Juan de Pablo | Materials Science | Best Researcher Award

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Prof. Juan de Pablo | Materials Science | Best Researcher Award

Professor and Vice President at New York University, United States

Dr. Juan José de Pablo is an internationally recognized leader in molecular engineering and materials science, currently serving as Professor and Vice President at New York University. With a distinguished academic and professional trajectory spanning over three decades, Dr. de Pablo has made pioneering contributions to soft matter physics, polymer engineering, and computational materials science. He has authored over 700 peer-reviewed publications and holds an H-index exceeding 120, reflecting the profound influence of his research. His recent roles include Executive Vice President for Global Science and Technology and Executive Dean of the Tandon School of Engineering at NYU, following a decade-long tenure at the University of Chicago. At the latter, he directed pivotal research centers and contributed to national laboratories like Argonne and Fermilab. A member of the U.S. National Academies of Engineering and Sciences, Dr. de Pablo’s interdisciplinary approach integrates theory, computation, and experimentation. His leadership in establishing large-scale scientific initiatives and educational outreach reflects a deep commitment to innovation, mentorship, and societal impact through science.

Professional Profile

Education

Dr. de Pablo began his academic journey with a Bachelor’s degree in Chemical Engineering from the National University of Mexico (UNAM) in 1985. He proceeded to earn a Ph.D. in Chemical Engineering from the University of California, Berkeley in 1990, a period during which he laid the foundation for his interest in polymeric systems and thermodynamics. Following this, he undertook a postdoctoral fellowship at ETH Zurich’s Institute for Polymers from 1990 to 1992, specializing in materials science. These formative years were instrumental in shaping his interdisciplinary research vision, blending rigorous theoretical training with practical insights. His educational background demonstrates a consistent trajectory toward advanced computational and molecular-level analysis of soft matter. The combination of leading North American and European institutions in his training reflects the global dimension of his perspective on science and engineering. These experiences equipped him with the skills to later lead international collaborations and scientific enterprises that bridge multiple disciplines, from nanotechnology to biophysics.

Professional Experience

Dr. de Pablo’s professional career is marked by leadership in academia, research management, and global scientific strategy. His early academic appointments were at the University of Wisconsin, where he progressed from Assistant to Full Professor of Chemical Engineering between 1992 and 2012. During this period, he also served as Director of the Materials Research Science and Engineering Center (MRSEC) and Deputy Director of the Nanoscale Science and Engineering Center (NSEC), driving frontier research in materials design and nanotechnology. In 2012, he joined the University of Chicago as the Liew Family Professor in the Institute for Molecular Engineering and Senior Scientist at Argonne National Laboratory. He later held multiple vice-presidential roles, overseeing national laboratories and leading global science initiatives. Currently, as Executive Vice President for Global Science and Technology and Executive Dean of NYU’s Tandon School of Engineering, he continues to shape science policy, innovation ecosystems, and advanced education. His leadership roles at UChicago-Argonne LLC and the Center for Hierarchical Materials Design (CHiMaD) further underscore his expertise in strategic research development and interdisciplinary collaboration.

Research Interest

Dr. de Pablo’s research interests span a broad spectrum within molecular and materials engineering, including soft condensed matter, computational thermodynamics, polymer physics, and biomolecular simulations. He has been instrumental in developing novel simulation techniques that enable a molecular-level understanding of materials behavior under complex conditions. His work frequently integrates theoretical frameworks with experimental data, enabling predictive modeling of systems ranging from liquid crystals to nucleic acids. More recently, he has expanded into machine learning-guided materials discovery and the design of functional materials for health, sustainability, and electronics. He is also deeply engaged in the Materials Genome Initiative, contributing to the national agenda for accelerating materials innovation. Dr. de Pablo’s research not only advances fundamental science but also facilitates translational outcomes, such as in the stabilization of biologics, nanofabrication, and soft robotics. His interdisciplinary and collaborative approach has positioned him at the forefront of modern materials science, with sustained funding from national agencies and partnerships with industry.

Research Skills

Dr. de Pablo’s research skills are characterized by exceptional breadth and depth in theoretical, computational, and applied materials science. He has pioneered algorithms for calculating free energies, explored phase transitions in complex fluids, and designed coarse-grained models for large biomolecules. His fluency in molecular dynamics, Monte Carlo simulations, and density-of-states methods is complemented by expertise in high-performance computing and GPU acceleration. He applies these tools to problems in polymer behavior, nanostructured materials, and biointerfaces. Dr. de Pablo also has deep knowledge of lithography, directed self-assembly, and patterning technologies, as evidenced by his multiple U.S. patents in these areas. Moreover, he plays a leading role in training the next generation of scientists, having supervised over 70 Ph.D. students. His entrepreneurial activities and editorial roles reflect a commitment to disseminating innovation and shaping the scientific discourse. These research capabilities, coupled with leadership in large-scale initiatives and advisory committees, make Dr. de Pablo a uniquely effective figure in both advancing science and mentoring talent.

