a keen interest in interdisciplinary approaches, particularly those integrating nanomaterials with sensor technologies. His academic training has not only provided him with a comprehensive understanding of chemical sciences but also instilled a lifelong commitment to scientific inquiry and innovation. The consistent excellence in his academic record reflects his dedication to learning and his potential for impactful contributions in both academia and applied research.

Professional Experience

Dr. K. Venkatesan’s professional career is marked by a strong blend of teaching, research, and academic leadership. He is currently working as an Assistant Professor in the Department of Chemistry at Sir Theagaraya College, Chennai, affiliated with the University of Madras. In this role, he teaches undergraduate and postgraduate chemistry courses while supervising student research projects. His pedagogical approach emphasizes conceptual understanding, experimental skills, and research methodology. Before his current appointment, he was involved in research projects at Annamalai University during his doctoral and postdoctoral periods, focusing on nanomaterials, electrochemical sensors, and analytical techniques. Over the years, Dr. Venkatesan has contributed significantly to the academic community by publishing over 40 peer-reviewed journal articles and presenting at numerous conferences. His professional experience also includes organizing workshops and seminars aimed at fostering scientific curiosity among students. In addition to his teaching responsibilities, he is involved in curriculum development and academic counseling. He has established collaborations with researchers in India and abroad, enhancing the interdisciplinary impact of his work. Dr. Venkatesan’s professional trajectory showcases a deep commitment to academic excellence, student mentorship, and meaningful scientific contributions through research and innovation.

Research Interest

Dr. K. Venkatesan’s research interests lie at the intersection of analytical chemistry, nanotechnology, and sensor development. His primary focus is on the design and fabrication of electrochemical sensors and biosensors for the detection of biomolecules, environmental pollutants, and pharmaceutical compounds. He is particularly interested in the synthesis of nanostructured materials—such as metal oxide nanoparticles, graphene derivatives, and conducting polymers—and their application in enhancing sensor sensitivity, selectivity, and stability. His research also explores the mechanistic understanding of electron transfer processes at modified electrode surfaces, which is crucial for the development of next-generation sensor platforms. Dr. Venkatesan is committed to developing cost-effective and portable sensing devices with real-world applications in medical diagnostics, environmental monitoring, and food safety. He has an emerging interest in integrating green chemistry principles into sensor fabrication and employing biodegradable materials for sustainable development. His interdisciplinary approach enables him to bridge fundamental chemistry with practical applications, making his work highly relevant to both academic research and industry. With a keen eye on innovation and translational potential, Dr. Venkatesan’s research continues to evolve, aligning with global scientific priorities in health, environment, and technology.

Research Skills

Dr. K. Venkatesan possesses a robust set of research skills that reflect his versatility and depth as a chemist and materials scientist. He is highly skilled in electrochemical techniques such as cyclic voltammetry, chronoamperometry, and electrochemical impedance spectroscopy, which he routinely employs in sensor characterization and material analysis. His expertise extends to the synthesis and functionalization of nanomaterials, including metal nanoparticles, carbon nanomaterials, and metal oxide composites, often tailored for specific sensing or catalytic applications. Dr. Venkatesan is proficient in various spectroscopic and analytical tools such as UV-Vis spectroscopy, FTIR, XRD, SEM, and TEM, which he uses to investigate the physicochemical properties of novel materials. He is also experienced in the fabrication and modification of electrodes, and in the integration of nanomaterials with polymeric and biological matrices to develop multifunctional sensor systems. Beyond experimental techniques, he has a sound understanding of data analysis and interpretation, essential for drawing meaningful conclusions from complex datasets. His methodical approach to experimental design and problem-solving, combined with his knowledge of green chemistry and interdisciplinary methodologies, strengthens his capacity to tackle diverse research challenges in both academic and applied settings.

