Milos Vasic | Material science | Best Researcher Award

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Dr. Milos Vasic | Material science | Best Researcher Award

Dr. Miloš Vasić is a seasoned expert in the field of chemical technology and inorganic chemical engineering, with nearly 20 years of research and professional experience. A Ph.D. graduate from the University of Belgrade, he specializes in recycling processes, mechanical activation of raw materials, and optimization of material properties—particularly in the context of porous and ceramic materials. In recent years, he has expanded his focus to include polymer investigations and the development of innovative construction products. Dr. Vasić has contributed to over 117 scientific papers, including 23 indexed in the Web of Science. He is actively involved in high-impact national and international projects and plays a leading role in the standardization and certification of building materials in Serbia. His work extends to quality assurance, technical consulting, and scientific cooperation, and he currently chairs the Serbian Standards Institute’s Committee for Masonry Structures.

Profile

🎓 Education

Dr. Miloš Vasić obtained his Ph.D. in Technical Sciences in the field of Chemistry and Chemical Technology from the Faculty of Technology and Metallurgy, University of Belgrade, in 2014. His doctoral studies focused on the physical and chemical processes involved in optimizing raw materials and ceramic properties. He completed his B.Sc. in Inorganic Chemical Engineering from the same institution in 2005, building a strong foundation in inorganic material processing, reaction kinetics, and industrial-scale applications. Throughout his academic training, Dr. Vasić emphasized interdisciplinary approaches, merging principles of chemistry, process engineering, and materials science. His education has equipped him to engage in both theoretical modeling and practical implementation of new materials, especially in the field of construction ceramics and industrial recycling, laying the groundwork for his substantial research and development contributions in academia and industry alike.

🧪 Experience

Dr. Miloš Vasić currently serves as a researcher at the Laboratory for Building Ceramics, where he specializes in the testing and development of clay-based and ceramic construction products. He has led numerous national and bilateral projects on material recycling, energy efficiency in ceramic production, and the design of self-compacting concretes using waste. Since 2019, he has chaired the Serbian Standards Institute’s Committee for Masonry Structures, overseeing regulatory and technical guidelines. He has been instrumental in maintaining laboratory quality systems aligned with SRPS EN ISO/IEC 17025 standards. In 2020, he became a technical expert for Proficiency Testing (PT) at the IMS Institute, contributing to Serbia’s designation of AVCP bodies for construction products. His practical and regulatory contributions have influenced policy-making, quality standards, and innovation within the materials testing and certification sector.

🏅 Awards and Honors

While specific named awards are not explicitly listed, Dr. Miloš Vasić’s professional recognitions are evident through his appointments and leadership roles. He was named as the responsible person in the Serbian government’s designation decision for construction product performance verification (Decision No. 35-00-0108/2020-08), reflecting national-level trust in his technical expertise. His appointment as Chair of the Serbian Standards Institute’s Committee for Masonry Structures since 2019 underscores his influence and authority in standardization. He has also been selected as a technical expert for IMS Institute’s Proficiency Testing, indicating peer recognition in the domain of ceramic and masonry product quality assurance. His invitation to lead or participate in multiple nationally and internationally funded scientific projects demonstrates his high standing in Serbia’s R&D community. These roles and responsibilities serve as testament to his reputation, leadership, and contributions to material sciences and standardization efforts.

🔬 Research Focus

Dr. Miloš Vasić’s research spans multiple interdisciplinary domains within chemical technology, with an emphasis on recycling of inorganic raw materials, mechanical activation, and optimization of porous construction materials. His early research centered on ceramic building materials, including clay masonry units and roof tiles, analyzing their physical and chemical properties under various industrial processes. He has developed and modeled drying parameters for energy efficiency and sustainable material production. Over the last seven years, his research scope has expanded to include polymer materials and the design of novel construction products. Through involvement in major projects, including collaborations with Turkey and the EU’s COST actions, he has advanced knowledge in nanopowder-based ceramics, self-compacting concrete, and multifunctional composite materials. Dr. Vasić’s applied research has significantly influenced industrial practices, national standards, and sustainable construction technologies.

Conclusion

Dr. Miloš Vasić is a dedicated researcher and technical leader whose interdisciplinary expertise in chemical engineering and construction materials has driven advancements in sustainable technologies, standardization, and industrial process optimization.