Awards and Honors

Dr. de Pablo’s illustrious career has been recognized with over 60 prestigious awards, fellowships, and honors, reflecting his outstanding contributions to science, education, and leadership. Early in his career, he received multiple young investigator awards from the NSF, IBM, Xerox, and 3M. Notably, he was honored with the Presidential Early Career Award in Science and Engineering (PECASE) and the Presidential Faculty Fellow Award by President Clinton. He has since delivered over 40 named lectures, including the Paul Flory, Marie Curie, and Samuel C. Johnson Distinguished Lectures. Dr. de Pablo is an elected Fellow of the American Physical Society, American Academy of Arts and Sciences, and a Member of both the National Academy of Engineering and National Academy of Sciences. His recent recognitions include the Polymer Physics Prize, DuPont Medal for Excellence, and international accolades such as the Chevalier de l’Ordre du Mérite (France). These honors highlight not only his scientific excellence but also his impact as an educator, innovator, and global science diplomat.

Conclusion

Dr. Juan José de Pablo’s career exemplifies the integration of scientific brilliance, visionary leadership, and a deep commitment to global collaboration and mentorship. From his foundational training in Mexico and the U.S. to his leadership at premier institutions like the University of Chicago and NYU, he has continuously advanced the frontiers of molecular engineering and materials science. His interdisciplinary research, extensive publication record, and innovative patent portfolio showcase both depth and translational relevance. Beyond his technical achievements, Dr. de Pablo’s influence on science policy, education, and diversity initiatives reflects a holistic vision for the role of science in society. As an advisor, editor, and entrepreneur, he fosters environments where cutting-edge research meets real-world challenges. His legacy is further amplified through the numerous students and researchers he has mentored, many of whom have become leaders in their own right. Dr. de Pablo remains an inspirational figure whose work bridges disciplines, institutions, and continents in the pursuit of scientific progress and societal advancement.

Publications Top Notes

Title: Water-mediated ion transport in an anion exchange membrane
Authors: Juan J De Pablo
Year: 2025
Citations: 2

Title: Structural studies of the IFNλ4 receptor complex using cryoEM enabled by protein engineering
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: Free-Energy Landscapes and Surface Dynamics in Methane Activation on Ni(511) via Machine Learning and Enhanced Sampling
Authors: Juan J De Pablo
Year: 2025

Title: Synthetic Active Liquid Crystals Powered by Acoustic Waves
Authors: Juan J De Pablo
Year: 2025

Title: Current Advances in Genome Modeling Across Length Scales
Authors: Juan J De Pablo
Year: 2025

Title: Chromatin structures from integrated AI and polymer physics model
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: A Twist on Controlling the Equilibrium of Dynamic Thia-Michael Reactions
Authors: Juan J De Pablo
Year: 2025

Title: Bio-Based Surfactants via Borrowing Hydrogen Catalysis
Authors: Juan J De Pablo
Year: 2025

Title: Efficient sampling of free energy landscapes with functions in Sobolev spaces
Authors: Juan J De Pablo
Year: 2025
Citations: 1

Title: 3D Nano-architected Polymer Shell Enables Reconfigurable Stabilized Blue Phase Soft Crystals
Authors: Juan J De Pablo
Year: 2025

Likun Gao | Energy Sustainability | Best Researcher Award

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Prof. Dr. Likun Gao | Energy Sustainability | Best Researcher Award

Professor at Northeast forestry University, China

Professor Likun Gao is a pioneering researcher in the interdisciplinary field of advanced wood-based materials, serving at the School of Materials Science and Engineering, Northeast Forestry University, China. His work is at the forefront of integrating wood science with cutting-edge nanotechnology, particularly focusing on wood nanogenerators, electrocatalytic wood, and multifunctional self-healing materials. With a robust foundation in wood science and engineering, he has rapidly ascended as an influential academic voice in materials research. His innovations have practical implications for sustainable energy, water splitting, environmental sensing, and extreme-condition applications. Professor Gao has authored over 40 peer-reviewed publications in premier journals such as Chem. Soc. Rev., PNAS, Energy & Environmental Science, and Advanced Functional Materials. His contributions include several highly cited papers and journal covers, affirming the novelty and impact of his research. He also holds multiple patents and has co-authored important book chapters related to electrocatalysis and wood-based functional materials. Recognized through prestigious programs like China’s National Ten Thousand Talents and the CAST Young Elite Scientists Sponsorship, Gao exemplifies the next generation of scientific leadership in sustainable and intelligent materials. His commitment to interdisciplinary collaboration and scientific innovation positions him as a transformative figure in applied materials science.

