Pin-Yi Zhao | Energy Storage Materials | Editorial Board Member

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Dr. Pin-Yi Zhao | Energy Storage Materials | Editorial Board Member

Researcher | University College London | United Kingdom

Dr Yi Zhao is a highly accomplished clinician–scientist at Imperial College London whose expertise lies at the intersection of surgery and artificial intelligence. With an undergraduate medical degree (MBBS) from Imperial College and further specialization in surgical design, Dr Zhao combines rigorous clinical training with a passion for technology. In professional practice, he works within the NHS and collaborates on research in ultrasound-guided regional anaesthesia, contributing to multidisciplinary projects and consensus-building initiatives. His research focuses on leveraging machine learning and AI to enhance diagnostic accuracy and workflow in surgical and imaging domains, as evidenced by numerous systematic reviews, meta-analyses, and clinical-implementation studies. Dr Zhao has made significant scholarly contributions—including peer-reviewed publications evaluating AI performance in urology, obstetrics and gynaecology, and musculoskeletal imaging—and his work has helped define reporting frameworks for AI in medicine. He is recognized within his community for methodological leadership, participating as an author on international consensus guidelines and as a reviewer for high-impact journals. His professional standing is further underpinned by active membership of clinical and academic societies, certification in both medical practice and AI evaluation, and consistent peer recognition for his role in promoting responsible, evidence-based deployment of surgical AI technologies.

Profiles: Google Scholar

Featured Publications

1. Zhao, Y., Simpson, B. S., Morka, N., Freeman, A., Kirkham, A., Kelly, D., … Ahmed, H. U. (2022). Comparison of multiparametric magnetic resonance imaging with prostate-specific membrane antigen positron-emission tomography imaging in primary prostate cancer diagnosis: A … Cancers, 14(14), 3497.

2. Zhao, Y., Coppola, A., Karamchandani, U., Amiras, D., & Gupte, C. M. (2024). Artificial intelligence applied to magnetic resonance imaging reliably detects the presence, but not the location, of meniscus tears: A systematic review and meta-analysis. European Radiology, 34(9), 5954–5964.

3. Thomas, M., Murali, S., Simpson, B. S., Freeman, A., Kirkham, A., Kelly, D., … Zhao, Y. (2023). Use of artificial intelligence in the detection of primary prostate cancer in multiparametric MRI with its clinical outcomes: A protocol for a systematic review and meta-analysis. BMJ Open, 13(8), e074009.

4. Gao, Y., Zhao, Y., Choi, S., Chaurasia, A., Ding, H., Haroon, A., … Wan, S. (2022). Evaluating different quantitative shear wave parameters of ultrasound elastography in the diagnosis of lymph node malignancies: A systematic review and meta-analysis. Cancers, 14(22), 5568.

5. Zhao, Y., Nozdrin, M., Dalla Pria, A., & Bracchi, M. (2021). Nannizziopsis immune reconstitution inflammatory syndrome in a patient with HIV: First reported case. European Journal of Case Reports in Internal Medicine, 8(11), 003021.

Dr. Yi Zhao’s work at the intersection of surgery and artificial intelligence advances precision diagnostics and promotes safer, more effective clinical decision-making. His research contributes to the development of trustworthy, evidence-based AI tools that enhance healthcare delivery and support global innovation in medical imaging and surgical technology.

Miguel Campos Jurado | Materials Science | Best Researcher Award

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Prof. Miguel Campos Jurado | Materials Science | Best Researcher Award

PhD Candidate at University of Córdoba, Spain

Prof. Miguel Campos Jurado is a Mechanical Engineer and PhD candidate whose career reflects a strong balance of industrial innovation, academic research, and teaching excellence. With extensive experience in the design and development of HVAC systems for residential, industrial, and automotive applications, he has consistently translated engineering knowledge into practical, impactful solutions. His current research focuses on hybrid polymer–metal composites, additive manufacturing, and advanced materials, areas with significant potential for innovation in mechanical engineering. Alongside his research, he serves as a vocational teacher, where he integrates theoretical and practical learning, mentors students, and fosters the next generation of engineers. His career highlights creativity, problem-solving, and interdisciplinary collaboration, demonstrating his ability to bridge industry and academia. Passionate about lifelong learning and teamwork, Prof. Campos Jurado exemplifies the qualities of a researcher dedicated not only to advancing knowledge but also to shaping education and contributing to sustainable engineering practices.

