Titiya Meechai | Materials Science | Best Researcher Award

Published on by Academic Excellence

Assist. Prof. Dr. Titiya Meechai | Materials Science | Best Researcher Award

Assist. Prof. Dr. Titiya Meechai, Bangkokthonburi University, Thailand

Dr. Titiya Meechai is a distinguished scientist and academic leader, currently serving as the Deputy Dean of the Faculty of Dentistry at Bangkokthonburi University. Her academic journey began with a Bachelor of Science in General Science (Chemistry) with Second-Class Honors from Kasetsart University. She later earned an integrated Master’s and Ph.D. in Inorganic Chemistry from Mahidol University. Renowned for her interdisciplinary expertise, Dr. Meechai specializes in materials science, catalyst synthesis, and the development of biopolymer-based innovations for dental and environmental use. Her research includes cutting-edge projects such as dye removal using biopolymer beads and antimicrobial toothpaste formulations. A strong advocate for translational science, she also consults on GMP compliance and product development for the cosmetic and herbal toothpaste industries. With a growing body of scholarly work and a commendable H-index, she continues to lead scientific innovations that bridge academia, healthcare, and sustainability.

Profile

Scopus

Orcid

Google Scholar

🌟 Suitability Summary for Research for Best Researcher Award
Nominee: Dr. Titiya Meechai

Dr. Titiya Meechai, currently serving as the Deputy Dean of the Faculty of Dentistry at Bangkokthonburi University, stands as a compelling nominee for the Research for Best Researcher Award. Her strong academic foundation, including a B.Sc. in Chemistry and a combined Master’s–Ph.D. in Inorganic Chemistry from Mahidol University, underpins her impactful work in materials science, catalysis, and biopolymer research. With a particular focus on sustainable and dental-material applications, she brings an interdisciplinary approach that bridges chemistry, environmental science, and dentistry.

Her research portfolio is both diverse and innovative. Notable among her contributions are projects like the development of biopolymer beads derived from dental waste and natural polymers for dye removal—demonstrating a commitment to environmental sustainability and biomedical innovation. Her current work on black sesame oil-based toothpaste shows a unique integration of traditional herbal knowledge with modern dental research. She has 13 peer-reviewed publications in reputable journals such as ACS Omega, RSC Advances, Catalysts, and Heliyon, reflecting a consistent track record of scientific contributions.

🎓 Education 

Dr. Titiya Meechai completed her undergraduate studies at Kasetsart University with a Bachelor of Science in General Science (Chemistry), graduating with Second-Class Honors. She pursued her postgraduate studies at Mahidol University, where she was awarded a combined Master’s and Ph.D. in Inorganic Chemistry. Her graduate research focused on the development and application of heterogeneous catalysts and advanced inorganic materials, laying the foundation for her work in materials science. During her academic training, Dr. Meechai gained significant expertise in nanotechnology, green chemistry, and polymeric materials. She also engaged in interdisciplinary collaborations, integrating principles of chemistry with biomedical and environmental science applications. This robust educational background has been central to her contributions in developing sustainable materials for oral health and environmental remediation. Her academic foundation continues to shape her research trajectory and mentoring activities at Bangkokthonburi University.

💼 Professional Experience

Dr. Meechai holds the position of Deputy Dean at the Faculty of Dentistry, Bangkokthonburi University, where she oversees research development, international collaboration, and innovation management. Her responsibilities span strategic research planning, curriculum advancement, and fostering interdisciplinary projects across material science, dental applications, and environmental sustainability. Beyond academia, she provides consultancy services to Thai manufacturing firms, guiding the development of herbal toothpaste products and assisting in GMP-compliant cosmetic production facilities. Her academic leadership is complemented by a strong publication record in international journals and a focus on translational research. Dr. Meechai has also led key university initiatives aimed at integrating biotechnology with material innovations, specifically for oral care. Under her leadership, the faculty has strengthened its research output, forged global research ties, and filed patents in high-performance dental products. Her career reflects a blend of academic rigor and impactful innovation.

🏅 Awards and Recognition 

Dr. Meechai’s academic excellence and innovation have earned her national and international recognition. Her most notable accolade is her leadership in integrating biopolymer science into dental and environmental applications. She has received commendation from professional peers for her groundbreaking work on dye removal using chitosan-alginate composites derived from dental waste. Her active role as a consultant to industry on herbal and cosmetic products has positioned her as a leader in scientific entrepreneurship. Furthermore, her patent-in-progress on a novel black sesame oil-based toothpaste highlights her contribution to sustainable oral health innovation. Her research publications in indexed journals, including ACS Omega, RSC Advances, and Heliyon, showcase her global visibility. With a growing citation record and an H-index of 4, Dr. Meechai has also been a prominent mentor and reviewer, contributing to Thailand’s scientific capacity-building. She is frequently invited to speak at national research seminars and innovation forums.