Professional Profile

Education

Likun Gao’s educational journey reflects a deep and consistent focus on wood science and materials engineering, beginning with a Bachelor of Science in Wood Science and Engineering from Northeast Forestry University in 2014. Demonstrating early academic promise, he pursued his doctoral studies at the same institution, earning a Ph.D. in Wood Science and Technology in 2020. His doctoral research was marked by a growing interest in integrating biological materials with nanotechnology to produce functional composites. As part of his Ph.D. program, Gao was selected for an international research stint at the Georgia Institute of Technology, USA, from 2018 to 2020. There, he expanded his expertise in materials science and engineering, engaging with global experts and exploring the intersection of nanomaterials and bio-based resources. This international exposure enriched his methodological rigor and allowed him to contribute to several high-impact collaborations. His academic background forms the backbone of his innovative research portfolio and underpins his current leadership in multifunctional wood-based materials. The comprehensive, cross-continental training he received has equipped him with a unique perspective on the potential of sustainable materials in modern technology.

Professional Experience

Since March 2021, Professor Likun Gao has been serving as a full Professor at Northeast Forestry University’s School of Materials Science and Engineering. In this role, he leads a dynamic research group exploring the frontier of wood nanotechnology and sustainable energy materials. Building on his doctoral and international postdoctoral experiences, he has established an impressive track record of research output and innovation. Under his leadership, the lab has produced over 40 peer-reviewed journal articles, numerous high-impact papers, and several patents. His collaborations span interdisciplinary teams focused on energy conversion, smart materials, and environmental responsiveness. In addition to his scientific output, Professor Gao is also dedicated to mentoring students and early-career researchers. He regularly supervises graduate students, fostering an environment of creativity, innovation, and academic rigor. His teaching responsibilities include advanced courses in nanomaterials, wood science, and electrocatalysis. Beyond academic instruction, Gao actively contributes to national and international research projects and often serves as a reviewer for top-tier journals. His role as a professor is multifaceted—blending research, mentorship, collaboration, and academic service—which has rapidly elevated his stature in China’s scientific community and beyond.

Research Interest

Professor Likun Gao’s research interests lie at the convergence of sustainable materials science and advanced nanotechnology, focusing particularly on wood-derived functional materials. One of his core areas is the development of wood nanogenerators, including piezoelectric and triboelectric devices, as well as cellulose-based systems. These innovations provide new pathways for harvesting renewable energy from environmental sources, especially in flexible and wearable electronics. Another major focus is electrocatalytic wood, where Gao engineers wood-based single-atom electrocatalysts for applications like water splitting, targeting efficient and green hydrogen production. He also pioneers in multifunctional, self-healing wood-based materials that exhibit unique properties such as photothermal responsiveness, anti-icing, sensing, and environmental adaptability. These materials are particularly promising for use in extreme weather conditions and smart infrastructure. His research approach is distinctly bioinspired, aiming to replicate or enhance natural functionalities through molecular-level material engineering. By leveraging the structural anisotropy and hierarchical nature of wood, Gao is able to design novel platforms for catalysis and energy generation. His interests also span surface reconstruction mechanisms, dynamic active-site modulation, and intelligent material design, reflecting a deep commitment to creating smart, eco-friendly technologies.

Research Skills

Professor Gao possesses a robust and multifaceted skill set that bridges wood science, nanotechnology, materials engineering, and electrocatalysis. His expertise includes the fabrication and functionalization of wood-derived nanogenerators, capable of converting mechanical energy into electrical energy through triboelectric and piezoelectric effects. He is also skilled in the design and synthesis of single-atom electrocatalysts embedded in wood substrates, which are essential for enhancing the kinetics of water-splitting reactions. Gao’s technical toolkit includes advanced material characterization techniques such as SEM, TEM, XPS, Raman spectroscopy, and in situ operando methods, which he uses to explore catalytic mechanisms and interface dynamics. Additionally, he has substantial experience in surface modification strategies to imbue wood-based composites with photothermal, hydrophobic, and self-healing properties. His lab routinely integrates superhydrophobic coatings, carbonization techniques, and atomic doping to create responsive multifunctional materials. Professor Gao also has notable strengths in writing scientific publications, securing research grants, and patenting novel technologies. His collaborative work with international teams underscores his ability to work across disciplines and cultural contexts, making him an agile and resourceful scientist in the global research landscape.

