Maria Myrto Dardavila | Chemical Engineering | Research Excellence Award

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Dr. Maria Myrto Dardavila | Chemical Engineering | Research Excellence Award

National Technical University of Athens | Greece

Dr. Maria Myrto Dardavila is a distinguished chemical engineer whose research significantly advances electrodeposition, nanomaterials, green extractions, and deep eutectic solvents. With 11 Scopus-indexed publications, 177 citations, and an h-index of 4, her work demonstrates strong international impact in materials science, surface engineering, and sustainable chemical processes. Her research portfolio includes influential studies on the extraction of bioactive compounds from Ulva lactuca and Chlorella vulgaris, magnetic harvesting optimization, and the development of environmentally sustainable extraction platforms using deep eutectic solvents. She has contributed substantially to the design, electrodeposition behavior, and performance of Ni/ZrO₂ and Ni/TiO₂–ZrO₂ composite coatings, examining pulse-plating parameters, microstructural evolution, mechanical characteristics, and functional surface properties relevant to industrial applications. Her work expands into thermochemical energy-storage materials and the thermodynamic modeling of phenolic compound solubilities in DES systems, showcasing strong multidisciplinary integration across chemical thermodynamics, materials engineering, and bio-based technologies. Her research contributions are further strengthened through participation in major EU-funded R&D initiatives, where she has supported the delivery of high-quality scientific outputs, zero-rejection deliverables, and science-driven project milestones. She has made notable contributions to more than 15 competitive research proposals, enhancing collaborative innovation across academia and industry. Dr. Maria Myrto Dardavila’s research reflects a strong combination of advanced experimental expertise, scientific leadership, and commitment to sustainable material development, positioning her as a key contributor to modern chemical engineering and applied materials science.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Pappou, S., Dardavila, M. M., Savvidou, M. G., Louli, V., Magoulas, K., & Voutsas, E. (2022). Extraction of bioactive compounds from Ulva lactuca. Applied Sciences, 12(4), 2117.

2. Savvidou, M. G., Dardavila, M. M., Georgiopoulou, I., Louli, V., Stamatis, H., & colleagues. (2021). Optimization of microalga Chlorella vulgaris magnetic harvesting. Nanomaterials, 11(6), 1614.

3. Dardavila, M. M., Pappou, S., Savvidou, M. G., Louli, V., Katapodis, P., Stamatis, H., & colleagues. (2023). Extraction of bioactive compounds from C. vulgaris biomass using deep eutectic solvents. Molecules, 28(1), 415.

4. Dardavila, M. M., Hamilakis, S., Loizos, Z., & Kollia, C. (2015). Ni/ZrO₂ composite electrodeposition in the presence of coumarin: Textural modifications and properties. Journal of Applied Electrochemistry, 45(5), 503–514.

5. Dardavila, M. M., Sofianos, M. V., Rodriguez, B. J., Bekarevich, R., Tzanis, A., & colleagues. (2025). A comprehensive investigation of the effect of pulse plating parameters on the electrodeposition of Ni/ZrO₂ composite coatings. Results in Surfaces and Interfaces, 18, 100421.

Hanaa Elgamily | Dentistry | Research Excellence Award

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Assoc. Prof. Dr. Hanaa Elgamily | Dentistry | Research Excellence Award

National Research Centre | Egypt

Assoc. Prof. Dr. Hanaa Elgamily is an accomplished researcher in operative dentistry and dental biomaterials, with a strong focus on preventive oral health innovations. Her research integrates dental materials science, probiotics, nanotechnology, and bioactive delivery systems to develop advanced anti-cariogenic and remineralizing formulations. She has led and contributed to multiple national research projects addressing antimicrobial activity, restorative material performance, and natural-product-based oral therapeutics. Her work has resulted in patented preventive dental products, a specialized academic book on probiotics for oral health, and publications in high-impact, internationally indexed journals.

