Hassan Namazi | Polymer Chemistry | Best Paper Award

Published on by Chemical Scientist

Prof. Hassan Namazi | Polymer Chemistry | Best Paper Award 

University of Tabriz | Iran

Professor Hassan Namazi is a leading scientist and academic renowned for his pioneering work in polymer chemistry, nanobiopolymers, and advanced drug delivery systems. His research focuses on the design, synthesis, and characterization of dendrimers, metal–organic frameworks (MOFs), and stimuli-responsive biopolymer nanocomposites for applications in cancer therapy, targeted drug delivery, and water remediation. With extensive experience in polymer synthesis, nanocomposite fabrication, spectroscopy, materials characterization, and computational modeling, he has developed innovative platforms for controlled and co-delivery of therapeutic agents, emphasizing biocompatibility, efficiency, and environmental sustainability. His contributions span fundamental research and practical applications, including photoluminescent polymers, glycodendrimers, and hybrid nanomaterials, establishing him as a key figure in advancing multifunctional biomaterials and nanotechnology-driven solutions. Prof. Namazi’s dedication to scientific excellence is reflected in his mentorship of emerging researchers, collaboration with interdisciplinary teams, and prolific publication record, demonstrating a consistent impact on both academic and applied chemical sciences. His work has earned national and international recognition, showcasing his leadership in developing eco-friendly polymers, functional nanocarriers, and stimuli-responsive drug delivery systems that address pressing biomedical and environmental challenges. Professor Namazi’s growing academic impact is evidenced by 10,627 citations, 211 documents, and an h-index of 63, reflecting his outstanding influence and leadership in the global materials science community.

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

Featured Publications

Pooresmaeil, M., & Namazi, H. (2026). Iron oxide nanoparticles/polymer nanocomposite hydrogels. In Hydrogels for Wound Healing (pp. 327–363).

Karimi, S., & Namazi, H. (2025). Chitosan/dialdehyde starch coating onto l-tyrosine and curcumin intercalated layered double hydroxide for improved the therapeutic effects of breast cancer. International Journal of Biological Macromolecules, 147274.

Rasoulzadehzali, M., Namazi, H., Larsen, K. L., Mahoutforoush, A., … (2025). Engineering pH-sensitive CA/GO nanocomposite beads for dual-drug oral delivery: Improved therapeutic efficacy against breast cancer cells. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 138081.

Jafari, H., & Namazi, H. (2025). κ-carrageenan coated magnetic hydroxypropyl methylcellulose/chitosan nanoparticles as a pH-sensitive nanocarrier for efficient methotrexate release. International Journal of Biological Macromolecules, 146750. Cited by 1

Karimi, S., & Namazi, H. (2025). Doxorubicin-curcumin-co loaded layered double hydroxide coated with dialdehyde lactose/ZnO via Schiff-base bonding for simultaneous and targeted delivery of drugs to …. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 715, 136628. Cited by 5

Hong Seung Mo | Polymer chemistry | Best Researcher Award

Published on by Chemical Scientist

Dr. Hong Seung Mo | Polymer chemistry | Best Researcher Award

SHINA T&C,  R&D center, South Korea

Dr. Seung-Mo Hong is a highly experienced and innovative R&D professional in the field of polymer engineering, with a dynamic career spanning over two decades. Based in Incheon, South Korea, he holds a Ph.D. in Polymer Engineering from Dankook University, where he explored multifunctional thiol hardeners and their thiol-epoxy curing behavior. He also earned his M.S. and B.S. in Chemical Engineering from Soongsil University. Throughout his distinguished career, Dr. Hong has led groundbreaking research and product development in UV-curable polymers, optical materials, and quantum dot technologies. He has worked with leading organizations like Shin-A T&C, SKC Co., Ltd., and Dongwoo Fine-Chem, spearheading innovations in display materials and adhesives. With over 108 patents and impactful publications, Dr. Hong continues to contribute to advanced material science. His expertise in synthesis, commercialization, and product innovation makes him a driving force in next-generation polymer technologies.