Awards and Honors

Professor Likun Gao has garnered widespread recognition for his pioneering work in wood-based functional materials, receiving numerous prestigious awards that underscore his contributions to scientific innovation and academic excellence. In 2023, he was selected for China’s National Ten Thousand Talents Program for High-level Young Talents—one of the country’s highest honors for young researchers. A year prior, in 2022, he was awarded the Young Elite Scientists Sponsorship Program by the China Association for Science and Technology (CAST), an accolade reserved for researchers demonstrating extraordinary potential in advancing science and technology. He also received the Excellent Young Scholar Award from the Natural Science Foundation of Heilongjiang Province, recognizing his outstanding research in applied materials. Professor Gao has contributed to 3 book chapters and authored over 40 high-quality journal articles, several of which were highlighted as ESI Highly Cited Papers, journal cover stories, or Hot Papers. His intellectual property portfolio includes five patents, reflecting a commitment to practical innovation. These honors collectively affirm his leadership in the field and serve as milestones in a career defined by creativity, scientific rigor, and impactful problem-solving.

Conclusion

In summary, Professor Likun Gao stands as a dynamic and forward-thinking figure in the fields of materials science and wood-based nanotechnology. His research bridges the gap between nature and cutting-edge engineering, offering solutions for sustainable energy, smart materials, and functional composites. With a strong academic foundation, international exposure, and a commitment to interdisciplinary research, Gao has built a formidable reputation as a scientist, educator, and innovator. His work is not only scientifically profound but also socially and environmentally relevant, addressing global challenges like clean energy, climate resilience, and sustainable resource use. Through a combination of technical expertise, scholarly productivity, and leadership, Professor Gao has earned national and international recognition. As a young academic leader, he continues to push the boundaries of material innovation while fostering the next generation of researchers. With a track record of high-impact publications, prestigious awards, and cross-disciplinary collaboration, he is well-positioned to influence both academic advancements and industrial applications. The trajectory of his career reflects a deep-seated passion for discovery and a vision for materials that are both intelligent and sustainable.

Publications Top Notes

  1. Title: Wood-based triboelectric nanogenerator integrated with superhydrophobicity and photothermal-induced self-healing for high-temperature and high-humidity environment
    Authors: M. Wang, X. Li, D. Lv, P. He, C. Yang, J. Li, L. Gao*
    Year: 2025

  2. Title: High-Loading Single Atoms via Hierarchically Porous Nanospheres for Oxygen Reduction Reaction with Superior Activity and Durability
    Year: 2025

  3. Title: Self-supported N-doped carbon-coupled Ni–Co binary nanoparticle electrodes derived from bionic design of wood cell walls for durable overall water splitting
    Authors: C. Yang, R. Jin, Z. Liu, S. Li, D. Lv, J. Liu, J. Li, Z. Lin*, L. Gao*
    Journal: Journal of Materials Chemistry A
    Year: 2024

  4. Title: Collaborative integration of ultrafine Fe₂P nanocrystals into Fe, N, P-codoped carbon nanoshells for highly-efficient oxygen reduction
    Year: 2023
    Citations: 56

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

Seyedeh HOSNA Talebian | Energy Sustainability | Best Researcher Award

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Assist. Prof. Dr. Seyedeh HOSNA Talebian | Energy Sustainability | Best Researcher Award

Assistant Professor at Ilam University, Iran

Seyedeh Hosna Talebian is a dynamic and dedicated researcher with a strong foundation in agricultural sciences, pest management, and entomology. With a passion for advancing sustainable agricultural practices, she has consistently contributed to research that supports ecological balance while enhancing crop productivity. Her work reflects a strong blend of field expertise and laboratory precision, enabling her to effectively tackle real-world agricultural challenges. Seyedeh Hosna possesses a deep interest in the biological control of pests and is particularly skilled in identifying and analyzing pest-host interactions. She is known for her meticulous attention to detail, robust analytical abilities, and a commitment to scientific rigor. Throughout her academic and professional journey, she has displayed strong leadership and collaborative skills, working effectively in multidisciplinary teams. Her ability to communicate scientific findings to both technical and non-technical audiences makes her a valuable contributor to both academia and the agricultural industry. She actively participates in conferences, workshops, and scholarly networks to stay current with emerging trends and innovations in her field. Her academic background, combined with hands-on experience in integrated pest management, positions her as a promising researcher dedicated to promoting sustainable agriculture through science-based solutions.