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Subhra Suhaney | Cybersecurity and Cryptography | Forensic Scientist of the Year Award

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Dr. Subhra Suhaney | Cybersecurity and Cryptography | Forensic Scientist of the Year Award

Institute for Excellence in Higher Education Bhopal | India

Dr. Subhra Suhaney is a dedicated forensic science researcher whose work spans analytical toxicology, advanced chromatographic method development, digital forensics, and technology-driven innovations in forensic education. Her research is prominently recognized for pioneering contributions in the detection, separation, and quantification of stupefacient and psychoactive compounds in foodstuffs and beverages an area of critical importance to forensic toxicology, criminal investigations, and public safety. She has significantly advanced the application of Micellar Liquid Chromatography (MLC), establishing it as an eco-friendly, cost-effective, and analytically robust alternative to conventional TLC and HPLC for benzodiazepines and other psychoactive substances. Her publications in respected journals such as the Journal of AOAC International, Journal of Liquid Chromatography & Related Technologies, E-Journal of Chemistry, and the Journal of the Indian Chemical Society demonstrate strong methodological precision and practical forensic relevance. Dr. Subhra Suhaney’s scholarly outputs include validated multi-analyte detection protocols, rapid screening techniques for ketamine-based adulteration, and improved chromatographic systems that enhance the reliability and evidentiary value of forensic analyses. Beyond chemical forensics, she contributes to the fields of digital forensics, AI-based data privacy concerns, and ICT-enabled learning, reflecting an interdisciplinary approach aligned with modern forensic challenges. She has actively presented her work in national conferences, participated in academic workshops, and developed quality e-content in fingerprint science to strengthen forensic pedagogy. According to Google Scholar, she has over six research publications with 15 citations, an h-index of 3, underscoring the scholarly impact and growing recognition of her research contributions.

Profile: Google Scholar

Featured Publications

1. Subhra, H., Devasish, B., Josep, E. R., & Abhilasha, D. (2012). Micellar liquid chromatography for the determination of some less prescribed benzodiazepines. Journal of Chemistry, 9(1), 443–450.

2. Subhra, H., Prakash, D. N., Abhilasha, D., Josep, E. R., & Devasish, B. (2014). Simultaneous determination of psychoactive compounds in foodstuffs using micellar liquid chromatography with direct injection. Journal of AOAC International, 97(2), 409–414.

3. Hoonka, S., Durgbanshi, A., Esteve-Romero, J., Dubey, N. P., & Bose, D. (2014). Simultaneous determination of three stupefacients in foodstuff using high-performance liquid chromatography. Journal of Liquid Chromatography & Related Technologies, 37(9), 1287–1297.

4. Hoonka, S., Dubey, N. P., Esteve-Romero, J., Durgbanshi, A., & Bose, D. (2013). Rapid screening of ketamine in confiscated orange juice by thin layer chromatography. Journal of the Indian Chemical Society, 90(4), 513–517.

5. Suhaney, S. (2025). Breach of users’ personal data by artificial intelligence. International Journal of All Research Education and Scientific Methods.

Ying Cui | Immunology and Microbiology | Excellence in Research Award

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Ms. Ying Cui | Immunology and Microbiology | Excellence in Research Award