Professional Profile 

ORCID Profile 

Education

Prof. Miguel Campos Jurado has pursued a strong academic foundation in engineering, complemented by continuous professional growth. He is currently undertaking his PhD in Mechanical Engineering at the University of Córdoba, focusing on hybrid polymer–metal composites, additive manufacturing, and interfacial adhesion. His doctoral work integrates advanced materials science with mechanical testing and statistical analysis to develop innovative engineering solutions. Alongside his doctoral studies, he has completed a Bachelor’s Degree in Mechanical Engineering, reinforcing his technical knowledge in design, manufacturing, and materials. His education demonstrates a consistent focus on bridging theoretical research with practical engineering applications. Through specialized training in experimental design, surface engineering, and mechanical characterization, he has gained comprehensive expertise that strengthens both his research and teaching. His academic journey reflects not only intellectual rigor but also a commitment to continuous learning, innovation, and applying scientific research to real-world engineering challenges.

Experience

Prof. Campos Jurado’s professional experience reflects a rich combination of industrial practice and academic involvement. He has held significant roles in the design, development, and management of HVAC systems across leading companies, where he contributed to advanced projects in energy efficiency, climate control systems, and sustainable mobility. His responsibilities included product innovation, prototype validation, and coordination with multidisciplinary teams, ensuring high technical standards and compliance with industry requirements. Beyond his industrial expertise, he serves as a vocational teacher, where he designs curricula, teaches HVAC systems, refrigeration, hydraulics, and energy efficiency, and guides students in project-based learning. His role in aligning education with labor market needs demonstrates a strong ability to merge professional practice with teaching excellence. Through his career, he has successfully combined innovation, leadership, and knowledge transfer, making his experience a cornerstone in his growth as both a researcher and educator.

Research Focus

Prof. Campos Jurado’s research focuses on advancing mechanical engineering through hybrid polymer–metal composites, additive manufacturing, and surface engineering. His doctoral work investigates interfacial adhesion between polymers and metals, aiming to develop high-performance materials with applications in energy, transportation, and manufacturing industries. He explores advanced processes such as fused filament fabrication, mechanical testing, and material characterization using SEM and profilometry to evaluate structural performance. His research also integrates statistical methods like ANOVA and experimental design to ensure rigorous analysis and reproducibility. By combining industrial insight with academic inquiry, his work emphasizes practical applications that can lead to sustainable innovations. His interest in advanced materials and manufacturing reflects not only a drive for technological advancement but also a commitment to addressing global challenges in energy efficiency, resource optimization, and engineering sustainability. His research trajectory positions him as a promising contributor to cutting-edge developments in mechanical and materials engineering.

Award and Honor

While Prof. Campos Jurado’s profile primarily highlights his education, teaching, and research contributions, his career itself reflects the qualities worthy of recognition through awards and honors. His work in industrial innovation has contributed to major product developments in HVAC systems, including modular architectures and energy-efficient solutions for sustainable transport and large-scale infrastructure. As a teacher, he has been entrusted with responsibilities such as evaluating professional competences and guiding students, highlighting the trust placed in him by educational authorities and institutions. His ongoing research at the doctoral level demonstrates a commitment to scientific excellence that is often recognized in academic and industrial forums. Though specific awards are not detailed in his profile, his blend of industrial achievements, research innovation, and dedication to teaching positions him as a strong candidate for academic and professional honors, particularly in areas of engineering research, education, and applied technological development.