🌍 Research Skills On Materials Science

Dr. Meechai excels in the synthesis and application of catalytic materials, biopolymers, and hybrid inorganic-organic systems. Her core expertise lies in materials science applied to real-world challenges such as water purification and oral hygiene. She has developed innovative catalysts using mesoporous silica, lanthanum oxides, and Pd-based nanomaterials. Her work combines hydrogel templating, microwave-assisted synthesis, and green chemistry approaches. Dr. Meechai is also adept in utilizing characterization techniques like FTIR, SEM, XRD, and DFT modeling to evaluate material structures and performance. She has conducted pioneering studies on depolymerization of PET, chitosan-alginate bead fabrication, and iron oxide nanocatalysts for methylene blue degradation. She leads collaborative research that bridges chemistry, environmental science, and biomedical engineering. Her interdisciplinary approach and ability to guide industry-focused R&D make her a sought-after consultant and academic leader. She is currently mentoring multiple early-career researchers in materials innovation for sustainable development.

📖 Publication Top Notes

  • 🧪 One-pot synthesis of iron oxide-Gamma irradiated chitosan modified SBA-15 mesoporous silica for effective methylene blue dye removal
    Authors: T. Meechai, T. Poonsawat, N. Limchoowong, S. Laksee, P. Chumkaeo, …
    Journal: Heliyon, Volume 9, Issue 5
    Citations: 9
    Year: 2023

  • 🔬 Synergistic Activities in the Ullmann Coupling of Chloroarenes at Ambient Temperature by Pd‐Supported Calcined Ferrocenated La₂O₃
    Authors: P. Chumkaeo, T. Poonsawat, T. Meechai, E. Somsook
    Journal: Applied Organometallic Chemistry, Volume 33, Issue 1, e4675
    Citations: 8
    Year: 2019

  • 🧬 DFT Study on the Depolymerization of PET by Ca-Catalyzed Glycolysis Reaction Model
    Authors: A. Arunphacharawit, T. Poonsawat, T. Meechai, L.C. Chuaitammakit, …
    Journal: Heliyon
    Citations: 4
    Year: 2024

  • 🧫 Facile Synthesis of High Performance Iron Oxide/Carbon Nanocatalysts Derived from the Calcination of Ferrocenium for the Decomposition of Methylene Blue
    Authors: T. Poonsawat, T. Techalertmanee, P. Chumkaeo, I. Yunita, T. Meechai, …
    Journal: Catalysts, Volume 9, Article 948
    Citations: 4
    Year: 2019

  • ⚗️ Hydroconversion of carboxylic acids using mesoporous SBA-15 supported NiMo sulfide catalysts under microwaves
    Authors: T. Meechai, E. Leclerc, D. Laurenti, E. Somsook, C. Geantet
    Journal: RSC Advances, Volume 5 (123), Pages 101707–101712
    Citations: 3
    Year: 2015

  • 🧪 Effect of K⁺ and Ca²⁺ Cations on Structural Manganese(IV) Oxide for the Aerobic Oxidation of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid
    Authors: T. Poonsawat, P. Promcharoen, T. Meechai, L.C. Chuaitammakit, E. Somsook
    Journal: ACS Omega, Volume 8 (50), Pages 47846–47855
    Citations: 2
    Year: 2023

  • 🧪 Accelerated Decomposition of Potassium Permanganate in Ferrocenium Ion as Ferrocenium-Doped Manganese (IV) Oxide for Selective Oxidation of Alcohols
    Authors: P. Chumkaeo, T. Poonsawat, I. Yunita, N. Temnuch, T. Meechai, N. Kumpan, …
    Journal: Synlett, Volume 33 (14), Pages 1448–1452
    Citations: 2
    Year: 2022

  • 🧴 Hydrogel-templated solid base catalysts for transesterification of soybean oil
    Authors: T. Meechai, S. Kongchamdee, W.W. Mar, E. Somsook
    Journal: Journal of Oleo Science, Volume 67 (3), Pages 355–367
    Citations: 2
    Year: 2018

  • ⚡ Simple Synthesis of Gold Nanoparticles (AuNPs) from Gold Leaf by Electrolysis
    Authors: P. Dechen, P. Chumkaeo, N. Temnuch, T. Meechai, L.C. Chuaitammakit, …
    Journal: Journal of Chemical Education, Volume 101 (9), Pages 4018–4023
    Citations: 1
    Year: 2024

