Fei Mao | Materials Science and | Best Researcher Award

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ProfDr. Fei Mao | Materials Science and Engineering | Best Researcher Award

Researcher at Jiangsu University Affiliated People’s Hospital, China

Prof. Fei Mao is a highly accomplished biomedical researcher specializing in mesenchymal stem cells, exosomes, and their therapeutic applications in inflammatory bowel disease (IBD) and colorectal cancer. With over two decades of academic experience and a strong publication record spanning high-impact journals, his research demonstrates significant depth and innovation. His work has advanced understanding of molecular mechanisms such as miRNA regulation, pyroptosis, and gut microbiota interactions, highlighting its translational relevance. Prof. Mao’s international exposure, including a postdoctoral fellowship at MD Anderson Cancer Center, adds further value to his global scientific perspective. While expanding research breadth, increasing sole authorship in top-tier journals, and detailing grant and citation metrics could strengthen his profile, his consistent focus and leadership in this niche field make him a strong candidate for the Best Researcher Award. His contributions have had a meaningful impact on regenerative medicine and the potential treatment of chronic gastrointestinal diseases.

Professional Profile

Education🎓

Prof. Fei Mao has a strong academic foundation rooted in medical and pharmaceutical sciences. He began his academic journey with a Bachelor’s degree in Medical Examination from the School of Medicine at Jiangsu University (1997–2002), followed by a Master’s degree in Pharmacognostics at the College of Food Science and Technology, also at Jiangsu University (2002–2005). He further advanced his expertise by earning a Ph.D. in Medicine from the School of Medicine, Jiangsu University (2004–2010), where he developed a strong focus on biomedical research. To broaden his research experience and global exposure, he completed a postdoctoral fellowship at the prestigious MD Anderson Cancer Center, University of Texas, USA (2012–2014), one of the world’s leading cancer research institutions. Since 2018, Prof. Mao has been serving as a Professor at the School of Medicine, Jiangsu University, where he continues to lead research initiatives and mentor the next generation of medical scientists.

Professional Experience📝

Prof. Fei Mao has built a distinguished professional career in biomedical research and academia. He began his postdoctoral training at the renowned MD Anderson Cancer Center, University of Texas, USA (2012–2014), where he deepened his expertise in cancer biology and regenerative medicine. Upon returning to China, he joined the School of Medicine at Jiangsu University, where he has served as a Professor since 2018. In this role, he has led numerous research projects focused on mesenchymal stem cells, exosomes, and their therapeutic applications in inflammatory bowel disease and colorectal cancer. His professional work is characterized by a strong translational focus, aiming to bridge the gap between laboratory findings and clinical treatments. Prof. Mao has published extensively in peer-reviewed journals, contributed to scientific reviews and book chapters, and collaborated with international researchers. His leadership in academic research and dedication to innovation have earned him recognition as a key figure in his field.

Research Interest🔎

Prof. Fei Mao’s research interests lie at the intersection of regenerative medicine, immunology, and gastrointestinal diseases. His primary focus is on the therapeutic potential of mesenchymal stem cells (MSCs) and exosomes in treating inflammatory bowel disease (IBD) and related colorectal cancer. He is particularly interested in understanding the molecular and cellular mechanisms through which MSCs and their exosomes modulate immune responses, regulate macrophage function, and influence pathways such as ubiquitination, pyroptosis, ferroptosis, and the gut microbiota-metabolome axis. By exploring the roles of microRNAs, long non-coding RNAs, and key signaling pathways like JAK/STAT and ERK, his research aims to uncover novel therapeutic targets and improve treatment strategies for chronic inflammatory conditions. Prof. Mao’s work bridges basic science and clinical application, contributing to the development of next-generation cell-based therapies. His dedication to this niche field positions him as a leading researcher in stem cell therapy and gastrointestinal disease intervention.

Award and Honor🏆

While specific awards and honors are not explicitly listed in the provided profile, Prof. Fei Mao’s academic achievements and research contributions strongly suggest a career marked by professional recognition. His appointment as a Professor at Jiangsu University since 2018 reflects institutional trust and recognition of his expertise. His postdoctoral fellowship at the prestigious MD Anderson Cancer Center, University of Texas, indicates international recognition of his potential and scientific capability. Additionally, his extensive publication record in reputable international journals highlights his research impact and standing within the scientific community. His collaborative work with global researchers and leadership in innovative studies on stem cell therapies for inflammatory bowel disease further underline his influence in the field. It is likely that Prof. Mao has received internal university commendations, research grants, and possibly national or regional awards in China, which would be consistent with the level of academic productivity and impact demonstrated throughout his career.

Research Skill🔬

Prof. Fei Mao possesses a comprehensive and advanced set of research skills in the fields of regenerative medicine, molecular biology, and immunology. His expertise lies in the isolation and therapeutic application of mesenchymal stem cells (MSCs) and exosomes, particularly in the treatment of inflammatory bowel disease (IBD) and colorectal cancer. He is highly skilled in designing and conducting in vivo and in vitro experiments, utilizing mouse models to study disease mechanisms and therapeutic outcomes. Prof. Mao has extensive experience in molecular techniques such as gene expression analysis, microRNA profiling, western blotting, immunohistochemistry, and pathway analysis involving signaling molecules like NF-κB, JAK/STAT, and ERK. He also has strong capabilities in gut microbiota and metabolomic research, integrating omics technologies to understand host-microbe interactions. His ability to translate complex molecular findings into therapeutic insights demonstrates not only technical proficiency but also a deep understanding of biomedical research with clinical relevance.

Conclusion💡

Prof. Fei Mao is a highly suitable candidate for a Best Researcher Award, particularly in the biomedical and translational medicine fields. His focused research on mesenchymal stem cells and inflammatory diseases has made valuable contributions to both basic science and potential clinical applications.

While some diversification and additional metrics (citations, grants) would further validate his standing, his sustained publication output, innovative methodologies, and international experience strongly support the merit of this nomination.