Publication Top Notes

  • Title: Manufacturing of Polymer–Metal Composite by Fused Filament Fabrication: Adhesion of PLA and PETG on Aluminum
    Authors: Miguel Campos-Jurado; Óscar Rodríguez-Alabanda; Guillermo Guerrero-Vacas
    Year: 2025

  • Title: DE LA DESMOTIVACIÓN A LA EXCELENCIA: TALLER LEAN EN FP
    Authors: Miguel Campos
    Year: 2025

  • Title: SESGOS COGNITIVOS EN IA: REGULACIÓN Y RIESGOS EN LA EDUCACIÓN
    Authors: Miguel Campos
    Year: 2025

Conclusion

Prof. Miguel Campos-Jurado demonstrates a strong balance of industrial expertise, academic research, and teaching excellence. His publications highlight both technical innovation in polymer–metal composites and a broader engagement with educational methodologies and the ethical dimensions of technology. This blend of engineering research and educational insight reflects his versatility and commitment to advancing knowledge across multiple domains. While citation counts are not yet available for these recent works, the diversity of topics and reputable publication outlets indicate growing scholarly impact. Overall, his profile shows clear potential for continued contributions in mechanical engineering research, education, and interdisciplinary collaboration, positioning him as a promising candidate for recognition through research awards and academic honors.

Blasius Ngayakamo | Materials Science | Best Researcher Award

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Dr. Blasius Ngayakamo | Materials Science | Best Researcher Award

Lecturer at Dar es Salaam Institute of Technology, Tanzania

Dr. Blasius Henry Ngayakamo is a dedicated researcher and educator specializing in sustainable construction materials, waste valorization, and climate resilience in engineering. With a PhD in Materials Science and Engineering, his work focuses on developing eco-friendly solutions like geopolymer earthen blocks and green concrete to address global sustainability challenges. Dr. Ngayakamo is also committed to advancing STEM education by creating hands-on learning tools for students, emphasizing real-world applications in sustainable engineering. His academic journey spans multiple institutions worldwide, including roles at California Polytechnic State University, the African University of Science and Technology, and the Fraunhofer Institute for Ceramic Technologies. His research has led to impactful publications on sustainable materials and waste utilization, and he actively mentors students and junior researchers. As a passionate advocate for interdisciplinary collaboration, Dr. Ngayakamo bridges academic research with industry applications to drive solutions for a sustainable, climate-resilient future.

Professional Profile 

Scopus Profile

Education

Dr. Blasius Henry Ngayakamo holds an extensive academic background, starting with a Bachelor of Education in Science (Chemistry and Biology) from St. Augustine University of Tanzania. He went on to earn a Master’s in Materials Science and Engineering from the Nelson Mandela African Institution of Science and Technology, Tanzania. He later completed a PhD in Materials Science and Engineering at the African University of Science and Technology, Nigeria, followed by a Postdoctoral Fellowship in Materials Engineering at California Polytechnic State University, USA. This robust academic foundation has equipped him with a diverse set of skills and knowledge, enabling him to tackle complex challenges in sustainable construction and materials science.

Professional Experience

Dr. Ngayakamo’s professional journey spans several prestigious institutions. He currently serves as a Lecturer and Researcher at the Dar es Salaam Institute of Technology, Tanzania. His previous roles include postdoctoral fellowships and teaching positions at California Polytechnic State University, the African University of Science and Technology, and international research stints in Germany and Malaysia. Throughout his career, he has worked on pioneering interdisciplinary research projects focusing on sustainable construction materials and their integration into education. His experience also includes mentoring students and collaborating with industry partners to develop real-world, scalable solutions for sustainability in engineering.

Research Interest

Dr. Ngayakamo’s research interests are centered on sustainable construction materials, waste valorization, and climate resilience in engineering. His work focuses on developing eco-friendly solutions, such as geopolymer earthen blocks and green concrete, with a particular emphasis on integrating these technologies into educational tools. He is committed to addressing global sustainability challenges by developing innovative materials that contribute to low-carbon construction practices. Dr. Ngayakamo’s research also explores the intersection of interdisciplinary STEM education, promoting hands-on learning and practical solutions to sustainability issues in the built environment. His work fosters collaboration between academia, industry, and communities to achieve impactful results in sustainable infrastructure.

Award and Honor

Dr. Ngayakamo has received several academic and professional recognitions for his groundbreaking work in materials science and sustainable construction. As a member of the African Materials Research Society and the Society for Geology Applied to Mineral Deposits, he is recognized within global scientific communities. His research contributions, particularly in waste valorization and eco-friendly materials, have garnered attention through published articles in leading scientific journals. His work has been acknowledged for its practical applications in addressing pressing global sustainability challenges, especially in the construction industry. His ongoing involvement in international research projects further highlights his reputation as a dedicated scholar in the field.