Beijing Friendship Hospital, Capital Medical University | China

Ms. Ying Cui is an emerging neuroscientist whose research advances the understanding of the gut–brain axis, neurodegeneration mechanisms, and biomarker innovation in Parkinson’s disease (PD). Her work integrates metagenomics, multi-parameter clinical imaging, molecular neuroscience, and machine-learning analytics to improve diagnostic precision and support translational therapeutic development. With 6 Scopus-indexed publications, 85 citations, and an h-index of 2, her research impact continues to grow across both clinical and experimental domains. Ms. Ying Cui has contributed to high-value research projects, including multicenter clinical trials and national-level neuroscience studies, where she played key roles in microbiome profiling, experimental methodology, and advanced neuroimaging assessment using ¹²³I-MIBG scintigraphy. Her first-author publications provide novel insights into the diagnostic performance of cardiac and extra-cardiac washout rate parameters for differentiating PD from Parkinson-plus syndromes, offering clinically relevant imaging markers for complex diagnostic scenarios. Complementing her imaging research, Ying has developed a high-accuracy metagenomic diagnostic model with 99% validation accuracy and identified functional probiotic strains with the potential to modulate α-synuclein aggregation, mitochondrial dysfunction, and neuroinflammatory signaling work that has led to a PCT international patent for a probiotic composition targeting REM Sleep Behavior Disorder. Her multidisciplinary contributions span biomarker discovery, clinical–computational integration, translational microbiome innovation, and cross-institutional collaborations in neurology, microbiology, metabolomics, and bioinformatics. Through this synergistic research portfolio, Ying Cui continues to advance early diagnostic strategies, mechanistic insights, and therapeutic innovation in Parkinson’s disease, establishing herself as a rising researcher in translational neurodegeneration science.

Profiles: Scopus | ORCID

Featured Publications

  • Xue, T., Cui, Y., Kan, Y., & Yang, J. (2025). Value of extra-cardiac sympathetic nervous uptake parameters based on ¹²³I-MIBG SPECT/CT in the assessment of Parkinson’s disease. Clinical and Translational Imaging.

  • Xue, T., Cui, Y., Kan, Y., & Yang, J. (2025). Value of multi-parameter ¹²³I-MIBG scintigraphy in the differential diagnosis of Parkinson’s disease. EJNMMI Research.

Huai-Jen Tsai | Biochemistry, Genetics and Molecular Biology | Research Excellence Award

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Prof. Dr. Huai-Jen Tsai | Biochemistry, Genetics and Molecular Biology | Research Excellence Award

Institute of Life Science, Fu-Jen Catholic University | Taiwan

Prof. Dr. Huai-Jen Tsai is a distinguished molecular biologist whose research spans developmental biology, marine biotechnology, and gene transgenesis in aquatic organisms, with a particular focus on zebrafish and other finfish models. He has pioneered innovative sperm-mediated and electroporation-based gene transfer systems, enabling highly efficient transgenesis in finfish and shellfish, and has significantly advanced understanding of growth hormone regulation, gonadotropins, rhodopsins, and muscle-specific transcription factors, thereby contributing to both vertebrate developmental biology and aquaculture applications. Prof. Dr. Huai-Jen Tsai’s work bridges fundamental molecular biology and applied biotechnology, investigating molecular mechanisms regulating embryonic development, stress responses, and neural regeneration, including studies on ENDOU-mediated translation regulation and the role of extracellular proteins in promoting neurite outgrowth and spinal cord repair. He has authored 162 documents indexed in Scopus, which have been cited over 5,174 times by 4,191 publications, and he holds an h-index of 36, reflecting the high impact and wide recognition of his contributions in the scientific community. Throughout his career, Prof. Dr. Huai-Jen Tsai has received numerous prestigious awards, including the MOST Outstanding Research Award, Y. Z. Hsu Technology Invention Award for a patented zebrafish gene fragment, and multiple NSC Outstanding Research Awards, and he has served as principal investigator on numerous funded research projects. In addition, he contributes extensively as a reviewer and editorial board member for international journals. His research continues to integrate molecular genetics, developmental studies, and biotechnological innovation, establishing him as a leading authority in aquatic molecular genetics, transgenic technologies, and regenerative biology, and underscoring his influential role in advancing both basic science and translational applications in vertebrate and aquatic systems.

Profiles: Scopus | ORCID

Featured Publications

  • Lee, H.-C., Huang, Y.-H., Hsieh, C.-C., Ke, Y.-N., & Tsai, H.-J. (2025). ENDOU-1-induced cytoplasmic HnRNPA3 recognizes m6A methylation on the upstream reading frame of human CHOP transcripts to achieve maximal CHOP translation. Preprint.