  • 🌡 Catalytic Activities of Pd(II)/La₂O₃ for Enhanced Oxidation of Benzyl Alcohol Under Atmospheric Conditions
    Authors: T. Meechai, T. Poonsawat, S. Putisompon, E. Somsook, …
    Journal: Nanoscience and Nanotechnology Letters, Volume 9 (10), Pages 1584–1591
    Citations: 1
    Year: 2017

Rimeh Ismail | Materials Science | Best Researcher Award

Published on by Academic Excellence

Assoc. Prof. Dr. Rimeh Ismail | Materials Science | Best Researcher Award

Assoc. Prof. Dr. Rimeh Ismail, Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Ürümqi, China 

Dr. Ismail Rimeh, a Tunisian-born materials scientist, is currently serving as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China. She earned her joint Ph.D. from the University of Tunis El Manar and the University of Montpellier in 2020. Following that, she engaged in various postdoctoral and research positions across Czech Republic and Tunisia. Dr. Rimeh’s research expertise spans membrane-based carbon capture, solid oxide electrolysis cells for CO₂ reduction, and catalytic oxidation of VOCs. Her interdisciplinary approach blends electrochemistry, polymer science, and nanomaterials. Recognized for her innovative work in CO₂ electrolysis and wastewater purification, she collaborates on international projects addressing energy and environmental challenges. With numerous publications and projects to her credit, Dr. Rimeh is advancing sustainable solutions through applied material science and engineering.

Professional Profile

Scopus

Orcid

Google Scholar

Summary for Best Researcher Award Evaluation: ISMAIL RIMEH

Dr. Ismail Rimeh’s credentials strongly align with the criteria for the Research for Best Researcher Award. Her academic journey, starting with a Ph.D. jointly awarded by the University of Tunis El Manar (Tunisia) and the University of Montpellier (France), laid a solid foundation for her diverse career. Since earning her doctorate in 2020, Dr. Rimeh’s research trajectory has spanned prestigious global institutions, such as the Czech Academy of Sciences and the University of Chemistry and Technology in Prague, culminating in her current role as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry in China.

Her research expertise, focusing on materials science with an emphasis on energy and environmental science, is groundbreaking. Notably, her contributions to Direct Air Capture (DAC), CO2 electrolysis, and CO2 separation demonstrate her profound impact on pressing global challenges. Dr. Rimeh’s postdoctoral work on the electrochemical reduction of CO2 by Solid Oxide Electrolysis Cells (SOEC) highlights her commitment to addressing climate change and advancing sustainable technologies. Furthermore, her current projects on membrane-based DAC solutions exhibit practical, innovative approaches that could significantly contribute to environmental conservation and energy efficiency.

Education 

Dr. Ismail Rimeh’s academic path in Sciences and Technology reflects both excellence and international collaboration. She earned her Ph.D. jointly from the University of Tunis El Manar (Tunisia) and the University of Montpellier (France) between 2014 and 2020, focusing on catalysis and environmental material science. Prior to that, she pursued a Master's degree (2012–2014) from the University of Tunis El Manar, gaining foundational expertise in advanced chemical technologies. Her Bachelor's degree (2009–2012) was completed at the University of Carthage, Faculty of Science of Bizerte, Tunisia. She began her academic journey with a High School diploma in Experimental Sciences from Jendouba, Tunisia, in 2009. Throughout her academic training, Dr. Rimeh has consistently focused on materials chemistry, surface engineering, and nanotechnology, forming a robust educational base for her impactful research in materials science and environmental innovation.

Professional Experience 

Dr. Ismail Rimeh’s career spans prominent academic and research institutions across Tunisia, France, Czech Republic, and China. Since April 2024, she has been serving as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry, where she leads projects on membrane-based Direct Air Capture and CO₂ electrolysis via solid oxide cells. Prior roles include a Postdoctoral Fellowship (2022–2023) at the University of Chemistry and Technology, Prague, where she developed polymer films for adaptive materials. In 2021–2022, she worked as a Research Assistant at the Czech Academy of Science focusing on implantable biosensors. She also participated in the U.S.-funded Innovation Post-Doc Program in Tunisia (2021). Earlier roles include teaching at the University of Jendouba (2017–2018) and a doctoral research internship at the Institute of Charles Gerhardt, France (2015–2017). These cumulative roles demonstrate her interdisciplinary expertise and research versatility in materials innovation.