Professional Profiles

Scopus Profile

Education

Seyedeh Hosna Talebian earned her Ph.D. in Agricultural Entomology from the University of Tehran, Iran, one of the region’s premier institutions for agricultural sciences. Her doctoral research focused on the behavioral ecology and population dynamics of key agricultural pests, with a particular emphasis on sustainable pest control strategies. During her Ph.D., she published several peer-reviewed articles and presented her findings at national and international scientific conferences. She also completed her Master’s degree in Agricultural Entomology from the same university, where her thesis investigated the efficacy of natural enemies in controlling pest populations in horticultural systems. Prior to her postgraduate studies, she obtained a Bachelor of Science degree in Plant Protection from Isfahan University of Technology, where she developed a foundational understanding of integrated pest management, plant pathology, and insect taxonomy. Throughout her academic journey, she has been recognized for her academic excellence, consistently ranking among the top students in her cohort. In addition to her coursework, she actively participated in seminars, journal clubs, and lab rotations, which enriched her knowledge and provided hands-on experience in various entomological techniques. Her diverse academic background has equipped her with the theoretical knowledge and practical skills necessary to contribute meaningfully to pest management research.

Professional Experience

Seyedeh Hosna Talebian has accumulated a wealth of professional experience in both academic and research settings, focusing primarily on entomology, pest control, and sustainable agriculture. During her Ph.D., she worked as a research assistant in multiple government-funded projects aimed at developing environmentally friendly pest management strategies for major crops in Iran. In this role, she was responsible for conducting extensive fieldwork, sampling and identifying insect species, and evaluating the impact of biological control agents in different agroecosystems. She also collaborated with agricultural extension services to train local farmers on pest identification and eco-friendly control methods. In addition, she served as a teaching assistant for undergraduate courses in entomology and plant protection, where she led laboratory sessions and assisted in curriculum development. Her teaching experience helped sharpen her communication and mentoring skills. Following her Ph.D., she undertook a postdoctoral research position at a national research institute, where she worked on enhancing the effectiveness of native parasitoids in managing invasive pests. Her work involved designing laboratory and field experiments, statistical data analysis, and publishing scientific findings in international journals. Her ability to bridge applied and theoretical research makes her a valuable asset in the pursuit of sustainable pest control solutions.

Research Interest

Seyedeh Hosna Talebian’s research interests lie at the intersection of insect ecology, integrated pest management (IPM), and biological control. She is deeply intrigued by the intricate dynamics between pests, their natural enemies, and environmental factors, and aims to use this understanding to develop sustainable pest control strategies. Her doctoral and postdoctoral work primarily focused on the behavioral and ecological mechanisms that influence pest population dynamics, with special emphasis on parasitoid-host interactions. She is particularly interested in exploring the use of indigenous biological control agents as a viable alternative to chemical pesticides. Furthermore, she is passionate about improving IPM programs by incorporating ecological modeling, risk assessment tools, and field-based experiments to optimize pest control practices. Another area of her research involves studying invasive species and their impact on native ecosystems and agriculture. By identifying vulnerabilities in invasive pest populations, she hopes to contribute to the development of early detection and rapid response strategies. Her long-term goal is to contribute to global food security by promoting pest management approaches that are both effective and environmentally responsible. Seyedeh Hosna is committed to conducting interdisciplinary research that informs policy-making and supports the transition to sustainable agricultural systems.

Research Skills

Seyedeh Hosna Talebian possesses a comprehensive set of research skills that encompass both field-based and laboratory methodologies in entomology and pest management. She is proficient in insect sampling, identification, and dissection, as well as in designing and conducting behavioral assays to study insect activity and host preferences. Her fieldwork experience includes the deployment of traps, monitoring pest populations, and evaluating the effectiveness of biological control agents under natural conditions. In the laboratory, she is skilled in rearing insect colonies, performing controlled experiments, and using microscopy and imaging tools for morphological analysis. She is well-versed in experimental design, statistical data analysis, and software tools such as SPSS, R, and SAS, which she uses to interpret complex ecological data. Her expertise also includes GIS mapping for spatial analysis of pest distribution. Seyedeh Hosna is adept at writing research proposals, preparing scientific manuscripts, and presenting findings at academic conferences. She maintains meticulous records and follows rigorous scientific protocols, ensuring the reproducibility and reliability of her research. Her collaborative skills enable her to work effectively with multidisciplinary teams, while her commitment to continuous learning drives her to stay updated on new techniques and trends in pest management and ecological research.