Professional Profile

Education 

Dr. Seung-Mo Hong earned his Ph.D. in Polymer Engineering from Dankook University (2021–2023), where he focused on multifunctional thiol hardeners and thiol-epoxy curing behaviors, graduating with a GPA of 4.37/4.50. Prior to this, he completed his M.S. in Chemical Engineering at Soongsil University (1999–2001) with a thesis on photosensitive polyimides and a GPA of 3.63/4.00. His foundational education was in Chemical Engineering, also at Soongsil University, where he completed his B.S. between 1995 and 1999. Throughout his academic journey, Dr. Hong developed a strong foundation in polymer chemistry, synthesis techniques, and structure-property relationships. His advanced studies focused on both industrial and functional polymers, aligning academic research with practical applications in optical materials and coatings. The rigor and depth of his academic training have equipped him to lead innovation across various industrial R&D platforms and contribute extensively to peer-reviewed scientific literature.

Experience 

Dr. Hong has amassed over 20 years of experience across top-tier R&D institutions and companies. Since 2018, he has led R&D at Shin-A T&C, spearheading innovations in polythiol synthesis, UV inks, and quantum dot optical films. At SKC (2015–2018), he developed multifunctional thiols and high-refractive-index resins for optical lenses. Earlier, he held a pivotal role at Dongwoo Fine-Chem (2006–2015), leading the development of hard coatings, flexible films for OLED, and photosensitive oligomers. His international experience includes a research assignment at Sumitomo Chemical in Japan, where he focused on anti-static and anti-fouling coatings. Beginning his career at SSCP (AkzoNobel) and LG Electronics, Dr. Hong specialized in urethane acrylates and BLU prism sheets. His career reflects deep expertise in polymer synthesis, process scale-up, and product commercialization across diverse applications such as displays, adhesives, and coatings, making him a versatile and strategic leader in the field of advanced materials.

Professional Development

Dr. Seung-Mo Hong has consistently pursued professional development through diverse leadership and technical roles across Korea and Japan. His strengths lie in R&D management, commercialization of high-tech polymer systems, and intellectual property strategy. He is proficient in reverse engineering, defect analysis, VOC resolution, and patent mapping. He has mentored numerous junior researchers and managed large-scale research projects. Notably, his work at Shin-A T&C and SKC led to market-ready innovations in quantum dot resins and multifunctional thiols. Dr. Hong is also fluent in Korean, business-level Japanese, and conversational English, enhancing his collaborative capabilities in multinational settings. He is skilled in using Minitab for statistical analysis and is Six Sigma Green Belt certified. His contributions to the polymer industry are reinforced by 108+ patents and multiple international publications, reflecting his commitment to ongoing innovation and excellence in advanced materials science.

Skills & Expertise

Dr. Seung-Mo Hong possesses a comprehensive skill set centered on advanced polymer science and industrial application. His core competencies include the synthesis and design of UV-curable oligomers and monomers, sulfur-containing compounds, thermoset polymers, and photosensitive materials. He is highly proficient in process development, including commercialization strategies, scale-up procedures, and optimization of production techniques for optical resins and films. Dr. Hong’s material application expertise spans a wide range of products, such as optical films for displays, high-refractive-index lenses, hard coatings, adhesives, and quantum dot-based materials. His analytical capabilities enable him to reverse engineer competitor products, resolve customer complaints, and conduct root cause analysis. Additionally, he is skilled in patent mapping, clearance, and intellectual property risk mitigation. As a seasoned R&D leader, he has mentored junior researchers and led multidisciplinary teams. He is fluent in Korean, professionally proficient in Japanese, and conversational in English, and he is adept at using Minitab and Microsoft Office tools.