Awards and Honors

Dr. K. Venkatesan has been recognized for his contributions to chemical sciences and his dedication to academic excellence through various awards and honors. He was awarded the “Young Scientist Award” by the International Society for Scientific Research, acknowledging his innovative work in the field of nanomaterials and sensor technology. His outstanding research publications have earned him appreciation from scientific communities, with several of his articles appearing in high-impact international journals. He has also received travel grants and conference fellowships from reputable scientific bodies, enabling him to present his research findings at both national and international platforms. Dr. Venkatesan has been honored by academic institutions for his excellence in teaching and mentoring, reflecting his dual commitment to research and education. His achievements extend to securing minor research projects funded by state or national agencies, further underscoring his capability to lead independent research initiatives. As a peer reviewer for multiple reputed journals, he contributes actively to maintaining scholarly standards within the scientific community. These recognitions highlight his academic integrity, research acumen, and sustained efforts to contribute meaningfully to the advancement of science and education.

Conclusion

In conclusion, Dr. K. Venkatesan stands out as a dynamic academic and researcher whose work spans the critical areas of nanotechnology, analytical chemistry, and sensor development. His career reflects a seamless integration of teaching, research, and mentorship, driven by a passion for scientific discovery and societal impact. With a strong academic foundation from Annamalai University and a proven record of scholarly publications, he continues to contribute to the advancement of interdisciplinary research. His dedication to nurturing young minds, combined with his collaborative spirit and technical expertise, positions him as a valuable contributor to both national and international scientific communities. Dr. Venkatesan’s research innovations, particularly in low-cost and sensitive electrochemical sensors, hold promise for addressing pressing challenges in healthcare, environmental monitoring, and sustainable development. He remains committed to exploring new frontiers in science through continual learning, interdisciplinary collaboration, and community engagement. As he advances in his academic and research journey, Dr. Venkatesan is poised to make lasting contributions that not only enrich scientific understanding but also translate into meaningful applications benefiting society at large.

 Publications Top Notes

  1. Title: An effective, recyclable, bi-functionalized ionic liquid catalyzed solvent, metal, base free one-pot multicomponent reaction
    Authors: Parasuraman Karthikeyan, Jayaraman Sakthinarayanan, Uthayanila Selvarasu, Kasi Venkatesan, ShanmugaPriya Ramasamy
    Year: 2025

  2. Title: Ultrasound-Assisted Synthesis of Polyfunctionalized Pyridine Derivatives Catalyzed by Silica-Supported Perchloric Acid: In Vitro Anticancer Studies and Molecular Docking
    Authors: N. Hussain Basha, T. Jagadish, P. Karthikeyan, Krishnakumar Balu, Mani Durai, Mohd Afzal, Young-Ho Ahn, M. Pasupathi, K. Venkatesan
    Year: 2025

  3. Title: Biosynthesis of Titanium Oxide Nanoparticles Using Carchorus hirsutus Extract and Their Biomedical Applications
    Authors: S. Raju, Ch. Vinuthna, G.H. Bindu, A. Venugopal, Reshma, T.V. Kumar, H. Shaik, K. Venkatesan
    Year: 2024

  4. Title: Characterization, biological activity and photodegradation efficacy of synthesized tryptophan capped silver nanoparticles
    Authors: Reshma, H. Shaik, K. Venkatesan, R. Sandupatla, M.D. Kadeer, P.V. Somaiah
    Year: 2024

  5. Title: Crystal Structure, DFT Investigation, Molecular Docking, Antioxidant and Thrombolytic Investigation of Thioxo Pyrimidine-5-Carboxylate
    Authors: Pasupathi Mani, Rajarajan Murugan, Venkatesan Kasi, M. Arockiadoss, Santhi Namasivayam
    Year: 2024

  6. Title: Erratum to: Biosynthesis of Titanium Oxide Nanoparticles Using Carchorus hirsutus Extract and Their Biomedical Applications
    Authors: S. Raju, C. Vinuthna, G.H. Bindu, A. Venugopal, Reshma, T.V. Kumar, H. Shaik, K. Venkatesan
    Year: 2024