Publications Top Noted✍

  1. Title: Advancing therapeutic strategies for graft-versus-host disease by targeting gut microbiome dynamics in allogeneic hematopoietic stem cell transplantation: current evidence and future directions
    Authors: Not provided
    Year: Not provided
    Citations: 0

  2. Title: Human umbilical cord mesenchymal stem cell-derived exosomes repair IBD by activating the SIRT1-FXR pathway in macrophages
    Authors: Not provided
    Year: 2025
    Citations: 0

  3. Title: The role of COX-2 and its use as a therapeutic target in IBD and related colorectal cancer
    Authors: Not provided
    Year: Not provided
    Citations: 0

  1. Title: Mesenchymal stem cell in immunomodulation of dendritic cells: Implications for inflammatory bowel disease therapy
    Authors: Not provided
    Year: Not provided
    Citations: 0

  2. Title: HucMSC-Ex alleviates inflammatory bowel disease by regulating O-GlcNAcylation modification of RACK1 in intestinal epithelial cells
    Authors: Not provided
    Year: 2025
    Citations: 0

  1. Title: Flos lonicerae polysaccharide alleviates inflammatory bowel disease by improving intestinal microbiota and inhibiting oxidative stress and the NF-κB pathway
    Authors: Not provided
    Year: 2025
    Citations: 0

  1. Title: Emerging role of small RNAs in inflammatory bowel disease and associated colorectal cancer (Review)
    Authors: Not provided
    Year: Not provided
    Citations: 2

  1. Title: The role of suppressor of cytokine signaling 3 in inflammatory bowel disease and its associated colorectal cancer
    Authors: Not provided
    Year: Not provided
    Citations: 0

  1. Title: Intestinal mucus barrier: A potential therapeutic target for IBD
    Authors: Not provided
    Year: Not provided
    Citations: 5

  2. Title: Mechanism of cell death and its application in the repair of inflammatory bowel disease by mesenchymal stem cells
    Authors: Not provided
    Year: Not provided
    Citations: Not provided

MANALI RATHEE | Geopolymer Concrete | Women Researcher Award

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Ms.MANALI RATHEE | Geopolymer Concrete | Women Researcher Award

PHD SCHOLAR at IIT JAMMU, India.

Manali Rathee 🎓 is a dedicated civil engineering researcher focused on sustainable construction materials. Born on 25 January 1997 in Sonipat, Haryana 🇮🇳, she is currently pursuing a Ph.D. at IIT Jammu, specializing in geopolymer concrete—a low-carbon alternative to traditional cement ♻️. Her work integrates advanced materials like MXenes and graphene to improve durability and reduce environmental impact 🌍. With global exposure from Japan’s SAKURA Science Program 🇯🇵 and numerous international conference presentations 🌐, Manali aims to contribute to India’s Net-Zero 2070 vision. She blends scientific rigor with practical innovation, contributing significantly to eco-conscious infrastructure solutions 🏗️📘.

Professional Profile

Scopus

ORCID

Google Scholar

Suitability For Women Research Award – Ms.MANALI RATHEE

Manali Rathee is a promising and impactful young woman researcher in the domain of sustainable civil engineering 🏗️🌍. Her contributions to geopolymer concrete technology—an eco-friendly alternative to Portland cement—are crucial in advancing green construction practices and addressing climate change challenges ♻️. She has proven research expertise through international publications, a filed patent, and participation in global platforms such as Japan’s SAKURA Science Program 🇯🇵. As a doctoral scholar at IIT Jammu, Manali blends innovation with environmental stewardship, making her an ideal candidate for the Women Researcher Award 👩‍🔬✨.

Education & Experience 

🎓 Ph.D. in Civil Engineering – IIT Jammu (2021–Present)
🔬 Research focus: Geopolymer concrete, durability, nano-materials
📚 M.Tech in Structural & Construction Management – NIT Jalandhar (2019–2021)
🧱 Thesis on low-cost paving blocks using waste materials (TEQIP-III funded)
📐 B.Tech in Civil Engineering – GL Bajaj Institute, Uttar Pradesh (2014–2018)
🚧 Final project: National Highway Design with NHAI
🛠️ Industry Experience – Internship at NTPC Netra Site & NBCC India
👩‍🏫 Teaching Assistant at IIT Jammu and NIT Jalandhar

Professional Development 

Manali Rathee consistently pursues professional growth through academic, industrial, and international avenues 📈. She participated in the prestigious SAKURA Science Exchange Program in Japan 🇯🇵, enhancing her global perspective on sustainable materials. She’s attended top-tier international conferences in the UK 🇬🇧 and India 🇮🇳, showcasing her work in low-carbon construction 🌿. As a Teaching Assistant at both NIT Jalandhar and IIT Jammu 👩‍🏫, she’s contributed to developing academic curricula and mentoring peers. Her analytical skills in XRD, SEM, FTIR 🔬, and her software fluency in STAAD Pro and AutoCAD 💻 equip her to drive innovation in structural materials research 🏗️.

Research Focus

Manali’s research lies in the realm of sustainable civil engineering 🏗️🌍, focusing on geopolymer concrete—a low-emission, high-performance alternative to Portland cement. Her work contributes to carbon-neutral infrastructure by utilizing industrial waste like copper slag, fly ash, and zinc slag ♻️. She studies durability mechanics, chloride penetration, carbonation resistance, and thermal performance under aggressive environmental conditions 🌡️🌊. By integrating nanomaterials such as MXene and functional graphene, she enhances structural strength and longevity 🔬💎. Her research is aligned with India’s Net-Zero 2070 goals and the global push for greener urban development 🌱🌆, combining innovation with sustainability.

Awards and Honors

🏅 Among Top 3 in M.Tech Structural Engineering at NIT Jalandhar
📚 TEQIP-III Sponsored Project Grant – ₹4.85 Lakhs
🎓 B.Tech Civil Engineering with Honors
🎯 GATE Qualified – 97th Percentile in 2018, 2019, and 2020
🧪 Patent Filed – Polymerized Novel Cementitious Binder (2024)
🌍 SAKURA Science Exchange Program Participant – Japan (2023)
📖 Multiple High-Impact Publications – ACS, Elsevier, Springer Journals
🌐 International Conference Presenter – UK, Scotland, IIT Madras, NITJ

Publication Top Notes

1. Durability Properties of Copper Slag and Coal Bottom Ash Based I-shaped Geopolymer Paver Blocks

Authors: M. Rathee, N. Singh
Journal: Construction and Building Materials, Vol. 347, Article 128461
Citations: 20 | Year: 2022
Summary:
This paper investigates the use of industrial by-products—copper slag and coal bottom ash—in the production of geopolymer-based I-shaped paver blocks. The study evaluates mechanical and durability properties including water absorption, abrasion, and resistance to aggressive environments, indicating that the blocks have potential for sustainable paving applications.