Resarch Focus

Dr. Seung-Mo Hong’s research focuses on polymer synthesis, especially UV-curable oligomers and monomers, sulfur-based functional materials, and optical polymers for high-performance applications. His work delves into the development of thiol-based curing systems, high-refractive-index resins, and photosensitive materials for displays and electronics. He has pioneered methods for synthesizing polythiols, epoxy acrylates, and quantum dot UV inks, which have significantly impacted the optical film and display industries. His industrial research encompasses materials for hard coatings, adhesives, lens materials, and flexible electronics, bridging academic precision with commercial applicability. Hong’s approach includes novel chemical formulations, reaction optimization, and product durability improvements. He aligns his research with market trends in displays, wearables, and energy-efficient materials. Through an interdisciplinary lens, Dr. Hong advances polymer technology that underpins next-generation electronic and photonic devices.

Awards & Recognitions

Dr. Seung-Mo Hong’s exceptional contributions to polymer chemistry and industrial innovation have been widely recognized. He received the prestigious Invention King Award from SKC in both 2017 and 2018, honoring his groundbreaking developments in multifunctional thiols and optical materials. While at Dongwoo Fine-Chem, he was honored with the Most Patent Applications Award in 2011, highlighting his prolific output in material innovations, followed by the Excellent Employee Award in 2009. These accolades reflect his ability to transform scientific ideas into commercial products and his dedication to research excellence. In addition to these recognitions, Dr. Hong holds over 100 registered domestic patents and several international patents, demonstrating his continuous impact on the global materials science community. His Six Sigma Green Belt certification further attests to his proficiency in process optimization and quality control, solidifying his reputation as a visionary and highly effective research leader in advanced polymer materials.

Publication Top Notes 

Title: Optimization of synthetic parameters of high purity trifunctional mercaptoesters and their curing behavior for the thiol–epoxy click reaction
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2021
Citations: 8+

Title: Synthesis and Characterization of Multifunctional Secondary Thiol Hardeners Using 3‑Mercaptobutanoic Acid and Their Thiol−Epoxy Curing Behavior
Authors: Seung-Mo Hong, Seung Hwan Hwang
Year: 2022
Citations: 10+

Title: Enhancing the shelf life of epoxy monoacrylate resins using acryl phosphate as a reactive additive
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2022
Citations: 6+

Title: Synthesis and characteristics of novel 2-hydroxy-3-mercaptopropyl terminated polyoxypropylene glyceryl ether as an epoxy hardener of epoxy-based adhesives
Authors: Seung-Mo Hong, Seung Hwan Hwang
Year: 2022
Citations: 4+

Title: Chemistry of Polythiols and Their Industrial Applications
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2024
Citations: 1+

Title: Synthesis of 9,9-bis[4-(2-hydroxyethoxy)phenyl]fluorene di(mercaptopropionate) for high-luminance and refractive prism sheets
Authors: Seung-Mo Hong, Oh Hwan Kim, Seung Hwan Hwang
Year: 2024
Citations: 0 (new)

Title: Synthesis and Characterization of UV-Curable Resin with High Refractive Index for a Luminance-Enhancing Prism Film
Authors: J.H. Song, Seung-Mo Hong, S.K. Park, H.K. Kwon, S.H. Hwang, J.M. Oh, S.M. Koo, G.W. Lee, C.H. Park
Year: 2025
Citations: 0 (new)

Title: Synthesis and characterization of hyperbranched thiol hardener and their curing behavior in thiol–epoxy
Authors: J.H. Song, Seung-Mo Hong, S.K. Park, H.K. Kwon, S.H. Hwang, J.M. Oh, S.M. Koo, G.W. Lee, C.H. Park
Year: 2025
Citations: 0 (new)

Conclusion:

Dr. Hong’s career demonstrates a consistent trajectory of innovation, problem-solving, and technology development in polymer and materials engineering. His cutting-edge research, industrial application success, and outstanding patent portfolio make him a compelling and deserving recipient of the Best Researcher Award. His work not only advances scientific understanding but also significantly contributes to the commercialization of high-performance materials, impacting industries such as display technology, electronics, and optical coatings.

Rachid AZIAM | Polymer Chemistry | Best Researcher Award

Published on by Chemical Scientist

Dr.Rachid AZIAM | Polymer Chemistry | Best Researcher Award

Academician/Research Scholar , Ibnou Zohr University in  Morocco.