Publications

  • Assessment of the Drone Arm’s Plastic–Metal Joint Mechanical Resistance Following Natural and Artificial Aging of the 3D-Printed Plastic Component

    Materials
    2025-06-01 | Journal article
    DOI: 10.3390/ma18112591
    CONTRIBUTORS: Miloš R. Vasić; Snežana Vučetić; Vesna Miljić; Miloš Vorkapić; Anja Terzić; Mladen Ćosić; Danica M. Bajić

  • Additive technology and 7R methodology in circular economy for wearable sensors production

    Journal of Engineering Management and Competitiveness
    2024 | Journal article
    DOI: 10.5937/JEMC2401071V
    CONTRIBUTORS: Miloš Vorkapić; Stefan Ilić; Marko Spasenović; Miloš Vasić; Dragan Ćoćkalo

  • Assessment of construction and demolition waste application for improving frost resistance in masonry clay units

    Science of Sintering
    2024 | Journal article
    DOI: 10.2298/SOS240711031V
    CONTRIBUTORS: Milos Vasic, R.; Anja Terzic; Marko Stojanovic; Milos Vorkapic; Dragan Bojovi

  • INCREASE OF FROST RESISTANCE OF CLAY MASONRY UNITS WITH CONSTRUCTION DEMOLITION WASTE ADDITION: A CASE STUDY

    International Journal of Modern Manufacturing Technologies
    2024 | Journal article
    DOI: 10.54684/ijmmt.2024.16.3.109

    EID:

    2-s2.0-85216944877

    Part ofISSN: 20673604
    CONTRIBUTORS: Vasić, M.; Vorkapić, M.; Bojović, D

  • PETG as an Alternative Material for the Production of Drone Spare Parts

    Polymers
    2024-10-24 | Journal article
    DOI: 10.3390/polym16212976
    CONTRIBUTORS: Marija Z. Baltić; Miloš R. Vasić; Miloš D. Vorkapić; Danica M. Bajić; Ján Piteľ; Petr Svoboda; Aleksandar Vencl

Guadalupe Gabriel Flores-Rojas | Smart polymers | Best Researcher Award

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Dr. Guadalupe Gabriel Flores-Rojas | Smart polymers | Best Researcher Award

Guadalupe Gabriel Flores Rojas is a highly accomplished chemical scientist with expertise in synthesizing materials with antimicrobial and photophysical properties. With a PhD in Chemical Sciences from UNAM, his research spans enzyme immobilization, nanomaterials, dendritic polymers, and drug delivery systems. He has contributed significantly to radiation-induced polymerization, organometallic chemistry, and environmental remediation. Dr. Flores Rojas has held postdoctoral fellowships at top Mexican research institutions and currently serves at the University Center for Exact Sciences and Engineering (UDG). His prolific publication record and editorial roles demonstrate his commitment to advancing polymer science, nanotechnology, and bioactive materials.

Profile

Education 🎓

Guadalupe Gabriel Flores Rojas earned a PhD in Chemical Sciences from UNAM’s Institute of Nuclear Sciences (2014–2018), with a thesis on antimicrobial biomaterials for enzyme immobilization. He completed an MSc in Chemistry at UNAM’s Institute of Chemistry (2010–2012), focusing on Pd(II) catalysts for C–C coupling. He holds a bachelor’s in Industrial Chemistry with a macromolecules specialization from UNAM’s Cuautitlán campus (2006–2010), where he synthesized dendrimers for photonic applications. Earlier, he obtained his Chemical Technician diploma and a Microcomputer Operation diploma from CETIS No. 32 (2003–2006), building a strong foundation in analytical techniques and computer literacy for scientific applications.

Experience 👨‍🏫

Dr. Flores Rojas currently holds a postdoctoral fellowship at UDG, focusing on antimicrobial polymeric materials and nanoparticle-loaded systems for wastewater treatment. He previously worked at UNAM’s Materials Research Institute (2018–2020), designing dendritic photophysical compounds, and at the Institute of Nuclear Sciences (2018), synthesizing biopolymeric materials for controlled drug delivery via gamma radiation. His experience includes evaluating polymer mechanics, SEM/AFM imaging, EPR/NMR/MS spectroscopy, and supervising students. Earlier, he taught mathematics at CETIS No. 32 (2008), demonstrating strong analytical instruction skills. Across roles, he contributes as a journal reviewer, guest editor, and mentor while publishing extensively in international journals.