2. Carbonation Resistance of Blended Mortars and Industrial By-products: A Brief Review

Authors: N. Singh, B. Sharma, M. Rathee
Journal: Cleaner Materials, Vol. 4, Article 100058
Citations: 20 | Year: 2022
Summary:
This review focuses on the carbonation resistance of mortars incorporating supplementary cementitious materials and industrial wastes. It summarizes key influencing parameters, performance of different blends, and highlights the role of material chemistry in resisting carbonation-induced degradation in concrete structures.

3. Study of Mechanical Properties of Geopolymer Mortar Prepared with Fly Ash and GGBS

Authors: M. Rathee, A. Misra, J. Kolleboyina
Journal: Materials Today: Proceedings, Vol. 93, pp. 377–386
Citations: 13 | Year: 2023
Summary:
This study assesses the mechanical performance—including compressive, flexural, and split tensile strength—of geopolymer mortar made using fly ash and ground granulated blast furnace slag (GGBS). The results demonstrate superior early-age and long-term strength development, making it a viable alternative to conventional cement mortar.

4. Reviewing Geopolymer Concrete: A Possible Sustainable Structural Material of Future

Authors: M. Rathee, N. Singh
Journal: Environment, Development and Sustainability
Citations: 5 | Year: 2024
Summary:
This comprehensive review explores geopolymer concrete as a sustainable alternative to traditional Portland cement. It discusses environmental benefits, mechanical properties, material constituents, and application challenges, positioning it as a future-forward material for eco-friendly construction.

5. Interfacial Chemistry of Ti₃C₂Tₓ MXene in Aluminosilicate Geopolymers for Enhanced Mechanical Strength

Authors: M. Rathee, H.K. Surendran, C. Narayana, R. Lo, A. Misra, K. Jayaramulu
Journal: ACS Applied Engineering Materials, Vol. 2(8), pp. 2027–2037
Citations: 3 | Year: 2024
Summary:
This paper presents the novel integration of MXene nanomaterials (Ti₃C₂Tₓ) into geopolymer matrices. By analyzing the interfacial interactions, it shows that MXenes significantly enhance mechanical strength and microstructural integrity, making them promising additives for next-gen construction materials.

6. Performance of Alkali-Activated Aluminosilicate Geopolymer Mortar Under Exposure to Acid, Sulfate and High Temperature

Authors: M. Rathee, A. Misra
Journal: Magazine of Concrete Research, Vol. 77(3–4), pp. 209–227
Citations: 1 | Year: 2024
Summary:
This experimental study examines how alkali-activated geopolymer mortars perform under chemical attacks (acid, sulfate) and thermal exposure. The paper concludes that such mortars demonstrate excellent resistance to harsh environments, validating their application in aggressive field conditions like sewage systems or thermal industries.

Conclusion

Manali Rathee exemplifies the spirit of the Women Researcher Award by not only advancing cutting-edge research in sustainable materials but also by contributing to the broader mission of climate-conscious engineering 🌱🌎. Her interdisciplinary approach, academic excellence, and societal relevance firmly establish her as a highly deserving recipient of this prestigious recognition 👏🏽🏆.

Yadian Xie | Materials Science | Best Researcher Award

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Yadian Xie - Materials Science and Engineering - Best Researcher Award

Guizhou Minzu University - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Yadian Xie is a dedicated researcher and academic professional based in Guiyang, Guizhou. He serves as a postdoctoral researcher, associate professor, and doctoral supervisor with extensive expertise in chemistry and material sciences. His scientific work spans cutting-edge innovations in low-dimensional materials, particularly black phosphorus. Over the years, Dr. Xie has led several prestigious research projects funded by national and provincial institutions. His dedication to excellence is reflected in his numerous awards and recognitions. With over 60 high-impact publications and multiple invention patents, Dr. Xie plays a vital role in bridging fundamental research with industrial applications.

EDUCATION

Dr. Yadian Xie earned his Ph.D. in Chemistry through a joint program between Université du Québec, Canada, and the National Center for Nanoscience and Technology, China. This cross-institutional academic background has equipped him with a solid foundation in advanced chemical engineering and nanoscience. His postdoctoral fellowship at Peking University further refined his research capabilities, especially in low-dimensional materials. His educational journey reflects a consistent trajectory toward innovation in material chemistry, making him a knowledgeable and skilled figure in his field. This academic experience provides the basis for his interdisciplinary research and mentoring of future scientists.

PROFESSIONAL EXPERIENCE

Since May 2020, Dr. Xie has served as an Associate Professor at the School of Chemical Engineering, Guizhou Minzu University. From 2017 to 2020, he completed a postdoctoral fellowship at Peking University. His academic career demonstrates a steady progression through significant research and teaching roles. At Guizhou Minzu University, he also contributes to guiding graduate students and supervising doctoral research. His responsibilities include teaching, developing research infrastructure, and leading government-funded projects. His dual roles as researcher and educator position him as a leading figure in chemical engineering education and scientific innovation in Guizhou and beyond.

RESEARCH INTEREST

Dr. Xie’s research primarily focuses on the large-scale synthesis and real-world applications of black phosphorus and other low-dimensional materials. He investigates their optical, electrical, and magnetic properties through both experimental and computational approaches. His work extends to application-oriented research on emerging materials used in batteries and gas sensors. His scientific inquiries aim to understand and exploit the structural behaviors of materials at the nanoscale. This multidisciplinary focus allows him to contribute significantly to materials science, energy storage, and environmental applications, making his research both foundational and practically relevant.

AWARD AND HONOR

Dr. Xie has earned several prestigious awards for his academic and scientific achievements. These include the First Prize for Higher Education Teaching Achievement in Guizhou and the Third Prize for Scientific and Technological Progress in the province. He was also named “Most Outstanding Science and Technology Worker” in Guizhou. Notably, he received recognition for a provincial “Golden Course” in Materials Science and led major innovation projects. His honors reflect a strong commitment to education, research, and technological advancement, highlighting his role as a key contributor to the scientific and academic communities in China.

RESEARCH SKILL

Dr. Xie possesses a wide range of research skills, including chemical vapor transport, photonic crystal synthesis, and computational modeling of low-dimensional materials. He has successfully managed several complex research projects funded by national and provincial agencies. His technical expertise includes developing innovative sensors, battery materials, and advanced alumina compounds. He is also proficient in academic writing, peer review, and patent development. These skills allow him to bridge the gap between theoretical materials science and practical applications, ensuring his research delivers measurable impact in both academia and industry.