  • Lee, B.-C., Tsai, J.-C., Huang, Y.-H., Wang, C.-C., Lee, H.-C., & Tsai, H.-J. (2024). The 419th aspartic acid of neural membrane protein enolase 2 is a key residue involved in axonal growth of motor neurons mediated by interaction between enolase 2 receptor and extracellular Pgk1 ligand. International Journal of Molecular Sciences, 25(19), 10753.

  • Lee, H.-C., Chao, H.-T., Lee, S. Y.-H., Lin, C.-Y., & Tsai, H.-J. (2023). The upstream 1350~1250 nucleotide sequences of the human ENDOU-1 gene contain critical cis-elements responsible for upregulating its transcription during ER stress. International Journal of Molecular Sciences, 24(24), 17393.

  • Zeng, C.-W., & Tsai, H.-J. (2023). The promising role of a zebrafish model employed in neural regeneration following a spinal cord injury. International Journal of Molecular Sciences, 24(18), 13938.

  • Fu, C.-Y., Chen, H.-Y., Lin, C.-Y., Chen, S.-J., Sheu, J.-C., & Tsai, H.-J. (2023). Extracellular Pgk1 interacts with neural membrane protein enolase-2 to improve neurite outgrowth of motor neurons. Communications Biology, 6, 822.

Kirubakaran Annamalai | Engineering | Research Excellence Award

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Dr. Kirubakaran Annamalai | Engineering | Research Excellence Award

National Institute of Technology Warangal | India

Dr. Kirubakaran Annamalai, Associate Professor at the Department of Electrical Engineering, National Institute of Technology, Warangal, is a distinguished researcher in Power Electronics, Renewable Energy Systems, and Distributed Generation, with a primary focus on the design, analysis, and implementation of multilevel inverters, DC-DC and DC-AC converters, grid-tied photovoltaic systems, and power quality improvement techniques. He has made significant contributions to quasi-Z-source and switched-capacitor-based inverter topologies, emphasizing high efficiency, reduced device counts, leakage current minimization, and real-time control using DSP, FPGA, and dSPACE platforms. Dr. Kirubakaran Annamalai has published 70 peer-reviewed articles, accumulating 1,563 citations with an h-index of 14 (Scopus), in top international journals such as IEEE Transactions on Power Electronics, IEEE Journal of Emerging and Selected Topics in Power Electronics, and Springer’s Journal of Electrical Engineering, and has presented extensively at IEEE and global conferences. He has authored multiple book chapters on advanced power electronics for solar PV and hybrid renewable systems, demonstrating his expertise in sustainable energy technologies. He has successfully led and collaborated on research projects funded by SERB, DST-FIST, SPARC, and SIRE, with budgets ranging from Rs. 2.8 Lakhs to over Rs. 94 Lakhs, focusing on innovative converter designs, smart grid laboratories, and electric vehicle applications, and holds patents on transformer less multilevel inverters. Dr. Kirubakaran Annamalai has supervised numerous Ph.D. and M.Tech scholars, advancing frontier research in power electronics. Recognized for his research excellence through the SIRE Fellowship 2023, multiple IEEE Best Paper Awards, editorial contributions, conference chairing, and active membership in IEEE, ISTE, and other professional bodies, he continues to drive innovation in inverter topologies, grid integration strategies, and renewable energy systems, making a lasting impact on modern power conversion technologies.

Profiles: Scopus | Google Scholar | ORCID | ResearchGate | LinkedIn

Featured Publications

  • Palakurthi, R., & Kirubakaran, A. (2025). DSP controlled single-phase two-stage five-level inverter for high-efficiency grid-connected photovoltaic systems. Electrical Engineering, 108(1).

  • Palakurthi, R., & Kirubakaran, A. (2025). Rapid prototyping of FPGA controlled common ground single-phase transformerless five-level inverter using Xilinx System Generator. IEEE Latin America Transactions, 23(7), 609–618.