Awards & Recognitions 🏅

Dr. Flores Rojas has received recognition through prestigious postdoctoral fellowships from Mexico’s top institutions including UNAM and UDG. He serves as a guest editor at MDPI’s Polymers journal and actively reviews for international journals, reflecting peer recognition of his expertise. His leadership roles in scientific conferences like POLYMAT 2019 and his involvement in editorial contributions highlight his professional reputation. With over 15 indexed publications in high-impact journals such as Polymers, Cellulose, Macromol, and Inorganica Chimica Acta, his contributions to materials science, drug delivery, and nanotechnology have earned acclaim from the global scientific community and research peers.

Research Interests 🔬

Dr. Flores Rojas’s research centers on the synthesis and engineering of advanced materials with antimicrobial and photophysical properties. He explores gamma radiation and chemical polymerization to develop functionalized biomaterials, nanocomposites, and dendritic compounds for drug delivery, environmental cleanup, and energy transfer. His work on enzyme immobilization, organometallic catalysis, and core-shell nanoparticles integrates polymer chemistry with biomedical and environmental applications. He actively investigates biocompatibility, mechanical behavior, and surface morphology of polymers. With a multidisciplinary approach, he aims to develop smart, responsive materials for industrial, clinical, and energy-based innovations, contributing to sustainable and efficient material science solutions.

Publications

Wang Xi | Flame retardant Polymer | Best Researcher Award

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Prof Dr. Wang Xi | Flame retardant Polymer | Best Researcher Award

Dr. Wang Xi 🎓, an Associate Professor and Master’s Supervisor, specializes in environmentally friendly high-performance flame-retardant materials and rare earth permanent magnetic materials. Since 2014, he has been actively engaged in research and academia, publishing over 20 SCI-indexed papers with 400+ citations 📚. He has also authored a monograph and secured 3 national invention patents. Currently, he is leading multiple funded projects focused on flame-retardant mechanisms. His contributions to materials science earned him a spot in the 2024–2026 Young Talent Support Program by the Beijing Association for Science and Technology. 🚀

Profile

Education 🎓

Dr. Wang Xi completed his Ph.D. in Materials Science and Engineering from Beijing University of Technology in June 2021 🏛️. His doctoral research focused on advanced flame-retardant materials and high-performance magnetic materials. His academic journey has been driven by a passion for developing innovative and sustainable materials with enhanced safety and efficiency. Over the years, he has collaborated with leading researchers and institutions, refining his expertise in polymer science, material durability, and combustion-resistant materials. His academic foundation has paved the way for cutting-edge advancements in both the academic and industrial domains. 🎓🔬

Experience 👨‍🏫

With over a decade of research experience, Dr. Wang Xi has made significant contributions to materials science, particularly in flame-retardant polymers and rare earth permanent magnetic materials. Since 2014, he has been engaged in extensive applied research, securing national and institutional funding for groundbreaking projects. As a faculty member, he mentors graduate students and supervises innovative research projects 🔬. His work has been published in high-impact journals, contributing valuable insights into material performance and fire safety. Additionally, he has played a key role in technology transfer, bridging academic research with industrial applications. His expertise continues to influence emerging trends in advanced materials.

Research Interests 🔬

Dr. Wang Xi specializes in environmentally friendly high-performance flame-retardant materials and high-performance rare earth permanent magnetic materials. His research aims to develop advanced materials that enhance fire safety while maintaining mechanical integrity. His recent projects focus on elastic flame-retardant cluster particles and phosphorus-containing synergistic compounds 🔥. He is the principal investigator for multiple funded studies, including the Beijing Natural Science Foundation General Program, which explores high-performance ABS resin modifications. His work combines polymer chemistry, nanotechnology, and material engineering to address real-world challenges in fire-resistant and high-performance materials. 🚀

Awards & Recognitions 🏅

Dr. Wang Xi’s contributions to materials science have been widely recognized. In 2023, he was selected for the 2024–2026 Young Talent Support Program by the Beijing Association for Science and Technology 🌟. His research achievements, including 20+ SCI-indexed publications and 400+ citations, have established him as a leading researcher in his field 📖. He has also secured 4 national invention patents (3 authorized) for his innovative work in flame-retardant materials. His academic excellence and impactful research have earned him multiple grants and institutional recognitions, further solidifying his reputation as a distinguished scientist. 🏅