Awards and Honors

Throughout her academic and professional career, Seyedeh Hosna Talebian has received numerous awards and honors in recognition of her excellence in research and academic achievement. During her Ph.D. studies at the University of Tehran, she was awarded a prestigious doctoral fellowship granted to top-performing graduate students in agricultural sciences. Her outstanding performance earned her the university’s “Best Researcher Award” for two consecutive years, acknowledging her contributions to pest ecology and sustainable agriculture. She was also the recipient of the “Young Entomologist Award” at the Iranian National Entomological Congress, where she presented innovative research on parasitoid-host dynamics. Her master’s thesis received the department’s “Top Thesis Award” for its practical implications in biological pest control. Additionally, she has been granted multiple travel fellowships to attend international conferences and workshops, including events held by the International Organisation for Biological Control (IOBC). Seyedeh Hosna has also been recognized for her service in mentoring undergraduate students and her contributions to community outreach programs focused on integrated pest management. These honors reflect her dedication, academic excellence, and impact in the field of entomology, solidifying her reputation as an emerging leader in sustainable pest control research.

Conclusion

Seyedeh Hosna Talebian embodies the qualities of a passionate, skilled, and forward-thinking researcher in the field of agricultural entomology. Her deep-rooted commitment to sustainable agriculture and her pursuit of innovative pest management solutions have guided her academic and professional journey. Through rigorous research, effective collaboration, and community engagement, she has consistently contributed to scientific advancements that balance agricultural productivity with ecological integrity. Her interdisciplinary approach, combining field studies, laboratory experimentation, and data analysis, demonstrates her adaptability and scientific rigor. Moreover, her ability to translate research findings into actionable insights for farmers and policymakers highlights her broader impact on society. As she looks ahead, Seyedeh Hosna aspires to expand her research to a global stage, collaborate with international institutions, and contribute to the development of pest management strategies that are environmentally sound, economically viable, and socially responsible. With her strong academic foundation, practical experience, and unwavering dedication to science, she is poised to make meaningful contributions to global food security and sustainable development. Seyedeh Hosna Talebian represents the next generation of scientists committed to fostering agricultural systems that are both productive and environmentally resilient.

 Publications Top Notes

  • Title: Adsorption behavior of in-house developed CO₂-philic anionic surfactants

  • Authors: Seyedeh Hosna Talebian, Muhammad Sagir

  • Year: 2024

Sandra Baroudi | Sustainability | Best Researcher Award

Posted on by Applied Scientist

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.

Christos Mytafides | Nanotechnology Innovations | Innovation in Science Award

Posted on by Applied Scientist

Dr. Christos Mytafides | Nanotechnology Innovations | Innovation in Science Award

Postdoctoral Researcher From Technical University of Crete, Greece

Christos K. Mytafides is a dedicated researcher specializing in advanced multifunctional energy-harvesting materials. His expertise spans printed electronics, structural composites, and renewable energy applications. He is currently a Postdoctoral Research Scientist at the Physical Chemistry & Chemical Processes Laboratory at the Technical University of Crete. His previous roles include PhD research positions at the University of Ioannina, the University of Miami, and Eindhoven University of Technology. His research primarily focuses on integrating energy-harvesting capabilities into composite materials, particularly through thermoelectric and optoelectronic technologies. His academic background includes a PhD and master’s degrees in Materials Science & Engineering, as well as Environmental Engineering. With numerous publications in high-impact journals and multiple prestigious scholarships, including the Fulbright Scholarship, Mytafides continues to contribute significantly to the field of sustainable energy technologies. His work has practical implications for developing next-generation materials with enhanced energy efficiency, sustainability, and functionality.

Professional Profiles

Education

Christos K. Mytafides holds a PhD in Materials Science & Engineering from the University of Ioannina, where he specialized in advanced multifunctional energy-harvesting materials. His doctoral research focused on integrating printed electronics with energy-harvesting capabilities in advanced structural composites. Prior to his PhD, he earned a Master’s Degree in Advanced Materials from the University of Ioannina, specializing in optoelectronic and magnetic materials. His master’s thesis explored the design and efficiency enhancement of dye-sensitized solar cells through plasmonic nanoparticles. Additionally, he obtained another Master’s Degree in Environmental Engineering & Science from Democritus University of Thrace, where he focused on energy-efficient design and renewable energy applications. His thesis investigated transforming a university building into a zero-energy structure. His diverse academic background has provided him with a strong foundation in materials science, optoelectronics, nanotechnology, and sustainable energy solutions, all of which play a crucial role in his ongoing research contributions.