🔬 Short Biography 🌿💊📚

Dr. Rachid Aziam 🇲🇦 is a Moroccan researcher specializing in physical chemistry and environmental applications. 🎓 He holds a Ph.D. in Physical Chemistry (2021) from the Faculty of Sciences, Ibn Zohr University, Agadir. Prior to that, he earned two Master’s degrees — one in Water Chemistry (Oujda, Morocco) and another in Water Treatment, Science and Technology (Lille, France) — along with a Bachelor’s in Chemistry and a DEUG diploma. 🌍 His teaching career includes appointments at the Faculty of Sciences in Agadir and the Specialized Institute of Public Works. Dr. Aziam has undertaken multiple prestigious research internships across Morocco, France, and Romania. 🧪 His work focuses on the synthesis and characterization of eco-friendly biomaterials for environmental remediation. As a published author in Q1-ranked journals, book chapters, and international books, he is recognized for his innovation in green chemistry. 🌿 He is also an active reviewer for international scientific journals and conferences. 🏅

PROFILE 

GOOGLE SCHOLAR

Scopus 

Orcid 

🔍 Summary of Suitability:

Dr. Rachid Aziam is an accomplished researcher in the field of Physical Chemistry with a dedicated focus on environmental remediation and sustainable material science 🌿. Holding a Ph.D. from Ibn Zohr University, he has consistently demonstrated academic rigor, international collaboration, and impactful scientific contributions. His research spans the development of bio-nanocomposites, adsorption of dyes and pollutants, and AI-enhanced modeling techniques for wastewater treatment. His scholarly output includes over 20 peer-reviewed journal articles, many published in Q1 journals, along with international book chapters and a scientific book. With citations exceeding 400+, his work is widely recognized and respected in the scientific community 📚.

🔹 Education & Experience 

Dr. Rachid Aziam’s academic journey began with a DEUG in Chemistry (2010-2011) and culminated in a Ph.D. in Physical Chemistry (2015-2021) from Ibn Zohr University, Agadir 📘. He obtained a Bachelor’s in Chemistry (2011-2012) and two Master’s degrees — one in Water Chemistry from Oujda (2012-2014) and another in Water Treatment from Lille, France (2013-2014) 🌍. His professional experience includes teaching assignments as a Temporary Associate Professor at the Faculty of Sciences in Agadir (2016-2017) and at the Specialized Institute of Public Works (2024-2025), covering subjects like chemical kinetics, thermodynamics, and water treatment 🧪. His extensive practical teaching and laboratory involvement, including plant visits, demonstrate his strong commitment to both theoretical and applied chemistry 👨‍🏫. He has participated in various internships in Morocco, Romania, and France, focusing on wastewater treatment and the development of novel bio-nanocomposites for environmental applications 🌱.

🔹 Professional Development 

Dr. Rachid Aziam has advanced his professional expertise through rigorous research internships and collaborative international projects 🌍. He conducted postdoctoral research at the National University of Science and Technology Politehnica Bucharest (2023, 2025) under Professor Daniela Simina Stefan, working on eco-engineered biopolymer–clay composites using statistical and AI modeling 🤖. His Ph.D. research at Ibn Zohr University emphasized the valorization of local natural materials for dye adsorption from wastewater 💧. Additionally, he interned at industry-relevant institutions like SOTRALENG SARL and the Solid Waste Treatment Center in Oujda, Morocco 🏭. He actively contributes as a reviewer and scientific committee member for international journals and conferences, including CIDEEV 2024 📑. As an author of several high-impact journal articles and co-author of an academic book, Dr. Aziam’s professional trajectory demonstrates continuous engagement in applied environmental research and academia 📘, establishing him as a rising expert in sustainable material innovation and water purification 🌿.