  7. Title: Green Synthesis, Characterization, Biological Activities of CuO Nanoparticles and Their Photocatalytic Degradative Mechanistic Study of Methylene Blue Dye Using Mass Spectroscopy
    Authors: Reshma, Hussain Shaik, K. Venkatesan, M.D. Kadeer, P.V. Somaiah
    Year: 2024

  8. Title: The Quantitative Detection of Cystatin-C in Patient Samples Using a Colorimetric Lateral Flow Immunoassay
    Authors: Santosh Kumar Bikkarolla, Kavipriya Venkatesan, Yeddula Rebecca Revathy, Sowmya Parameswaran, Subramanian Krishnakumar, Dhananjaya Dendukuri
    Year: 2024

  9. Title: Ultrasound Assisted Synthesis of Pyran Derivatives Catalysed by Uranyl Nitrate and Their Molecular Docking Against Glycogen Synthase Kinase-3 Beta Receptor
    Authors: K. Venkatesan, T. Srinivasa Rao, V. Sridhar, J. Yacobe, T.V.V. Satyanarayana, M. Pasupathi
    Year: 2024

  10. Title: An effective, recyclable, eco-friendly 3-(2-aminoethyl)-1-methyl-1H-imidazol-3-ium bromide [Aemim]Br: Solvent, base free synthesis of carbonyl compound catalyst by FeCl3/TEMPO
    Authors: Jayaraman Sakthinarayanan, Selvarasu Uthayanila, Kasi Venkatesan, Ramasamy ShanmugaPriya, Karthikeyan Parasuraman
    Year: 2024

  11. Title: Ultrasound Assisted Synthesis of Phenothiazine Based Chalcone Derivatives, Their Antibacterial Studies and Molecular Docking Against COVID-19 Virus Spike Protein Inhibitor
    Authors: K. Venkatesan, N. Hussain Basha, T. Jagadish, P. Vishnuvardhan Reddy, H. Shaik, M. Pasupathi
    Year: 2024

  12. Title: Synthesis and Biological Evaluation of Novel Phenothiazine Derivatives as Potential Antitumor Agents
    Authors: K. Venkatesan, V.S.V. Satyanarayana, A. Sivakumar
    Year: 2023

  13. Title: Immobilized copper (II)-containing imidazolium functionalized ionic liquid: A highly active, effective and ecological heterogeneous catalyst for the Suzuki-Miyaura reaction
    Authors: Velumani Bharathi Priya, Kasi Venkatesan, Tota Jagadish, Sivasankar Koppala, Karthikeyan Parasuraman
    Year: 2023

Sandra Baroudi | Sustainability | Best Researcher Award

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Dr. Sandra Baroudi | Sustainability | Best Researcher Award

Assistant Professor At Zayed University, United Arab Emirates

Dr. Sandra Baroudi (PhD, FHEA) is an accomplished academic and researcher specializing in education leadership, management, and policy. She holds a Doctor of Philosophy in Education Studies from the British University in Dubai and has extensive experience in higher education, research, and professional development. Currently serving as an Assistant Professor at Zayed University, she is actively involved in interdisciplinary teaching, research committees, and mentorship programs. Dr. Baroudi has contributed to the advancement of sustainable education, faculty development, and leadership in education. She has received multiple awards for her contributions to academia and holds the prestigious UAE Golden Visa in recognition of her impact. Her research focuses on educational innovations, sustainability, and teacher development. She has published extensively in peer-reviewed journals and has co-edited books on transformative leadership. Dr. Baroudi is also a co-founder and CEO of Eduvate Professional Development and Training Institute, highlighting her dedication to advancing education beyond academia.

Professional Profiles

Education

Dr. Sandra Baroudi has a strong educational foundation in leadership and educational policy. She earned her PhD in Education Studies, with a specialization in Leadership, Management, and Policy from the British University in Dubai in 2019. Prior to that, she completed her Master’s Degree in Educational Leadership and Administration at Zayed University in 2016. She also holds a Bachelor’s Degree in Social Sciences from Lebanese University, Beirut. Dr. Baroudi has actively pursued professional development, obtaining numerous certifications in areas such as learning experience design, sustainability mindset, AI-driven education, instructional design, and quality assurance in teaching. Notable certifications include the Harvard Business School Online’s Design Thinking and Innovation and multiple Quality Matters accreditations. Her commitment to continuous learning ensures she remains at the forefront of educational advancements, integrating cutting-edge methodologies into her teaching and research.