  • Kalyan Singh, K., & Kirubakaran, A. (2025). Single-phase five-level common ground transformerless switched capacitor inverters for PV applications with double gain. In 2025 Fourth International Conference on Power, Control and Computing Technologies (ICPC2T).

  • Barzegarkhoo, R., Kirubakaran, A., Pereira, T., Liserre, M., & Siwakoti, Y. P. (2024). Improved T-type and ANPC multilevel converters by means of GaN-based T-cell branch and bidirectional device. In IECON 2024 – 50th Annual Conference of the IEEE Industrial Electronics Society.

  • Kirubakaran, A., Barzegarkhoo, R., & Liserre, M. (2024). A new single-phase dual-mode active neutral point-clamped five-level inverter for renewable applications. In 2024 Third International Conference on Power, Control and Computing Technologies (ICPC2T).

Bingqin Han | Computer Science and Artificial Intelligence | Research Excellence Award

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Mr. Bingqin Han | Computer Science and Artificial Intelligence | Research Excellence Award

Tianjin University | China

Mr. Bingqin Han, is a leading researcher at the intersection of artificial intelligence, consumer psychology, and business ethics, focusing on the factors that influence AI adoption in both consumer and managerial contexts. His work integrates behavioral science, marketing, and technology studies to examine how trust, risk perception, ethical considerations, and cognitive biases shape the acceptance and utilization of AI technologies. He has pioneered innovative frameworks for modeling human–AI interaction, most notably the “onion model” of AI humanoid robot adoption in domestic settings, which conceptualizes acceptance across technical, psychological, and social layers, offering both theoretical and practical insights. Mr. Bingqin Han’s scholarly contributions include three peer-reviewed publications, which have garnered three citations and an h-index of 1 according to Scopus, reflecting his emerging influence in the field. Beyond publications, he has contributed to interdisciplinary research projects, participated in editorial and peer-review activities, and engaged in collaborative initiatives that bridge academia and industry, highlighting his commitment to advancing both theory and practice. His work has significantly enriched understanding of human–AI integration, providing actionable guidance for developers, policymakers, and researchers aiming to optimize AI deployment in real-world environments. By combining rigorous empirical research, innovative conceptual frameworks, and interdisciplinary collaboration, Han has made substantial contributions to AI adoption research, behavioral decision-making, and ethical technology development, establishing a foundation for future innovations and informing responsible, human-centered implementation of AI technologies across diverse contexts.

Profile: Scopus

Featured Publications

  • Han, B., Song, S., Liu, D., & Mo, J. (2024). Mechanism of online public opinion formation in major risk events in China: A qualitative comparative analysis.

  • Han, B., & Liu, D. (2025). Peeling back acceptance: An onion model of AI humanoid robot adoption in homes.

 

Alžběta Danielisová | Humanities and Science Integration | Excellence in Research Award

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Dr. Alžběta Danielisová | Humanities and Science Integration | Excellence in Research Award