Conclusion

Dr. Blasius Ngayakamo is an exemplary researcher and educator whose work at the intersection of sustainable construction, waste valorization, and interdisciplinary STEM education makes him a leader in the field of materials science. With a rich academic background, extensive professional experience, and a passion for fostering the next generation of engineers, Dr. Ngayakamo’s contributions have far-reaching impacts on both education and industry. His innovative approach to eco-friendly construction materials and his commitment to addressing climate resilience through practical, scalable solutions make him a standout figure in the global effort for sustainability. His ongoing research, mentorship, and collaborations continue to shape the future of sustainable engineering and education.

Publications Top Notes

  • Title: Investigation of plastic-sand paving blocks: A sustainable solution using recycled plastic waste

  • Authors: B.H. Ngayakamo, Blasius Henry

  • Year: 2025

  • Citation: Ngayakamo, B.H. (2025). Investigation of plastic-sand paving blocks: A sustainable solution using recycled plastic waste. Hybrid Advances, 2025.

Yuriy Chumlyakov | Materials Science | Best Researcher Award

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Prof. Yuriy Chumlyakov | Materials Science | Best Researcher Award

head of laboratory at Tomsk State University, Russia

Yuriy Ivanovich Chumlyakov is a prominent Russian scientist renowned for his groundbreaking contributions to materials science and solid-state physics. Currently, he is the head of the Laboratory of Physics of Strength and Plasticity at the Siberian Physical-Technical Institute, Tomsk State University, and also a professor at Tomsk State University. Over his distinguished career, Chumlyakov has gained international recognition for his pioneering research on high-strength single crystals, including studies on mechanical twinning, thermoelastic martensitic transformations, and shape memory alloys. His work has not only enriched theoretical physics but also influenced practical applications in material engineering, particularly in areas like superelasticity and plastic deformation. Throughout his career, he has collaborated with leading research institutions globally and played a key role in advancing the scientific understanding of materials’ behavior under stress and transformation. His academic and professional pursuits have made him a leading figure in his field, contributing extensively to both research and teaching.

Professional Profile

Education

Yuriy Chumlyakov’s academic journey is marked by an unwavering commitment to advancing knowledge in solid-state physics. He completed his undergraduate degree at Tomsk State University, where he earned a diploma in physics in 1970. Building upon this foundation, he pursued graduate studies at the same institution, earning his Ph.D. in solid-state physics in 1980. His expertise in the field was further solidified when he obtained the prestigious Doctor of Science degree in 1989 from the Institute of Strength Physics and Materials Science, Russian Academy of Sciences, Tomsk. Chumlyakov’s education provided him with the deep theoretical understanding and practical research skills necessary for his long-term contributions to the study of material properties, including those related to crystal structures, plasticity, and shape memory alloys. His academic background has played an essential role in shaping his successful career as a researcher and educator, allowing him to mentor future generations of scientists.

Professional Experience

Yuriy Ivanovich Chumlyakov’s professional career spans several decades, with significant contributions to both academic research and the advancement of materials science. Since 1989, he has served as the head of the Laboratory of Physics of Strength and Plasticity at the Siberian Physical-Technical Institute, where he has overseen numerous research projects focused on the behavior of high-strength single crystals under various stress conditions. Additionally, since 1993, Chumlyakov has been a professor at Tomsk State University, educating students in solid-state physics and materials science. His career also includes a long tenure as a senior research worker at the same institute, where he initially gained prominence. Throughout his career, Chumlyakov has been involved in numerous international collaborations, contributing to the global scientific community. His leadership and extensive experience in experimental and theoretical physics have positioned him as a key figure in the study of materials’ mechanical properties and transformations.