Awards and Recognition 

Dr. Ismail Rimeh’s contributions have earned her recognition in multiple international scientific communities. She has co-authored numerous high-impact journal publications and contributed significantly to emerging technologies in electrochemical systems, wastewater purification, and direct air capture. Her joint Ph.D. from two prestigious institutions in Tunisia and France underlines her academic excellence. Her postdoctoral appointments in the Czech Republic were awarded through competitive selection based on her proposed work in smart polymers and adaptive materials. Her active participation in the U.S.-funded Innovation Training Program demonstrates her appeal as a globally competent researcher. Furthermore, her recent appointment as Associate Professor at a leading Chinese research institute is a testament to her academic leadership. Dr. Rimeh is frequently invited to contribute to collaborative projects, reflecting her growing reputation in material science, environmental chemistry, and sustainable engineering practices.

Research Skill On Materials Science

Dr. Ismail Rimeh brings a powerful blend of interdisciplinary research skills to the fields of materials science, electrochemistry, polymer synthesis, and environmental technology. Her expertise includes membrane fabrication, CO₂ electrochemical reduction, and direct air capture systems. She has a deep understanding of polymer thin film deposition, supported catalysts, and nanostructured materials for environmental remediation. Her approach integrates experimental chemistry with real-world engineering applications, focusing on sustainability and efficiency. With proficiency in surface characterization techniques (SEM, FTIR, TGA, XRD), catalytic oxidation mechanisms, and adaptive systems chemistry, she contributes to cutting-edge projects aimed at solving energy and pollution crises. Dr. Rimeh’s skills extend into data modeling, experimental design, and dynamic systems adaptation—critical areas in designing next-gen materials for climate-resilient technologies. Her collaborative mindset and multi-national research experience further amplify her impact in global scientific discourse.

   Publication Top Notes

  • Title: Ag/ZrO₂ and Ag/Fe–ZrO₂ catalysts for the low temperature total oxidation of toluene in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Transition Metal Chemistry, Volume 45, Pages 501–509

    • Citation Count: 15

    • Year: 2020

  • Title: Effect of the iron amount on the physicochemical properties of Fe–ZrO₂ aerogel catalysts for the total oxidation of Toluene in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Porous Materials, Volume 27, Pages 1847–1852

    • Citation Count: 13

    • Year: 2020

  • Title: Potentiometric Performance of Ion-Selective Electrodes Based on Polyaniline and Chelating Agents: Detection of Fe²⁺ or Fe³⁺ Ions

    • Authors: R. Ismail, I. Šeděnková, Z. Černochová, I. Romanenko, O. Pop-Georgievski, et al.

    • Journal: Biosensors, Volume 12 (7), Article 446

    • Citation Count: 11

    • Year: 2022

  • Title: Acid-assisted polymerization: the novel synthetic route of sensing layers based on PANI films and chelating agents protected by non-biofouling layer for Fe²⁺ or Fe³⁺ detection

    • Authors: R. Ismail, I. Šeděnková, J. Svoboda, M. Lukešová, Z. Walterová, E. Tomšík

    • Journal: Journal of Materials Chemistry B, Volume 11 (7), Pages 1545–1556

    • Citation Count: 7

    • Year: 2023

  • Title: The promoting effect of Ce on Ag/ZrO₂ catalyst for the total oxidation of toluene into CO₂ in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Sol-Gel Science and Technology, Volume 105 (3), Pages 871–880

    • Citation Count: 2

    • Year: 2023

  • Title: Effect of the amount of Ag on the performance of Ag/Ce-ZrO₂ catalyst for the total oxidation of toluene

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Chemistry Letters, Pages 186–191

    • Citation Count: 1

    • Year: 2024

  • Title: Invasive plant-derived carbon dots and carbon black co-deposited basalt fiber fabric as an efficient solar interface evaporator for high salinity water purification

    • Authors: Y.L. He, C.H. Zhou, Z. Chen, I. Rimeh, L. Xing, A. Yimingniyazi, A. Parkash, ...

    • Journal: Separation and Purification Technology, Volume 365, Article 132644

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: Highly conductive Cu-deposited continuous basalt fiber for electric power transmission and next-generation telecommunication applications

    • Authors: A. Parkash, R. Ismail, A. Kadier, P.C. Ma

    • Journal: Journal of Materials Science: Materials in Electronics, Volume 36 (11), Pages 1–12

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: A solar-powered electrocoagulation process with a novel CNT/silver nanowire coated basalt fabric cathode for effective oil/water separation: From fundamentals to application

    • Authors: G. Achagri, R. Ismail, A. Kadier, P.C. Ma

    • Journal: Journal of Environmental Management, Volume 375, Article 124289

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: Silver-based catalysts for toluene oxidation

    • Author: R. Ismail

    • Publisher: European University Publishing

    • Citation Count: Not available

    • Year: 2024