Institute of Archaeology of the CAS, Prague | Czech Republic

Dr. Alžběta Danielisová is a distinguished archaeological scientist whose research integrates geochemistry, biochemistry, and material science to advance the understanding of past human societies across Europe and Southern Arabia. Her work focuses on the systematic interpretation of biochemical and geochemical datasets, combining humanities-driven archaeological inquiry with innovative scientific methodologies. She specializes in multi-isotopic, proteomic, and provenance analyses applied to metallic artefacts particularly copper alloys as well as biological materials, including human and animal remains, enabling high-resolution reconstructions of ancient mobility, dietary habits, technological practices, and socio-economic organization. Dr. Alžběta Danielisová has an extensive publication record, with 35 Scopus-indexed articles, 514 citations from 452 citing documents, and an h-index of 11, reflecting her significant impact in the field of archaeological science. Her research has produced major insights into Iron Age transformations in Central Europe, early Medieval cosmopolitanism in Finland, Neolithic occupation in Oman, and environmental adaptation in marginal landscapes. In collaboration with the Max Planck Institute in Mainz, she has pioneered nitrogen isotope analysis of human enamel, providing novel perspectives on dietary resilience and life-history trajectories. Her completed and ongoing projects expand archaeological science through the integration of isotopic systems, advanced geochemical modelling, and spatial data analysis, contributing to an understanding of risk management, resource strategies, and long-term cultural resilience. Recognized internationally for her interdisciplinary innovation, methodological advancements, and collaborative research, Danielisová continues to shape the field by producing evidence-based reconstructions of ancient lifeways, offering both historical insight and frameworks that inform contemporary studies of sustainability, adaptation, and socio-environmental dynamics.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

  1. Danielisová, A., Hajnalova, M., Pokorna, A., Kočár, P., Kertés, S., Bursák, D., Pachnerova Brabcova, K., Tvrdý, Z., Šálková, T., Komárková, V., & Světlík, I. (2025). Multiproxy evidence of millet reliance and selective dietary change during Iron Age transformation in Central Europe. Scientific Reports, 15(1).

  2. Danielisová, A., Maiorano, M. P., Sneberger, J., Ackerman, L., Daněček, D., Garba, R., Martínez-García, A., & Lüdecke, T. (2025). The first collective Neolithic megalithic tomb in Oman. Antiquity.

  3. Garba, R., Czech Academy of Sciences, & Danielisová, A. (2025). Archaeological landscape and environmental dynamics of Duqm and Nejd (ARDUQ) | Season 2 (2022–2023). In Athar: Bulletin of Archaeological Research in the Sultanate of Oman, Issue 1 (pp. 54–62). Ministry of Heritage and Tourism, Sultanate of Oman, Muscat.

  4. Nordfors, U., Danielisová, A., Etu‐Sihvola, H., Ackerman, L., Mannermaa, K., & Arppe, L. (2025). The origins of Viking Age dogs in Luistari, Eura, Finland. International Journal of Osteoarchaeology, 35(4).

  5. Danielisová, A., Nordfors, U., Kertés, S., Wessman, A., Ackerman, L., Oinonen, M., Etu-Sihvola, H., & Arppe, L. (2025). Multi-isotopic evidence reveals the emergence of a cosmopolitan community at the Luistari cemetery in Eura, Finland, during the early Medieval period (600–1130 CE). Archaeological and Anthropological Sciences, 17(3).

Aby Joseph | Genetics and Genomics | Best Researcher Award

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Dr. Aby Joseph | Genetics and Genomics | Best Researcher Award

Amity University, Dubai | United Arab Emirates

Dr. Aby Joseph is a distinguished forensic science scholar whose research has significantly advanced forensic DNA quality management, crime scene biology, and international forensic accreditation systems. His work focuses on enhancing the accuracy and integrity of forensic DNA workflows through contamination control strategies, DNA quality improvement models, and ISO/IEC 17025–aligned quality frameworks. Notably, his Scopus-indexed scholarly footprint includes 7 publications, 3 citations, and an h-index of 1, reflecting a steadily growing impact in the forensic science research community. Dr. Aby Joseph has authored influential peer-reviewed articles in leading journals such as the Journal of Forensic Science and Medicine, Problems of Forensic Science, Multidisciplinary Science Journal, and the Journal of Communicable Diseases. His research spans integrated ISO-centric quality systems, comparative analyses of national forensic DNA frameworks, contamination mitigation, and forensic interventions in zoonotic disease transmission. In addition to journal publications, he has contributed book chapters with Nova Science Publishers and Springer, covering forensic entomology and advanced investigative methodologies. His scholarly presence is further strengthened by case studies, conference papers, and invited presentations on topics such as GCC forensic DNA standard harmonization, parentage testing complexities, disaster victim identification, wildlife crime, and advancements in forensic genetics. As a keynote speaker, session chair, and panel moderator at major international conferences, he has demonstrated notable academic leadership. Dr. Aby Joseph’s research contributions continue to shape forensic quality assurance, DNA analysis standards, and evidence-based forensic innovation worldwide.