PUBLICATIONS

Title: Pyridine-functionalized chiral polyoxometalates via in situ degradation
Authors: Yu Xia, Tao Zhang, Luyu Tian, Hailiang Hu, Gang Li
Journal: Journal of Molecular Structure (2025)

Title: Post-synthetic modification strategy to immobilize acidic units within metal-organic frameworks or covalent organic frameworks for boosted proton conductivity
Authors: Hailiang Hu, Yu Xia, Xin Wang, Yadian Xie, Gang Li
Journal: [Journal not specified in source – likely Chemistry or Materials journal, inferred]

Title: Scalable fabrication of graphene-basalt composite fabric via Layer-by-Layer deposition for efficient treatment of Cr(VI) − contaminated water
Authors: Hanqing Yu, Shijiao Li, Zheng Zeng, Xin Tong, Yadian Xie
Journal: Separation and Purification Technology (2025)

Title: Research progress on enhancing particulate matters removal enabled by triboelectric effect
Authors: Yi Dai, Huan Li, Qiyu He, Yadian Xie, Shuangxi Nie
Journal: [Journal not specified in source – possibly Environmental Science or Materials journal]

CONCLUSION

Yadian Xie exemplifies excellence in research, education, and innovation. His work not only enhances academic understanding but also translates to real-world industrial solutions. Through his leadership in high-impact projects and consistent scholarly output, he contributes to advancing both science and technology in China and globally. His mentorship of future researchers and commitment to teaching excellence solidify his role as a prominent figure in chemical engineering. As a recognized academic and innovator, Dr. Xie’s work continues to influence the development of new materials and sustainable technologies with broad societal impact.

Sukarman Sukarman | Materials Science and Engineering | Best Researcher Award

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Mr . Sukarman Sukarman | Materials Science and Engineering | Best Researcher Award

Universitas Buana Perjuangan Karawang , Indonesia

Sukarman, a lecturer at Universitas Buana Perjuangan Karawang and a Ph.D. candidate in Mechanical Engineering, is a promising researcher with a strong focus on nanomaterials, nanofluids, and thermal-fluid sciences. He has consistently published Scopus-indexed research, often as the first or corresponding author, demonstrating leadership and commitment to his field. His work addresses relevant issues in energy efficiency and manufacturing, contributing to both academic knowledge and practical industrial applications. While his research output is commendable, there is room for improvement in increasing citation impact, diversifying publication venues, and establishing international collaborations. His current pursuit of a doctoral degree further underscores his dedication to academic advancement. Overall, Sukarman’s research performance, publication consistency, and focus on emerging engineering topics make him a strong candidate for the Best Researcher Award, particularly at the national or institutional level, with significant potential for future growth and wider academic impact.

PROFESSIONAL PROFILE

EDUCATION🎓

Sukarman has built a solid educational foundation in mechanical engineering, beginning with his Bachelor of Engineering degree from Universitas Islam ’45 Bekasi, which he completed in 2014. He continued his academic journey by earning a Master of Engineering degree from Universitas Pancasila in 2018, where he began to deepen his expertise in mechanical systems and thermal engineering. Currently, he is pursuing a Ph.D. in Mechanical Engineering at Universitas Sebelas Maret, Surakarta, further advancing his specialization in nanomaterials, nanofluids, and energy-efficient technologies. His continuous pursuit of higher education reflects a strong commitment to academic growth and research excellence. Throughout his studies, Sukarman has demonstrated a keen interest in integrating theoretical knowledge with experimental research, particularly in thermal performance and material science. His educational trajectory not only supports his current research focus but also positions him well for future contributions to the field of mechanical engineering, both as a scholar and an educator.

PROFESSIONAL EXPERIENCE📝

Sukarman serves as a lecturer in the Department of Mechanical Engineering at Universitas Buana Perjuangan Karawang, where he plays a key role in teaching, research, and academic development. His professional journey reflects a strong dedication to both education and research, particularly in the areas of nanomaterials, thermal systems, and manufacturing processes. In addition to his teaching responsibilities, he actively supervises student projects and contributes to curriculum enhancement within his department. Sukarman has successfully integrated his research interests into his academic role, publishing multiple Scopus-indexed papers and leading several studies as the first or corresponding author. His hands-on experience in experimental mechanics, coupled with his academic background, allows him to bring real-world engineering challenges into the classroom. His involvement in conferences, journal publications, and applied research initiatives demonstrates a commitment to advancing mechanical engineering both in theory and practice. Sukarman’s professional experience showcases a balanced blend of academic leadership and technical expertise.

RESEARCH INTEREST

Sukarman’s research interests lie at the intersection of advanced materials and thermal-fluid sciences, with a particular focus on nanomaterials, nanofluids, and their applications in mechanical and energy systems. He is deeply engaged in exploring how nanomaterials can enhance the thermal conductivity and efficiency of industrial cooling systems, especially in processes like plastic injection molding and transformer cooling. His work also extends to manufacturing processes, including metal forming and resistance spot welding, where he investigates optimization techniques to improve mechanical performance and energy use. Sukarman is interested in experimental mechanics, applying hands-on testing methods to validate models and improve system designs. His research contributes to solving practical engineering challenges while also advancing theoretical understanding in heat transfer, energy efficiency, and sustainable materials. This blend of applied and experimental research underlines his commitment to innovation in mechanical engineering, making his work relevant to both academic and industrial advancements in energy and manufacturing technologies.

AWARD AND HONOR🏆

While specific awards and honors have not been listed, Sukarman’s growing body of peer-reviewed publications and his active role as a first or corresponding author in multiple Scopus-indexed journals reflect academic recognition and professional respect within his field. His selection as a lead author in research involving advanced nanofluids and mechanical systems optimization demonstrates the trust and acknowledgment he has earned from his academic peers and collaborators. Additionally, his ongoing Ph.D. studies and increasing involvement in high-impact research indicate a trajectory toward greater academic distinction. As a faculty member contributing significantly to research and education, he is well-positioned for future honors, such as best paper awards, research grants, or institutional recognitions. His commitment to high-quality research, innovation in mechanical engineering, and consistent scholarly output mark him as a strong candidate for future accolades, including the Best Researcher Award, as his contributions continue to grow in relevance and impact within the academic and engineering communities.