🏅 Awards and Recognitions

  • 🧪 Certificate of Reviewing – Journal of Saudi Chemical Society

  • 🏅 Certificate of Excellence in Reviewing – Asian Journal of Research in Animal and Veterinary Sciences

  • 🥇 Certificate of Excellence in Reviewing – International Research Journal of Pure and Applied Chemistry

  • 🧠 Certificate of Excellence in Peer-Reviewing – Research and Applications Towards Mathematics and Computer Science

  • 🌍 Scientific Committee Member – International Conference on Water Depollution and Green Energy (CIDEEV2024)

🔬 Research Focus

Dr. Rachid Aziam’s research primarily falls within the realm of Environmental Physical Chemistry and Sustainable Materials Science 🧪🌍. His work explores the synthesis and application of eco-friendly bio-nanocomposites — particularly those derived from natural polymers and clays — for the adsorption and removal of pollutants such as azo dyes, phosphate ions, nitrates, and heavy metals from wastewater 💧. With a strong foundation in adsorption kinetics, isotherms, thermodynamic studies, and fixed-bed systems, his contributions aim to solve real-world environmental challenges using low-cost, renewable resources 🌱. He frequently applies modeling techniques, including Artificial Intelligence (AI) and Response Surface Methodology (RSM), to optimize the efficiency of novel adsorbents 🤖📊. His interdisciplinary approach merges chemistry, environmental engineering, and nanotechnology, positioning him at the forefront of green chemistry innovation 🌿. His research significantly impacts wastewater treatment technologies and environmental sustainability goals ♻️.

Publications & Citations 📚

📘 Synthesis, characterization, and comparative study of MgAl-LDHs…Environmental Science and Pollution Research (2020) – Cited by: 102 📈
📗 Kinetic modeling… on Carpobrotus edulis plantEuropean Physical Journal Special Topics (2017) – Cited by: 42 🔬
📙 Adsorption of Crystal Violet onto Carpobrotus edulisMaterials Today: Proceedings (2021) – Cited by: 31 💧
📕 Synthesis of LDH/Alginate composite beads…Chemical Papers (2023) – Cited by: 27 🧪
📒 Factors controlling the adsorption of acid blue 113…Arabian Journal of Geosciences (2016) – Cited by: 26 🌿
📘 Adsorption of metal ions on alginate-clay bio-nanocompositeNanomaterials (2024) – Cited by: 19 🧲
📗 Increasing Methylene Blue Adsorption Efficiency…Chemistry Africa (2021) – Cited by: 19 🧼
📙 Crystal violet dye adsorption on macroalgae…Bioresource Technology (2024) – Cited by: 18 🪸
📕 Macroalgal biomass for removal of organic dyes…Springer Book Chapter (2021) – Cited by: 12 📖
📒 Acid blue 113 removal by corallina officinalis algaE3S Web of Conferences (2021) – Cited by: 12 🧃
📘 Hybrid clay@Fe3O4 for acid blue113 sequestrationInt. J. of Environmental Sci. and Tech. (2024) – Cited by: 10 🧱
📗 Alginate–Moroccan Clay bio-nanocomposite for ion removalPolymers (2023) – Cited by: 8 🧫

🔍 Conclusion:

In conclusion, Dr. Rachid Aziam’s interdisciplinary expertise, proven research excellence, and impactful contributions to environmental chemistry and nanomaterials make him an ideal candidate for the Best Researcher Award 🥇. His work aligns perfectly with global sustainability goals, and his innovations have real-world applicability, positioning him as a leading figure in his domain 🌍.

tugba demir caliskan | Polymer chemistry | Best Researcher Award

Published on by Chemical Scientist

Assist. Prof. Dr. tugba demir caliskan | Polymer chemistry | Best Researcher Award

Assistant Professor at Ankara University, Turkey.