Research Interests

Yuriy Chumlyakov’s research interests lie at the intersection of solid-state physics, materials science, and applied physics. His primary focus is on the behavior of single crystals, particularly in the context of mechanical twinning, plastic deformation, and fracture mechanisms. He has extensively studied thermoelastic martensitic transformations in homogeneous and non-homogeneous crystals, including materials like NiTi, FeNiCoAl, and TiNiFe. Chumlyakov’s work on shape memory alloys and superelasticity has contributed to advancing the understanding of materials that undergo reversible transformations when subjected to external stimuli, such as temperature or stress. His expertise also extends to the dislocation structures in crystals and the plastic deformation of single crystals, which are vital for applications in aerospace, automotive, and medical fields. The practical implications of his work are vast, especially in the development of advanced materials for engineering solutions, including applications in structural health monitoring and high-performance materials.

Awards and Honors

Yuriy Ivanovich Chumlyakov’s exemplary contributions to materials science have earned him numerous prestigious awards and honors over the years. He has been a recipient of multiple grants from the Russian Foundation for Basic Research and the Russian Ministry of Education, underscoring the significance of his research in advancing the field. Chumlyakov’s work has been widely recognized internationally, with honors including a fellowship from the Japan Society for the Promotion of Science (JSPS) and the prestigious George Miller Professorship at the University of Illinois. He has served on the editorial boards of leading journals such as the Journal of Physics of Metals and Metallography and as a guest editor for special issues on shape memory alloys in the ASME Journal of Engineering and Technology. Furthermore, his contributions to the scientific community have been acknowledged through his appointment as a permanent jury member of PhD and Doctor of Science councils at Tomsk State University. These honors reflect his standing as a leading researcher in his field.

Conclusion

Yuriy Ivanovich Chumlyakov is a highly deserving candidate for the Best Researcher Award. His long history of groundbreaking research, leadership in academia, global recognition, and extensive contributions to the fields of solid-state physics and materials science make him a standout figure in his discipline. His work on shape memory alloys and thermomechanical transformations is crucial in advancing both theoretical and practical aspects of materials science, particularly for engineering applications. Expanding his outreach and engaging with newer interdisciplinary fields would only further enhance the impact of his already impressive career.

Publications Top Noted

  • High-temperature thermoelastic martensitic transformations in Ni44Fe19Ga27Co10 single crystals
    • Authors: Timofeeva, E.E., Panchenko, E.Y., Zherdeva, M.V., Volochaev, M.N., Chumlyakov, Y.I.
    • Year: 2025
    • Journal: Materials Letters
    • Citations: 0
  • Effect of carbon on the shape memory effect of [1¯44]−Oriented Cr20Fe20Mn20Co35Ni4.9C0.1 high-entropy alloy single crystals under tension
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Pobedennaya, Z.V., Vyrodova, A.V.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0
  • Cyclic stability of the elastocaloric effect in heterophase [001]-oriented TiNi single crystals
    • Authors: Surikov, N.Y., Panchenko, E., Chumlyakov, Y.I., Marchenko, E.
    • Year: 2024
    • Journal: Applied Physics Letters
    • Citations: 0
  • Influence of the number of particle variants on the cyclic stability of superelasticity in Ti-51.5at.%Ni single crystals
    • Authors: Timofeeva, E.E., Zherdeva, M.V., Tagiltsev, A.I., Panchenko, E.Y., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 1
  • Thermal and Cyclic Stability of Two-Way Shape Memory Effect in Ni44Fe19Ga27Co10 Single Crystals
    • Authors: Timofeeva, E.E., Dmitrienko, M.S., Panchenko, E.Y., Fatkullin, I.D., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Russian Physics Journal
    • Citations: 0
  • Microstructure and Thermoelastic Martensitic Transformation in Ni-Low and -Rich Ni–Ti–Hf–Nb High-temperature Shape Memory Alloys
    • Authors: Eftifeeva, A.S., Timofeeva, E.E., Panchenko, E.Y., Yanushonyte, E.I., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Russian Physics Journal
    • Citations: 0
  • Orientation Dependence of Cyclic Stability of Superelasticity of Ti50.2Ni49.8 Alloy Single Crystals under Compression
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Vyrodova, A.V., Pobedennaya, Z.V., Marchenko, E.S.
    • Year: 2024
    • Journal: Physics of Metals and Metallography
    • Citations: 0
  • Influence of Heat Treatments on Martensitic Transformations and Elastocaloric Effect in Two-Phase (β + γ) NiFeGa Alloys
    • Authors: Kurlevskaya, I.D., Panchenko, E.Y., Tokhmetova, A.B., Timofeeva, E.E., Chumlyakov, Y.I.
    • Year: 2024
    • Journal: Physical Mesomechanics
    • Citations: 1
  • Superelasticity of [0 0 1]-oriented Fe–Mn–Al–Cr–Ni crystals with a negative temperature dependence of transformation stresses
    • Authors: Chumlyakov, Y.I., Kireeva, I.V., Pobedennaya, Z.V., Kuksgauzen, I.V., Kuksgauzen, D.A.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0
  • Formation of texture and twinning at 296 K of “Artificial” polycrystals of an equiatomic Co20Cr20Fe20Ni20Mn20 High-entropy alloy
    • Authors: Kireeva, I.V., Chumlyakov, Y.I., Kuksgauzen, I.V., Kuksgauzen, D.A.
    • Year: 2024
    • Journal: Materials Letters
    • Citations: 0