RESEARCH SKILL🔬

Sukarman possesses strong and diverse research skills that are well-aligned with the demands of modern mechanical engineering. His expertise spans experimental design, data analysis, materials characterization, and process optimization. He demonstrates a solid command of nanomaterials and nanofluids, particularly in enhancing thermal performance for industrial applications. His ability to design and conduct complex experiments—such as investigating heat transfer behavior in customized cooling systems or analyzing mechanical properties in metal forming—shows a high level of technical competence. Sukarman is skilled in using tools such as Taguchi Design of Experiments (DOE) for optimization and various analytical techniques for material and thermal analysis. His multiple first-author publications indicate proficiency in academic writing, literature review, and scientific communication. Furthermore, his collaborative work across projects reflects his ability to work within interdisciplinary teams. These research skills not only support his current projects but also equip him to contribute meaningfully to innovation and applied research in mechanical engineering.

CONCLUSION

Sukarman stands out as an emerging expert in nanomaterials and mechanical engineering research. His career merges academic instruction with experimental discovery, producing practical results that advance both theory and application. He consistently contributes to high-quality research, demonstrating a passion for developing sustainable technologies in energy and materials science. With strong publication credentials and an evolving academic profile, Sukarman is well-positioned to influence next-generation mechanical engineering practices. His pursuit of excellence in research and education ensures a lasting impact on both students and the broader engineering community.

PUBLICATIONS

Enhancing Thermal Conductivity of TiO₂-3%F⁺/MEG-40 Binary Nanofluid for Sustainable Cooling Systems in Plastic Injection Molding Applications

  • Authors: Sukarman, Budi Krisitiawan, Eko Prasetya Budiana, Khoirudin, Amri Abdulah

  • Journal: Journal of Advanced Research in Fluid Mechanics and Thermal Sciences

  • Year: 2025

Heat Transfer Characteristic of Al₂O₃ Nanofluid with Naphthenic Transformers Oil as Base Fluid

  • Authors: Khoirudin, Budi Kristiawan, Budi Santoso, Sukarman, Amri Abdulah

  • Journal: Journal of Advanced Research in Fluid Mechanics and Thermal Sciences

  • Year: 2025

 

Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

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Dr. Mohammad Sadegh Shakeri | Materials Science and Engineering | Innovations in Materials Engineering Award

Assistant Professor at Institute of Nuclear Physics Polish Academy of Sciences, PL-31342 Krakow, Poland

Dr. Mohammad Sadegh Shakeri is an accomplished materials scientist with extensive expertise in magnetic materials and nanostructures. Currently an Assistant Professor at the Institute of Nuclear Physics Polish Academy of Sciences in Krakow, Poland, he specializes in the study of photocatalytic materials, their synthesis, and applications. With a solid foundation in materials science and engineering, his academic journey reflects a commitment to advancing the field through research and innovation.

Profile

Orcid

Education

Dr. Shakeri completed his education in Materials Science and Engineering, earning a Ph.D. from the Materials & Energy Research Centre in Iran (2017). His academic credentials include a Master’s degree from the University of Tabriz (2012) and a Bachelor’s degree from Sahand University of Technology (2009). His educational background has equipped him with the theoretical knowledge and practical skills necessary for tackling complex challenges in materials research.

Experience

Dr. Shakeri has held several notable positions throughout his career. He is currently engaged as an Assistant Professor in the Department of Magnetic Materials and Nanostructures. Prior to this, he served as a postdoctoral researcher at the same institute and held visiting researcher roles in Germany and France. His diverse experience also includes positions as a lecturer at Faradars Virtual University and as an R&D specialist in a private company, where he applied his scientific expertise in practical settings.

Research Interests

His research interests focus on the synthesis and characterization of advanced materials, particularly in the realm of photocatalysis and nanotechnology. Dr. Shakeri investigates the mechanisms underlying material properties, employing techniques such as density functional theory (DFT) and molecular dynamics simulations to explore the electronic structures and behavior of nanostructures during various processes, including laser irradiation.

Awards

Dr. Shakeri has received several prestigious awards recognizing his contributions to materials science. In 2023, he was honored with the Polish Ministry of Science and Education Scholarship for Outstanding Young Scientists. He also received the PSRS Award from the Polish Synchrotron Radiation Society in 2024 and was named Scientist of the Year by the Institute of Nuclear Physics Polish Academy of Sciences in the same year. His accolades reflect his dedication to excellence in research and teaching.

Publications

Dr. Shakeri has authored and co-authored a number of publications in reputable journals, contributing significantly to the field of materials science. Key publications include:

Shakeri, M.S. et al. “Effect of hydroxyapatite coating on corrosion behavior and nickel release of NiTi shape memory alloy,” Materials and Corrosion, 2014. DOI: 10.1002/maco.201206950.

Maleki-Ghaleh, H., Shakeri, M.S. “Electrochemical and cellular behavior of ultrafine-grained titanium in vitro,” Materials Science and Engineering C, 2014. DOI: 10.1016/j.msec.2014.03.001.

Shakeri, M.S. et al. “Influence of Fe3O4 Nanoparticles in Hydroxyapatite Scaffolds on Proliferation of Primary Human Fibroblast Cells,” Journal of Materials Engineering and Performance, 2016. DOI: 10.1007/s11665-016-2086-4.

Delbari, S.A., Shakeri, M.S. et al. “Characterization of TiC ceramics with SiC and/or WC additives,” Journal of the Taiwan Institute of Chemical Engineers, 2021. DOI: 10.1016/j.jtice.2021.05.039.

Yu, H., Shakeri, M.S. et al. “HRTEM study and mechanical properties of ZrB2–SiC composite,” International Journal of Refractory Metals and Hard Materials, 2022. DOI: 10.1016/j.ijrmhm.2022.105789.

His work has been well-cited in the scientific community, underscoring his impact on the field.

Conclusion

In summary, Dr. Mohammad Sadegh Shakeri is a dedicated researcher and educator whose contributions to materials science are noteworthy. His extensive background in materials engineering, combined with a focus on innovative research and collaboration, positions him as a leading figure in the study of magnetic materials and nanostructures. Through his teaching and research, he continues to inspire future generations of scientists and advance the understanding of complex materials systems.