Publications 📚

  • [1] Fengshuai Zhou, Wei Tang, Wang Xi*, Lijun Qian*, Jingyu Wang, Yong Qiu, Yajun Chen. Improving the fracture toughness, flame retardancy and smokesuppression of ABS by core-shell elastic flame retardant particles with P/Si
    synergistic effect[J]. Polymer Degradation Stability, 2024, 228, 110893.
  • [2] Wang Xi, Hongguo Zhang, Meijun Li, Weiqiang Liu, Ming Yue. The enhancedoxidation resistance of zinc-coated Nd-Fe-B spherical powders using a rotationcoating technique[J]. Journal of Magnetism and Magnetic Materials, 2024, 597, 171995.
  • [3] Junxiao Li, Lijun Qian*, Wang Xi*, Jingyu Wang, Yong Qiu, Yajun Chen, Wei
    Tang. Alloying synergistic flame retardant effect on PA6 by polyimide containingalkyl hypophosphate structure[J]. European Polymer Journal, 2024, 211, 113033.
  • [4] Fengshuai Zhou, Wang Xi*, Lijun Qian*, Jingyu Wang, Yong Qiu, Yajun Chen. Hexaphenoxy cyclotriphosphazeneboron nitride high efficiency charring systemenhancing the flame retardancy and thermal conductivity of polycarbonate[J]. Polymer Degradation and Stability, 2024, 219, 110601.
  • [5] Yang Zhi, Xi Wang*, Qian Lijun*, Qiu Yong, Wang Jingyu, Chen Yajun, TangWei. Adsorption charring flame retardant effect of phosphaphenanthrene derivateintercalated micro-expanded graphite composite system in rigid polyurethanefoams[J]. Polymer Degradation and Stability, 2023, 216: 110493.
  • [6] Li Junxiao, Qian Lijun*, Xi Wang*, Qiu Yong, Tang Wei, Li Shanzhe. Alloyingsynergistic flame retardant effect improving fire resistance and mechanical properties
    of polyamide 6[J]. Journal of Applied Polymer Science, 2022, 139(48): 1-12.
  • [7] Wang Xi, Weiqiang Liu, Ming Yue, Dongtao Zhang, Qingmei Lu, HongguoZhang, Qiong Wu, Yuqing Li. The DDM curing enhancement for the epoxy resinbinder bonded Nd-Fe-B magnets[J]. IEEE TRANSACTIONSONMAGNETICS,2021, 57(2): 2100207.
  • [8] Wang Xi, Weiqiang Liu, Ruijin Hu, Yuxia Yin, Ming Yue. Property enhancement
    of bonded Nd-Fe-B magnets by composite adhesive design [J]. Materials and Design, 2020, 192:108767.
  • [9] Wang Xi, Lijun Qian, Linjie Li. Flame Retardant Behavior of Ternary SynergisticSystems in Rigid Polyurethane Foams[J]. Polymers, 2019,11(2): 207.
  • [10] Wang. Xi, Weiqiang. Liu, Ming Yue, Dongtao Zhang, Qingmei Lu, HongguoZhang, Yuqing Li. Preparation and Characterization of Phenol Formaldehyde BondedNd-Fe-B Magnets With High Strength and Heat Resistance[J]. IEEETRANSACTIONS ON MAGNETICS, 2018, 54(11):1-4.
  • [11] Wang Xi, Lijun Qian, Zhigang Huang, Yanfang Cao, Linjie Li. Continuouslyreleased flame-retardant behaviors of two kinds of phosphate esters with expandablegraphite in rigid polyurethane foams[J]. Polymer Degradation and Stability, 2016, 130, 97-102.
  • [12] Wang Xi, Lijun Qian, Yong Qiu, Yajun Chen. Flame-retardant behavior of
    bi-group molecule derived from phosphaphenanthrene and triazine groups onpolylactic acid[J]. Polymer Advanced Technologies, 2015, 22, 781-788.
  • [13] Wang Xi, Lijun Qian, Yajun Chen, Bo Xu. Addition flame-retardant behaviors of
    expandable graphite and [bis(2-hydroxyethyl)amino]-methyl-phosphonic aciddimethyl ester in rigid polyurethane foams[J]. Polymer Degradation Stability, 2015, 122: 36-43.
  • [14] Weiqiang. Liu, Wang Xi, Ruijin. Hu, Ming Yue, YuXia Yin, Jingang Guo, Dongtao Zhang, Hongguo Zhang. Preparation and characterization of sodiumsilicate/epoxy resin composite bonded Nd-Fe-B magnets with high performance[J]. Journal of Rare Earths, 37(10):