Profiles: Scopus | ORCID

Featured Publications

  • Joseph, A., Rao, I., & Singh, N. (2025). Contamination control and quality assurance in forensic DNA analysis: Lessons from the UK and Indian system. Journal of Forensic Science and Medicine, 11(3), 163–169.

  • Joseph, A. (2024). Enhancing forensic DNA quality: A comprehensive review of integrated ISO-centric standards from the crime scene to the courtroom. Problems of Forensic Science.

  • Joseph, A. (2025). Towards standardized forensic DNA practices: Comparative analysis of forensic DNA quality management systems in India and the UK. Multidisciplinary Science Journal.

Kittisakchai Naemchanthara | Physics and Astronomy | Best Researcher Award

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Assist. Prof. Dr. Kittisakchai Naemchanthara | Physics and Astronomy | Best Researcher Award

King Mongkut’s University of Technology Thonburi | Thailand

Assist. Prof. Dr. Kittisakchai Naemchanthara, a materials physicist at King Mongkut’s University of Technology Thonburi, is widely recognized for his multidisciplinary contributions spanning nanomaterials, biomaterials, biophysics, radiological science, and nuclear applications. With 21 Scopus-indexed publications, 112 citations, and an h-index of 6, he has established a strong research presence in advanced material characterization and sustainable material innovation. His work centers on transforming biological and mineral-based resources into high-value functional materials using techniques such as XRD, FTIR, TGA, SEM, ESR, and laser-based analyses. He has produced influential findings on hydroxyapatite synthesis, calcium phosphate nanomaterials, chitosan-based nanofibers, metal–ceramic hybrid systems, and humidity adsorbents derived from waste shells, contributing to green technologies for environmental, biomedical, and industrial applications. His studies on thermal effects in biominerals, including eggshells and natural minerals, have enhanced understanding of phase transformations and structural behavior under varying temperature conditions. Professor Naemchanthara’s collaborative research further extends into laser applications for cultural heritage conservation, electrochemical materials for nitrate removal from wastewater, and fossil shell classification using advanced spectroscopic tools. His participation in international conferences underscores his commitment to scientific dissemination and interdisciplinary advancement. Through sustained research output and innovative materials science applications, he continues to drive impactful progress in physics-based material development, resource valorization, and analytical characterization, strengthening his reputation as a versatile and forward-thinking researcher.

Profiles: Scopus | Google Scholar

Featured Publications

Naemchanthara, K., Meejoo, S., Onreabroy, W., & Limsuwan, P. (2008). Temperature effect on chicken eggshell investigated by XRD, TGA and FTIR. Advanced Materials Research, 55, 333–336.

Faksawat, K., Limsuwan, P., & Naemchanthara, K. (2021). 3D printing technique of specific bone shape based on raw clay using hydroxyapatite as an additive material. Applied Clay Science, 214, 106269.

Faksawat, K., Sujinnapram, S., Limsuwan, P., Hoonnivathana, E., & Naemchanthara, K. (2015). Preparation and characteristics of hydroxyapatite synthesized from cuttlefish bone by precipitation method. Advanced Materials Research, 1125, 421–425.

Pongtonglor, P., Hoonnivathana, E., Limsuwan, P., Limsuwan, S., & Naemchanthara, K. (2011). Utilization of waste eggshells as humidity adsorbent. (Journal name not provided).

Boonpratum, C., Naemchanthara, P., Limsuwan, P., & Naemchanthara, K. (2022). Effects of chitosan and Tween 80 addition on the properties of nanofiber mat through electrospinning. e-Polymers, 22(1), 234–248.