Professional Experience

Mytafides has amassed extensive experience in academia and research, with notable positions at prestigious institutions. Currently, he is a Postdoctoral Research Scientist at the Technical University of Crete’s Physical Chemistry & Chemical Processes Laboratory. Previously, he was a PhD Researcher at the University of Ioannina, where he explored multifunctional energy-harvesting materials. He also conducted research at the Advanced Nano Systems Laboratory at the University of Miami, focusing on multifunctional composites with embedded photo-thermal energy-harvesting capabilities. During a research traineeship at Eindhoven University of Technology, he worked on innovative solar cell materials and designs. His expertise includes additive manufacturing, thermoelectric generators, and carbon-based flexible electronics. His work integrates advanced material processing techniques with real-world applications, leading to the development of next-generation energy solutions. Mytafides’ research contributions are widely recognized, making him a key figure in energy-harvesting composite materials.

Research Interests

Mytafides’ research interests center on developing multifunctional materials for energy harvesting and sustainable applications. His work involves integrating printed electronics into composite materials to create energy-efficient structures. He is particularly interested in thermoelectric and optoelectronic materials, which have the potential to revolutionize energy sustainability. His expertise extends to carbon-based nanostructures, additive manufacturing, and hybrid energy systems that combine solar and thermal energy harvesting. By utilizing advanced material synthesis and characterization techniques, Mytafides aims to enhance energy conversion efficiency in various applications, including smart materials and green technologies. His work aligns with global efforts to develop innovative solutions for renewable energy and energy-efficient materials, with applications in aerospace, automotive, and structural engineering. His research contributions have been published in high-impact journals, highlighting his significant role in advancing sustainable energy solutions.

Research Skills

Mytafides possesses extensive research skills in materials science, nanotechnology, and energy harvesting. He is proficient in advanced material characterization techniques such as spectroscopy, electron microscopy, and thermal analysis. His expertise in additive manufacturing enables him to develop highly conductive carbon-based structures for flexible thermoelectric applications. He has experience with composite materials engineering, particularly in integrating energy-harvesting functionalities into fiber-reinforced polymers. His computational skills include simulation and modeling of energy conversion processes, optimizing material performance for real-world applications. Additionally, he has hands-on experience with printed electronics, allowing him to design and fabricate novel energy-efficient devices. His interdisciplinary approach combines experimental research with theoretical insights, leading to the development of high-performance materials for sustainable applications. His skillset makes him a valuable contributor to advancements in renewable energy and smart material technologies.

Awards and Honors

Mytafides has received numerous awards and distinctions for his research excellence. He was awarded the prestigious Fulbright Scholarship for PhD research at the University of Miami, where he studied multifunctional composites with embedded photo-thermal energy-harvesting capabilities. He also received funding from the Hellenic Foundation for Research and Innovation and the National Strategic Reference Framework for his doctoral research. Additionally, he participated in the Erasmus+ Mobility program, which supported his research traineeship at Eindhoven University of Technology. His contributions have been recognized through multiple fellowships and research grants, reflecting his impact on the field of materials science and energy harvesting. These accolades highlight his commitment to advancing sustainable technologies and his ability to conduct high-impact research in collaboration with international institutions.

Conclusion

Christos K. Mytafides is a distinguished researcher in the field of advanced multifunctional energy-harvesting materials. His expertise in materials science, nanotechnology, and energy-efficient design has led to significant contributions in printed electronics, composite materials, and renewable energy technologies. His academic journey, spanning multiple prestigious institutions, has equipped him with the necessary skills and knowledge to develop next-generation sustainable energy solutions. His research has been widely recognized, with numerous publications, awards, and funded projects supporting his work. As a Postdoctoral Research Scientist, he continues to explore innovative ways to enhance energy conversion efficiency, aiming to develop smart, sustainable materials for various applications. His dedication to interdisciplinary research and collaboration ensures that his work remains at the forefront of scientific advancements in energy harvesting and materials engineering.

 Publications Top Notes

  1. Advanced functionalization of carbon fiber-reinforced polymer composites towards enhanced hybrid 4-terminal photo-thermal energy harvesting devices by integrating dye-sensitized solar cells and thermoelectric generators

    • Authors: Mytafides, Christos K.; Tzounis, Lazaros; Prouskas, Costas; Yentekakis, Ioannis V.; Paipetis, Alkiviadis S.