🔬 Short Biography 🌿💊📚

Dr. Tugba Demir Caliskan 🌟 is a distinguished researcher in Chemical Engineering at Ankara University 🇹🇷. Her expertise spans the synthesis of polymeric films via PECVD 🧪, development of triboelectric nanogenerators ⚡, and creation of self-healing materials 🩹. She holds a Ph.D. 🎓 in Material Science and Engineering from Clemson University, USA 🇺🇸, where her research focused on oleophobic fluorinated polyester coatings. Previously, she earned her M.S. in Mechanical Engineering and B.S. in Chemical Engineering. Dr. Caliskan has extensive experience in polymer synthesis, surface modification, and the development of advanced composites 🧵. She has worked on DARPA-funded projects 💼, developed antifouling surfaces for medical devices 🏥, and contributed to the advancement of materials for water treatment and energy storage 🌊⚙️. Her interdisciplinary work bridges academic research and industrial applications, driving innovation in smart materials and sustainable technologies 🌍.

PROFILE 

ORCID 

GOOGLE SCHOLAR 

🔍 Summary of Suitability:

Dr. Tugba Demir Caliskan is highly suitable for the Best Researcher Award due to her extensive and impactful research contributions in the fields of polymer science, material engineering, nanotechnology, and surface chemistry. With a solid academic background (Ph.D. from Clemson University, USA) and diverse international postdoctoral experience, Dr. Caliskan has consistently demonstrated innovation, interdisciplinary expertise, and scientific excellence throughout her career.

📘 Education & Experience

Dr. Tugba Demir Caliskan’s academic journey began with a B.S. in Chemical Engineering from Izmir Institute of Technology 🇹🇷. She pursued her M.S. in Mechanical Engineering and Ph.D. in Materials Science and Engineering at Clemson University, USA 🇺🇸. Her doctoral research focused on synthesizing oleophobic fluorinated polyester coatings 🧴. Professionally, Dr. Caliskan gained extensive research experience at Clemson University, developing self-healing polymers 🧪, carbon fibers 🧵, and nanomaterials for sensors 🔬. She later contributed as a postdoc at Bilkent University and Ankara University, enhancing medical device surfaces 🏥, developing water treatment composites 💧, and creating energy storage materials ⚡. In 2024, she was appointed Assistant Professor at Ankara University, continuing her pioneering work in polymer chemistry, nanomaterials, and surface engineering 🌟. Her international experience bridges research, development, and application, positioning her as a leader in advanced material synthesis and characterization 🌍.

Professional Development 🚀📖

Throughout her career, Dr. Caliskan has developed exceptional skills in polymer processing and material characterization 🔬. She is proficient in advanced techniques such as ATRP, PECVD, and controlled radical polymerization 🧪. Her hands-on expertise covers a wide array of instruments including NMR, SEM, TEM, AFM, FTIR, and XRD 📊. Dr. Caliskan excels in managing complex research projects, mentoring students 👩‍🎓, and leading interdisciplinary teams 🧑‍🤝‍🧑. She has also taught numerous university courses in organic chemistry, petroleum technology, and chemical engineering labs 📚. Actively participating in international conferences 🌐, she has presented her work globally, fostering collaborations and advancing her field. Dr. Caliskan’s professional growth is marked by her continuous learning, ability to adapt cutting-edge technologies, and dedication to translating research into practical solutions that address real-world challenges 🌍. Her career exemplifies a perfect blend of academic excellence and industrial relevance 🚀.

Research Focus 🔍🤖

Dr. Caliskan’s research revolves around advanced polymer synthesis and surface engineering 🧪. She specializes in self-healing materials 🩹, triboelectric nanogenerators ⚡, oleophobic and hydrophobic coatings 🌊, and stimuli-responsive polymers 🔄. A significant part of her work focuses on fluorinated polymers for water and oil repellency, creating sustainable alternatives to long-chain perfluoroalkyl substances 🌱. She also develops functional materials for medical devices 🏥, such as antifouling surfaces to prevent biofouling. Her expertise extends to carbon dot composites for water treatment 💧, nanomechanical sensors for gas detection 🧯, and advanced composite materials for aerospace and automotive industries ✈️🚗. By combining polymer chemistry, nanotechnology, and material science, Dr. Caliskan addresses critical challenges in energy storage ⚙️, environmental protection 🌍, and healthcare innovation ❤️‍🩹. Her work is highly interdisciplinary, merging chemistry, engineering, and applied sciences to push the boundaries of smart and functional materials 📈.