Ameelia Roseline | Materials Science and Engineering | Best Researcher Award

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Dr. Ameelia Roseline | Materials Science and Engineering | Best Researcher Award

Continue reading “Ameelia Roseline | Materials Science and Engineering | Best Researcher Award”

João Grilo | Materials Science and Engineering | Best Researcher Award

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Dr. João Grilo | Materials Science and Engineering | Best Researcher Award

Researcher at Universidade de Aveiro, Portugal

João Paulo de Freitas Grilo is a dedicated researcher in Materials Science and Engineering, specializing in ceramics and electrochemical materials. He earned his Ph.D. in Materials Science and Engineering from the University of Aveiro in 2019. With a robust academic background, he has actively contributed to the scientific community through extensive research, numerous publications, and collaborative projects. Currently, he serves as a researcher at the University of Aveiro, focusing on ionic conductors, solid oxide cells, and composite materials. His work has significantly impacted the field of engineering and technology, particularly in advancing material properties for energy applications.

Profile

Orcid

Education

João Paulo de Freitas Grilo has an extensive academic background in materials engineering. He completed his Ph.D. in Materials Science and Engineering in 2019 at the University of Aveiro. Prior to this, he earned a Master’s degree in Materials Engineering from the Federal University of Rio Grande do Norte (UFRN) in 2015. His undergraduate studies in Materials Engineering were also conducted at UFRN, where he graduated in 2013. Additionally, he obtained a Bachelor’s degree as an Electrical Technician from the Institute of Federal Education, Science, and Technology of Rio Grande do Norte in 2009. His education provided a strong foundation for his research in materials science and engineering, with a particular focus on ceramics and electrochemical applications.

Experience

João Paulo de Freitas Grilo has accumulated a wealth of experience in both research and academic environments. As a researcher at the University of Aveiro, he has been deeply involved in various scientific investigations and technological advancements. His contributions include co-supervising Ph.D. theses and MSc dissertations, demonstrating his role in mentoring and developing the next generation of scientists. He has participated in multiple research projects, assuming roles as a researcher, Ph.D. fellow, and supervisor. His expertise extends to organizing academic events and collaborating with international teams to advance the understanding of solid-state ionic conductors and mixed conductors.

Research Interests

His primary research interests lie in the field of engineering and technology, specifically in materials engineering. His work focuses on ceramics, solid oxide cells, and grain boundary engineering. He has explored ionic and mixed conductors, emphasizing the development of materials for energy applications, including fuel cells and electrochemical devices. His studies also delve into processing techniques and the impact of microstructures on electrical properties. Through his research, he aims to enhance material performance, efficiency, and durability in energy conversion systems. His investigations are instrumental in developing innovative materials for sustainable energy solutions.

Awards

João Paulo de Freitas Grilo has received recognition for his contributions to materials science and engineering. His work has been acknowledged through awards and nominations in prestigious conferences and research institutions. His dedication to advancing ceramics and electrochemical materials has earned him positions in significant scientific projects, reflecting the impact of his research on the scientific community. His contributions to solid oxide fuel cells and composite electrolytes have been widely recognized, making him a leading figure in his area of expertise.

Publications

João Paulo de Freitas Grilo has authored numerous publications in high-impact journals, contributing significantly to the field of materials science. Some of his key publications include:

Tidei, H. J., Yang, T., & Grilo, J. P. F. (2025). “Role of microstructure on the electrical properties of ceria-based composites.” International Journal of Hydrogen Energy.

Melo, K. P. V., Araújo, A. J. M., Grilo, J. P. F., et al. (2024). “Understanding the oxygen reduction reaction of one-dimensional Ca3Co2O6 cathodes for SOFC.” International Journal of Hydrogen Energy.

Starykevich, M., Rondão, A. I. B., Grilo, J. P. F., & Marques, F. M. B. (2023). “Tuning of phase content, microstructure, and thermal expansion of MgPSZ.” Ceramics International.

Araújo, A. J. M., Loureiro, F. J. A., Grilo, J. P. F., et al. (2022). “A high-performance oxygen electrode for solid oxide cells: Compositional optimization of barium cobaltite-based composites.” Journal of Alloys and Compounds.

Rondão, A. I. B., Grilo, J. P. F., Starykevich, M., & Marques, F. M. B. (2022). “Dilatometric inspection of phase changes in Mg-PSZ.” Thermochimica Acta.

Grilo, J. P. F., Jamale, A., Starykevich, M., et al. (2022). “Role of salts on the electrical performance of ceria-based electrolytes: An overview.” Frontiers in Materials.

Garcia, M. F. L., Araújo, A. J. M., Raimundo, R. A., et al. (2021). “Electrical properties of Ca-doped ceria electrolytes prepared by proteic sol-gel route and by solid-state reaction using mollusk shells.” International Journal of Hydrogen Energy.

Conclusion

João Paulo de Freitas Grilo is a prominent researcher in materials science, specializing in ceramics and electrochemical applications. With a solid academic background, extensive research experience, and numerous high-impact publications, he has significantly contributed to advancements in solid oxide fuel cells and composite electrolytes. His work continues to influence the scientific community, paving the way for innovative materials in energy conversion and storage applications. His dedication and expertise make him a valuable asset in the field of materials engineering.

Benjamin Teo | Materials Science and Engineering | Best Researcher Award

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Dr. Benjamin Teo | Materials Science and Engineering | Best Researcher Award

UKRI Postdoctoral Fellow at Imperial College London, United Kingdom

Dr. Benjamin H. W. Teo is an accomplished researcher in the fields of adsorption science and engineering, metal-organic frameworks, renewable energy technology, additive manufacturing, polymer crystallization, and photovoltaic-thermal systems. With a strong academic background and extensive research experience, he has contributed significantly to the advancement of sustainable energy solutions and materials engineering. Currently serving as a UKRI Postdoctoral Fellow at Imperial College London, Dr. Teo continues to push the boundaries of scientific discovery and innovation in his field.

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orcid

Education

Dr. Teo obtained his Ph.D. in Mechanical Engineering from Nanyang Technological University (NTU), Singapore, where he focused on the modulation and green synthesis of metal-organic frameworks (MOFs) for enhanced water uptake and adsorption kinetics in cooling applications. Prior to this, he earned a Bachelor of Engineering in Mechanical Engineering from NTU with First Class Honours. He also holds a Diploma with Merit in Mechatronics from Temasek Polytechnic, Singapore. His educational journey includes participation in a student exchange program at San Diego State University, USA.