Professional Experience

Dr. Baroudi has held key academic positions across various higher education institutions. She is currently an Assistant Professor at Zayed University’s College of Interdisciplinary Studies, where she teaches courses such as Strategic Learning and Growth, Systems and Society, and Deriving Insights from Evidence. She previously served as an Assistant Professor in the College of Education at Zayed University, teaching and mentoring undergraduate students. Her professional journey also includes a tenure as a Visiting Faculty at UAE University, where she instructed courses on educational research and professional ethics. Additionally, Dr. Baroudi has been actively involved in mentoring and training in-service teachers through programs like the Ta’Alouf Program for Career-Based Teacher Development and the Sustainable Upskilling Program for the National Charity Schools.

Research Interests

Dr. Baroudi’s research interests center around educational leadership, policy reform, sustainability in education, and faculty development. She explores innovative teaching methodologies, digital transformation in education, and the integration of sustainability principles in academic curricula. Her research also examines teacher professional development, student learning experiences, and the role of leadership in fostering an inclusive and dynamic educational environment. As Head of Research for the UN PRME Chapter Middle East, she actively contributes to global discussions on sustainability and education. Her work aims to bridge the gap between academic theory and practical implementation, ensuring that research findings translate into meaningful improvements in the education sector.

Research Skills

Dr. Baroudi possesses a comprehensive set of research skills, including qualitative and quantitative analysis, systematic literature reviews, and meta-analysis. She is proficient in using analytical tools such as SPSS and Hyper Research for data coding and interpretation. Her expertise in research ethics, proposal evaluations, and peer review processes enables her to contribute significantly to academic publishing and faculty mentorship. She has successfully led multiple research projects, collaborated on international studies, and authored numerous peer-reviewed journal articles. Her methodological rigor and ability to contextualize research findings make her a valuable contributor to interdisciplinary education research. Additionally, as a guest editor for journals like Society & Business Review, she plays a key role in shaping academic discourse on sustainability and education.

Awards and Honors

Dr. Baroudi has been recognized for her outstanding contributions to academia and research. She was awarded the Fellowship for Advanced Higher Education (FHEA) by Advance HE-UK in 2021. In 2022, she received the Certificate of Achievement from Zayed University for exceeding expectations in the academic year 2021-2022. Her dedication to faculty development and student mentorship has also earned her multiple accolades, including recognition for her role in advancing quality assurance in higher education. She holds the UAE Golden Visa, an honor that underscores her significant impact on the country’s education sector. Through her leadership in research committees, curriculum development, and mentorship programs, she continues to shape the future of education in the UAE and beyond.

Conclusion

Dr. Sandra Baroudi is a distinguished academic, researcher, and educational leader committed to driving transformative change in higher education. Her extensive experience in teaching, research, and professional development underscores her dedication to fostering an innovative and sustainable learning environment. With a strong foundation in educational leadership and policy, she actively contributes to shaping the future of education through research, mentorship, and interdisciplinary collaboration. Her expertise in faculty development, digital transformation, and sustainability education ensures that she remains at the forefront of educational advancements. Through her role at Zayed University and as CEO of Eduvate Professional Development and Training Institute, she continues to inspire and empower educators, students, and policymakers alike. Dr. Baroudi’s contributions to academia and her unwavering commitment to educational excellence position her as a leading figure in the global education landscape.

 Publications Top Notes

  1. Driving transformation in higher education: Exploring the process and impact of educational innovations for sustainability through interdisciplinary studies

    • Authors: S. Baroudi, Sandra; A. ElSayary, Areej

    • Year: 2024

    • Citations: 3

  2. Editorial Preface

    • Authors: S. Baroudi, Sandra; M.D. Lytras, Miltiadis D.