 

Nicoleta Mirela Marin | Materials Science | Best Researcher Award

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Dr Nicoleta Mirela Marin | Materials Science | Best Researcher Award

Dr Nicoleta Mirela Marin , National University of Science and Technology , China

Nicoleta Mirela Marin is an accomplished chemist specializing in analytical chemistry and environmental quality control. With a PhD from the University of Bucharest, her research focuses on innovative ion exchange methods and spectrometric techniques for assessing environmental pollutants. A dedicated researcher, she has contributed significantly to the field through numerous publications and conference presentations. Currently, she serves as a Scientific Researcher at the National Research and Development Institute for Industrial Ecology-ECOIND and as a Postdoctoral Research Scientist at the University Politehnica of Bucharest. Nicoleta is known for her leadership in national research projects and her commitment to disseminating scientific knowledge through peer-reviewed journals. Her interdisciplinary approach combines fundamental research with practical applications, making her a key figure in advancing environmental analytical methodologies.

Publication Profile

Orcid

Strengths for the Award

  1. Extensive Academic Background:
    • Nicoleta has a strong educational foundation with a Bachelor’s degree, a Master’s, and a PhD from the University of Bucharest, focusing on Analytical Chemistry.
    • Her doctoral research led to the publication of three ISI scientific articles and presentations at numerous national and international conferences.
  2. Proven Research Contributions:
    • She has published a total of 16 ISI articles, with 12 as the main author, including several in high-impact journals (Q1 and Q2).
    • Her H-index of 9 on Scopus and 8 on Web of Science, along with 181 total citations on Scopus and 92 on Web of Science, reflects her impactful research in environmental quality control and analytical methods.
  3. Innovative Research Focus:
    • Her research addresses critical environmental issues, particularly the speciation of hazardous metals and the development of analytical methods for environmental monitoring.
    • The focus on eco-friendly chelating resins and natural materials for pollutant removal showcases her commitment to sustainable practices.
  4. Leadership and Collaboration:
    • Nicoleta has led national research projects and collaborated on numerous others, demonstrating strong organizational and project management skills.
    • Her participation in interlaboratory comparison programs and active role in research teams highlight her collaborative spirit.
  5. Peer Review and Editorial Roles:
    • As a guest editor for a special issue in a Q1 journal and a peer reviewer for multiple high-ranking journals, she contributes to the scientific community by ensuring the quality of published research.

Areas for Improvement

  1. Broader Outreach:
    • While her publication record is strong, expanding her outreach efforts, such as public engagement or community education regarding environmental issues, could enhance her impact.
  2. Diversity in Research Topics:
    • Exploring interdisciplinary approaches or collaborations with researchers from other fields could lead to innovative solutions and broaden her research scope.
  3. Enhanced Visibility:
    • Increasing participation in public seminars or workshops could raise her profile within the community and foster more partnerships and collaborations.