Experience

Dr. Teo’s professional journey has been marked by impactful roles in both academia and industry collaborations. Currently, as a UKRI Postdoctoral Fellow at Imperial College London, he is investigating the performance of solar cells integrated with sustainable technologies. He previously worked at NTU’s HP-NTU Digital Manufacturing Corporate Lab as a Research Fellow, where he studied polymer crystallization behavior in additive manufacturing processes. His earlier roles include working as a Project Officer in NTU’s School of Mechanical and Aerospace Engineering, focusing on MOFs for water adsorption and energy applications.

Research Interest

Dr. Teo’s research interests encompass a broad range of interdisciplinary fields, including adsorption science, metal-organic frameworks, renewable energy technology, additive manufacturing, polymer crystallization, and photovoltaic-thermal systems. His work aims to enhance material properties for applications in energy efficiency and sustainability, bridging the gap between theoretical simulations and practical implementations.

Awards

Dr. Teo has received numerous accolades for his contributions to research and academia. Notable awards include the Seal of Excellence from the MSCA Fellowship Call 2020 by the European Commission, an Honorable Mention at the Virtual Poster Workshop (HP-NTU Corporate Lab), and the Best Paper Award at the 4th International Symposium on Innovative Materials for Processes in Energy Systems. Additionally, he was recognized with the Best Teaching Assistant Award at NTU and was featured on the Dean’s List and Director’s List during his academic tenure.

Selected Publications

Teo, H. W. B., Ng, M. S., Xenon storage density and its energy flow through adsorption on metal-organic frameworks, Journal of Industrial and Engineering Chemistry, 2024. (Citation: 2, Impact Factor: 6.1)

Le, K. Q., Tran, V. T., Chen, K., Teo, H. W. B., Predicting crystallinity of polyamide 12 in multi-jet fusion process, Journal of Manufacturing Processes, 2023. (Citation: 2, Impact Factor: 5.684)

Teo, H. W. B., Chen, K., Tran, V. T., Non-isothermal crystallization behavior of polyamide 12 analogous to multi-jet fusion additive manufacturing, Polymer, 2021. (Citation: 14, Impact Factor: 4.43)

Teo, H. W. B., Chakraborty, A., Aluminium fumarate MOF for water adsorption: Cooling/heat pump applications, Microporous and Mesoporous Materials, 2018. (Citation: 59, Impact Factor: 5.455)

Teo, H. W. B., Chakraborty, A., Experimental study of isotherms and kinetics for adsorption of water on Aluminium Fumarate, International Journal of Heat and Mass Transfer, 2017. (Citation: 107, Impact Factor: 5.584)

Teo, H. W. B., Chakraborty, A., Water adsorption on CHA and AFI Types Zeolites, Applied Thermal Engineering, 2017. (Citation: 60, Impact Factor: 5.295)

Teo, H. W. B., Chakraborty, A., Improved adsorption characteristics data for AQSOA types zeolites and water systems, Microporous and Mesoporous Materials, 2017. (Citation: 133, Impact Factor: 5.455)

Conclusion

Given his extensive research contributions, innovation, mentorship, and global recognition, Dr. Benjamin H. W. Teo is a highly suitable candidate for the “Best Researcher Award.” His work continues to push boundaries in material science and sustainable energy applications, making a lasting impact on both academia and industry.

Xuemei Wei | Materials Science and Engineering | Best Paper Award

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Dr Xuemei Wei | Materials Science and Engineering | Best Paper Award







Assistant Researcher, Shaoxing University, China


Dr. Xuemei Wei is an accomplished researcher specializing in metal-organic chemistry and catalysis. She holds a Ph.D. in Physical Chemistry from the Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences. Her expertise lies in the development of nano-catalytic materials for environmental and energy applications. With over 12 SCI publications in high-impact journals, she has made significant contributions to catalyst design and chemical transformations. Currently, she serves as an Assistant Researcher at Shaoxing University, where she advances research in pharmaceutical and chemical sciences. Her work integrates innovative nanomaterials to address environmental challenges and sustainable energy solutions.


PROFESSIONAL PROFILE


Scopus


EDUCATION


🎓 Ph.D. in Physical Chemistry – Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences (2018-2021)
📝 Thesis: Design and Mechanism of Efficient Carbonylation Catalysts under Ambient Conditions.
🎓 M.Sc. in Inorganic Chemistry – Inner Mongolia University (2013-2016)
🎓 B.Sc. in Chemistry – Jilin Normal University (2009-2013)


PROFESSIONAL EXPERIENCE


🔬 Assistant Researcher – Shaoxing University, College of Chemistry and Chemical Engineering (2021-Present)
🔍 Focus: Development of nano-catalytic materials for industrial and environmental applications.
🧪 R&D Specialist – Changchun Zhongke Haorong New Materials Research Co., Ltd. (2016-2018)
🚀 Developed and optimized catalytic materials for large-scale industrial use.


AWARDS & HONORS


🏆 Recognized for research contributions in metal-organic chemistry.
📜 Multiple SCI-indexed publications in top-tier journals.
🌍 Acknowledged for innovative approaches in environmental catalysis.


RESEARCH FOCUS


🧪 Catalysis Under Ambient Conditions: Development of carbonylation catalysts for industrial applications.
🌱 Environmental Nanomaterials: Engineering nanomaterials for pollutant degradation and remediation.
Sustainable Energy Catalysis: Exploring hydrodeoxygenation reactions for green chemistry solutions.


PUBLICATION TOP NOTES


📄 Turning on Ambient Conditions Hydrodeoxygenation of Biobased Aromatic Alcohols – Energy Conversion and Management (2025)
📄 Construction of MXene-loaded Nanoscale Zero-Valent Iron for ReO4-/TcO4- Sequestration – Separation and Purification Technology (2024)
📄 Deciphering the Facet-Dependent Scavenging Potential of α-Fe2O3 Nanocrystals – Applied Surface Science (2024)
📄 Crucial Size Effect on Dicarbonylation of Acetylene Over Pd/CsHPMo Catalysts – Dalton Transactions (2024)
📄 Targeting Phosphodiesterase 4 as a Therapeutic Strategy for Cognitive Improvement – Bioorganic Chemistry (2023)
📄 Vesicular BiVO4 Nanostructures Modified by g-C3N4 Quantum Dots – Materials Science in Semiconductor Processing (2024)
📄 Synergistic Effect of Hematite Facet and Pd Nanocluster for Acetylene Dicarbonylation – Molecular Catalysis (2021)
📄 Strong Metal-Support Interactions Between Palladium Nanoclusters and Hematite – New Journal of Chemistry (2020)
📄 Highly Efficient Selective Dicarbonylation of Acetylene Catalyzed by Palladium Nanosheets – New Journal of Chemistry (2020)
📄 Catalyst in Acetylene Carbonylation: From Homogeneous to Heterogeneous – Progress in Chemistry (2020)
📄 Advances in Research on Structure-Activity Relationship in Hydrogenation Catalysts – Chemical Industry and Engineering Progress (2020)
📄 Support Morphology-Dependent Catalytic Activity of Co/CeO2 for Phenol Hydrogenation – New Journal of Chemistry (2020)