    • Year: 2025

  2. A hierarchically modified fibre-reinforced polymer composite laminate with graphene nanotube coatings operating as an efficient thermoelectric generator

    • Authors: Mytafides, Christos K.; Tzounis, Lazaros; Tsirka, Kyriaki; Karalis, George; Liebscher, Marco; Lambrou, Eleftherios; Gergidis, Leonidas; Paipetis, Alkiviadis

    • Year: 2024

  3. Additive manufacturing of highly conductive carbon nanotube architectures towards carbon-based flexible thermoelectric generators

    • Authors: Mytafides, Christos K.; Wright, William J.; Gustinvil, Raden; Tzounis, Lazaros; Karalis, George; Paipetis, Alkiviadis; Celik, Emrah

    • Year: 2024

  4. Carbon fiber/epoxy composite laminates as through-thickness thermoelectric generators

    • Authors: Karalis, George; Tzounis, Lazaros; Tsirka, Kyriaki; Mytafides, Christos K.; Liebscher, Marco; Paipetis, Alkiviadis

    • Year: 2022

  5. Automated detection-classification of defects on photo-voltaic modules assisted by thermal drone inspection

    • Authors: Gurras, Arsenios; Gergidis, Leonidas; Mytafides, Christos K.; Tzounis, Lazaros; Paipetis, Alkiviadis S.

    • Year: 2021

  6. Fully printed and flexible carbon nanotube-based thermoelectric generator capable for high-temperature applications

    • Authors: Mytafides, Christos K.; Tzounis, Lazaros; Karalis, George; Formanek, Petr; Paipetis, Alkiviadis

    • Year: 2021

  7. Printed Single-Wall Carbon Nanotube-Based Joule Heating Devices Integrated as Functional Laminae in Advanced Composites

    • Authors: Karalis, George; Tzounis, Lazaros; Dimos, Evangelos; Mytafides, Christos K.; Liebscher, Marco; Karydis-Messinis, Andreas; Zafeiropoulos, Nikolaos E.; Paipetis, Alkiviadis

    • Year: 2021

  8. A high-performance flexible and robust printed thermoelectric generator based on hybridized Te nanowires with PEDOT:PSS

    • Authors: Karalis, George; Tzounis, Lazaros; Mytafides, Christos K.; Tsirka, Kyriaki; Formanek, Petr; Stylianakis, Minas M.; Kymakis, Emmanuel; Paipetis, Alkiviadis S.

    • Year: 2021

  9. Advanced Glass Fiber Polymer Composite Laminate Operating as a Thermoelectric Generator: A Structural Device for Micropower Generation and Potential Large-Scale Thermal Energy Harvesting

    • Authors: Karalis, George; Tzounis, Lazaros; Tsirka, Kyriaki; Mytafides, Christos K.; Itskaras, Angelos Voudouris; Liebscher, Marco; Lambrou, Eleftherios; Gergidis, Leonidas N.; Barkoula, Nektaria-Marianthi; Paipetis, Alkiviadis

    • Year: 2021

  10. An Approach toward the Realization of a Through-Thickness Glass Fiber/Epoxy Thermoelectric Generator

  • Authors: Karalis, George; Mytafides, Christos K.; Tzounis, Lazaros; Paipetis, Alkiviadis; Barkoula, Nektaria-Marianthi

  • Year: 2021

  1. High-Power All-Carbon Fully Printed and Wearable SWCNT-Based Organic Thermoelectric Generator

  • Authors: Mytafides, Christos K.; Tzounis, Lazaros; Karalis, George; Formanek, Petr; Paipetis, Alkiviadis S.

  • Year: 2021

  1. Epoxy/glass fiber nanostructured p- and n-type thermoelectric enabled model composite interphases

  • Authors: Karalis, George; Tsirka, Kyriaki; Tzounis, Lazaros; Mytafides, Christos K.; Koutsotolis, Loukas; Paipetis, Alkiviadis S.

  • Year: 2020

  1. Hierarchical reinforcing fibers for energy harvesting applications—A strength study

  • Authors: Karalis, George; Mytafides, Christos K.; Polymerou, Angelos; Tsirka, Kyriaki; Tzounis, Lazaros; Gergidis, Leonidas; Paipetis, Alkiviadis S.

  • Year: 2020

  1. Design, fabrication and characterization of plasmon-enhanced dye-sensitized solar cells

  • Authors: Mytafides, Christos K.

  • Year: 2019

  1. Transformation of a university building into a zero-energy building in Mediterranean climate

  • Authors: Mytafides, Christos K.; Dimoudi, A.; Zoras, S.

  • Year: 2017

  1. Integrated architectures of printed electronics with energy-harvesting capabilities in advanced structural composites

  • Authors: Mytafides, Christos K.