Awards and Honors 🏆🎖️

  • 🎓 Awarded Turkish Ministry of Education Scholarship for graduate studies in the USA (2007)

  • 🧪 DARPA-funded research projects on advanced carbon fibers and nanocomposites

  • 🌟 Multiple international conference presentations at ACS and other global events

  • 📖 Numerous peer-reviewed journal publications in top materials science and polymer journals

  • 🏅 Recognition for contributing to pioneering research on self-healing polymers and advanced coatings

Publications & Citations 📚

🔬 Key-and-lock commodity self-healing copolymers — M.W. Urban et al., Science 362 (6411), 220-225 (2018) 📅 — Cited by: 341 📖 🔧
💧 Toward a long-chain perfluoroalkyl replacement: Water and oil repellency of polyethylene terephthalate (PET) films modified with perfluoropolyether-based polyesters — T. Demir et al., ACS Applied Materials & Interfaces 9 (28), 24318-24330 (2017) 📅 — Cited by: 29 📖 🧪
🧴 Highly Oil-Repellent Thermoplastic Boundaries via Surface Delivery of CF3 Groups by Molecular Bottlebrush Additives — L. Wei et al., ACS Applied Materials & Interfaces 12 (34), 38626-38637 (2020) 📅 — Cited by: 25 📖 💡
🧪 Micro-cantilever sensors for monitoring carbon monoxide concentration in fuel cells — T.D. Caliskan et al., Journal of Micromechanics and Microengineering 30 (4), 045005 (2020) 📅 — Cited by: 18 📖 🔬
⚗️ Attainment of water and oil repellency for engineering thermoplastics without long-chain perfluoroalkyls: Perfluoropolyether-based triblock polyester additives — L. Wei et al., Langmuir 34 (43), 12934-12946 (2018) 📅 — Cited by: 14 📖 🌊
🏥 A brief report on managing infected nonunion of a high tibial osteotomy in two stages: a case series involving seven knees — V. Karatosun et al., J Bone & Joint Surgery Br 93 (7), 904-906 (2011) 📅 — Cited by: 13 📖 🦴
🧴 Perfluoropolyether-based oleophobic additives: Influence of molecular weight distribution on wettability of polyethylene terephthalate films — T.D. Caliskan et al., Journal of Fluorine Chemistry 244, 109747 (2021) 📅 — Cited by: 10 📖 💦
🧪 Effect of number of –CF3 groups in tails of polyester on surface wettability of coatings: Synthesis and characterization of PFPE based polyesters with three –CF3 groups in tails — T.D. Caliskan et al., Journal of Polymer Research 27 (5), 128 (2020) 📅 — Cited by: 8 📖 🧬
🌊 Toward the Replacement of Long-Chain Perfluoroalkyl Compounds: Perfluoropolyether-Based Low Surface Energy Grafted Nanocoatings — T. Demir Caliskan et al., ACS Applied Polymer Materials 4 (2), 980-986 (2022) 📅 — Cited by: 7 📖 🔧
🎓 Synthesis and characterization of oleophobic fluorinated polyester films — T. Demir, Clemson University Dissertation (2015) 📅 — Cited by: 4 📖 🎯
🌿 Towards a long-chain perfluoroalkyl replacement: Water and oil repellent perfluoropolyether-based polyurethane oligomers — L. Wei et al., Polymers 13 (7), 1128 (2021) 📅 — Cited by: 3 📖 🧫

🔍 Conclusion:

Dr. Tugba Demir Caliskan exemplifies the qualities of a Best Researcher Award recipient through her continuous pursuit of scientific advancement, cross-disciplinary innovation, and real-world problem-solving. Her research not only advances fundamental science but also delivers practical solutions in healthcare, energy, and environmental sustainability. Her global academic presence, cutting-edge publications, and contributions to both academic and industrial sectors make her an outstanding candidate for this prestigious recognition.