Education 

Nicoleta Mirela Marin obtained her Bachelor’s degree in Analytical Chemistry from the University of Bucharest in 2006. She continued her academic journey by completing a Master’s degree in the same field between 2006 and 2008. In October 2011, she embarked on her doctoral studies at the University of Bucharest’s Faculty of Chemistry, under the mentorship of Professor Irinel Adriana Badea. Her doctoral research culminated in 2019 with the defense of her thesis titled “Classic and Non-Conventional Ion Exchangers with Applications in Environmental Quality Control Methods,” for which she received her PhD title. Throughout her academic career, Nicoleta has developed a strong foundation in analytical techniques and environmental studies, further enhanced by her ongoing postdoctoral research at the University Politehnica of Bucharest, supported by the European Social Fund.

Experience

Nicoleta Mirela Marin has extensive experience in research and development, currently serving as a Scientific Researcher at the National Research and Development Institute for Industrial Ecology-ECOIND in Bucharest. Her work focuses on assessing pollution levels through advanced analytical techniques such as AAS, ICP-EOS, ICP-MS, AFS, and UV-VIS spectrometry. Nicoleta has led multiple research projects aimed at developing and optimizing analytical methods for detecting inorganic pollutants in various environmental matrices, including water, soil, and waste. She has published 16 ISI-indexed articles, participated in numerous national and international conferences, and contributed to several national research projects as a leader and team member. Her role involves method validation, interlaboratory comparisons, and the dissemination of research findings, showcasing her strong analytical and project management skills in a collaborative research environment.

Research Focus 

Nicoleta Mirela Marin’s research primarily centers on analytical chemistry, particularly the development of innovative ion exchange methods for environmental quality control. Her work involves studying hazardous substances and assessing pollution levels through various spectrometric techniques. She has extensively researched the speciation of metals in soil and sediments, focusing on the determination of metals such as Na, K, Ca, Mg, and heavy metals like Cd, Pb, and Hg in environmental samples. Nicoleta’s publications highlight her contributions to the development and optimization of analytical methods for monitoring inorganic pollutants in drinking water, wastewater, and soil. She is also interested in eco-friendly materials for water treatment and the application of natural polymers for pollutant removal. Her interdisciplinary approach integrates fundamental research with practical applications, aiming to enhance environmental monitoring and remediation strategies.

Publications Top Notes

  1. A New Approach of Complexing Polymers Used for the Removal of Cu2+ Ions 🧪
  2. Preparation of Eco-Friendly Chelating Resins and Their Applications for Water Treatment 🌍
  3. New Chelate Resins Prepared with Direct Red 23 for Cd2+, Ni2+, Cu2+ and Pb2+ Removal 🌊
  4. Maize Stalk Obtained after Acid Treatment and Its Use for Simultaneous Removal of Cu2+, Pb2+, Ni2+, Cd2+, Cr3+ and Fe3+ 🌾
  5. Natural and Synthetic Polymers Modified with Acid Blue 113 for Removal of Cr3+, Zn2+ and Mn2+ 🧬
  6. Removal of procainamide and lidocaine on Amberlite XAD7HP resin and of As(V), Pb(II) and Cd(II) on the impregnated resin for water treatment 💧
  7. Maize stalk material for on-site treatment of highly polluted leachate and mine wastewater 🚰
  8. Application of Amberlite IRA 402 Resin Adsorption and Laccase Treatment for Acid Blue 113 Removal from Aqueous Media 🧴
  9. APPLICATION OF AMBERLITE XAD 2 RESIN FOR TEXTILE DYE REMOVAL 🧵
  10. Assessment of heavy metals contamination in groundwater sources from Ialomita County 🔍
  11. Water Quality Index, a Useful Tool for Evaluation of Danube River Raw Water 🚣
  12. Synergistic Methodology Based on Ion Exchange and Biodegradation Mechanisms Applied for Metal Complex Dye Removal from Waste Waters 🏞️

Conclusion

Nicoleta Mirela Marin exhibits a strong blend of academic prowess, impactful research, and leadership qualities that make her an outstanding candidate for the Best Researcher Award. Her dedication to addressing environmental challenges through innovative methods and her substantial contributions to the scientific community position her as a deserving recipient of this recognition. Encouraging her to expand her outreach and interdisciplinary collaborations could further amplify her impact and enhance her already impressive profile.