CONCLUSION


Dr. Xuemei Wei is a leading researcher in catalysis and nanomaterials, making significant strides in environmental and sustainable chemistry. Her contributions to metal-organic chemistry and catalytic performance have earned her recognition in top scientific journals. As an Assistant Researcher at Shaoxing University, she continues to develop innovative solutions for industrial and environmental challenges. 🚀🔬





	


	

	






	
	

		


Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award
			

				Published on  by Civil			

		
	


	

		
Dr Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award


Chief researcher, Vilnius Gediminas Technical University, Lithuania


Jurgita Malaiškienė is a distinguished researcher affiliated with Vilnius Gediminas Technical University in Lithuania. With a robust academic background, she specializes in materials science, focusing on the innovative use of industrial waste in construction. Her work aims to enhance the sustainability of building materials and improve the durability of concrete. An advocate for environmental stewardship, Jurgita actively engages in projects that promote recycling and the utilization of by-products in civil engineering. Her research has garnered significant attention, leading to numerous publications and collaborations with experts in the field.


Profile


ORCID


SCOPUS


Strengths for the Award


Jurgita Malaiškienė exemplifies excellence in the field of materials science, with a strong focus on sustainability in construction. Her impressive h-index of 11 and 490 citations reflect the significant impact of her research, particularly in utilizing industrial waste to enhance concrete durability. Her recent publications, including studies on the influence of silica fly ash and electronic waste glass, demonstrate her innovative approach and commitment to addressing environmental challenges. Jurgita’s active engagement in collaborative projects further strengthens her profile, as she effectively bridges academia and industry. Additionally, her contributions to open-access research promote knowledge sharing and accessibility in the scientific community.


Areas for Improvement


While Jurgita has a solid foundation in publication and citation metrics, expanding her presence in international conferences and workshops could enhance her visibility and influence. Increasing the diversity of her research topics, such as exploring new materials or technologies, could also broaden her impact. Additionally, establishing mentorship programs for emerging researchers would enrich her contributions to the academic community and foster the next generation of scientists.


Education


Jurgita Malaiškienė earned her Master’s degree in Civil Engineering from Vilnius Gediminas Technical University, where she developed a keen interest in material properties and sustainable construction practices. She subsequently pursued a Ph.D. in Construction Materials, focusing on the durability and performance of concrete incorporating industrial by-products. Her education emphasized both theoretical and practical aspects of civil engineering, equipping her with the knowledge to address contemporary challenges in the field. Through her academic journey, she has gained a comprehensive understanding of material science and engineering principles, which she applies in her research to innovate and improve construction methodologies.


Experience


Jurgita Malaiškienė has extensive experience in both academic and research settings. Currently, she is a researcher and lecturer at Vilnius Gediminas Technical University, where she teaches courses on construction materials and sustainability. Over the years, she has participated in various national and international research projects aimed at developing eco-friendly construction solutions. Her role often involves collaboration with industry stakeholders, contributing to applied research that bridges the gap between academia and practice. Jurgita has also served on several committees focused on advancing civil engineering education and research in Lithuania. Her dedication to mentorship and guidance has helped shape the next generation of engineers.


Awards and Honors 


Jurgita Malaiškienė’s contributions to the field of civil engineering have been recognized through various awards and honors. She received the Young Researcher Award from the Lithuanian Academy of Sciences for her innovative work on sustainable materials. Additionally, her research projects have been funded by national grants aimed at promoting environmental sustainability in construction. Jurgita has been invited to present her findings at numerous international conferences, where she has received accolades for her insightful contributions to discussions on recycling and waste management in civil engineering. Her commitment to excellence in research and education continues to inspire her peers and students alike.


Research Focus


Jurgita Malaiškienė’s research primarily focuses on the utilization of industrial waste materials in construction, particularly in the context of concrete durability and sustainability. She explores the effects of various by-products, such as fly ash, slag, and recycled glass, on the mechanical properties and longevity of cementitious materials. Her work aims to innovate recycling methods that enhance the performance of construction materials while minimizing environmental impact. Jurgita also investigates the microstructural changes that occur when integrating waste materials into concrete mixtures, aiming to develop more resilient and eco-friendly building solutions. Through her research, she contributes significantly to advancing sustainable practices within the civil engineering sector.


Publication Top Notes


    

  • The Influence of Silica Fly Ash and Wood Bottom Ash on Cement Hydration and Durability of Concrete 🌿
    • 

  • Possibilities to Recycle Thermal Power Plant By-Products in Refractory Castables ♻️
    • 

  • Impact of Electronic Waste Glass on the Properties of Cementitious Materials 💻
    • 

  • Lightweight composite materials made of paper sludge and corn starch 📄
    • 

  • A Study on the Microstructure and Mechanical Properties of Portland Cement Incorporating Aluminosilicate Waste 🔍
    • 

  • Influence of Industrial Waste Pozzolanic Additives on the Structure and Properties of Expanded Glass Granules Cement-Based Composite 🏗️
    • 

  • The Metakaolin Waste Effect on the Physical and Mechanical Properties of High-Performance Concrete ⚙️
    • 

  • Effect of Low Oxidation Graphene Oxide on Physical and Mechanical Properties of MCC Type Refractory Castable 🧪
    • 

  • Analysis of the Structure and Durability of Refractory Castables Impregnated with Sodium Silicate Glass 🧱
    • 

  • Bio-colonization layered concrete panel for greening vertical surfaces: A field study 🌱
    • 



Conclusion


Jurgita Malaiškienė is a deserving candidate for the Best Researcher Award. Her pioneering work in sustainable construction materials, coupled with her robust publication record and collaborative spirit, positions her as a leader in her field. By addressing areas for improvement, such as enhancing her international presence and mentoring, she can continue to advance her research and contribute significantly to the global scientific community. Recognizing her achievements through this award would not only honor her contributions but also inspire others in the field.