Rebaz Obaid kareem | Materials Science | Best Researcher Award

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Mr. Rebaz Obaid kareem | Materials Science | Best Researcher Award 

Assistant Lecture, at Halabja Univeristy, Iraq.

🌟 Rebaz Obaid Kareem is an esteemed researcher and academic in the field of physics, specializing in materials science and quantum chemistry. Born in Sulaymaniyah, Iraq, in 1993, he pursued his passion for scientific inquiry at Halabja University, where he earned his Bachelor’s degree in Physics. Currently serving as an Assistant Lecturer in the Physics Department at Halabja University, he is actively involved in advanced research encompassing computational physics, materials characterization, and spectroscopy. His expertise spans diverse analytical techniques, including SEM, XRD, FTIR, and Raman spectroscopy, alongside proficiency in programming languages such as MATLAB and Java. Rebaz has made significant contributions to scientific literature, authoring multiple high-impact journal articles. With a strong foundation in both experimental and theoretical physics, he continues to advance research in biomaterials, nanotechnology, and density functional theory, shaping the future of materials science.

Professional Profile

Scopus

ORCID

Education 🎓

Rebaz Obaid Kareem embarked on his academic journey in physics at Halabja University, Iraq, where he obtained his Bachelor’s degree from the College of Science in 2018. Prior to university, he completed his high school education at Peshkawtn High School in Takya, Chamchamal, Sulaymaniyah. His academic training provided him with a strong theoretical and practical understanding of physics, laying the groundwork for his specialization in materials science. Throughout his studies, he developed expertise in computational simulations, spectroscopy techniques, and quantum chemistry applications. His passion for research has driven him to pursue cutting-edge studies in advanced materials and their practical applications. His proficiency in programming and data analysis further enhances his ability to conduct innovative research in physics.

Experience 💼

Rebaz Obaid Kareem has amassed extensive teaching and research experience in the field of physics. From 2019 to 2021, he worked as a physics teacher at Chwarchra High School in Takya, Chamchamal. Since 2018, he has been serving as an Assistant Lecturer at Halabja University, where he mentors students in physics and conducts research in materials science and quantum chemistry. His hands-on experience with analytical techniques such as SEM, XRD, and FTIR, combined with his programming skills in MATLAB and Java, allows him to lead interdisciplinary research projects. His work contributes to advancements in biomaterials, nanotechnology, and computational physics. His commitment to academia is reflected in his numerous publications and ongoing research collaborations.

Research Interests 🌐

Rebaz Obaid Kareem’s research interests lie at the intersection of materials science, quantum chemistry, and computational physics. He is particularly focused on the structural and electronic properties of biomaterials, hydroxyapatite-based compounds, and semiconductor materials. His expertise in density functional theory (DFT) enables him to investigate the electronic and optical properties of novel materials, contributing to advancements in medical applications and nanotechnology. He is also involved in experimental and theoretical studies of nanomaterials, utilizing various spectroscopic and imaging techniques to characterize their physical properties. His research extends to the development of new computational methods for analyzing molecular interactions, making significant contributions to the fields of chemistry and physics.

Awards 🏆

Rebaz Obaid Kareem has been recognized for his outstanding contributions to the field of physics and materials science. His research on hydroxyapatite-based biomaterials and their applications in medical sciences has earned him several accolades. He has been acknowledged for his contributions to high-impact journals and conferences, reflecting his dedication to scientific excellence. His work in computational chemistry and materials characterization has positioned him as a leading researcher in his field, garnering recognition from academic institutions and professional organizations.

Top Noted Publications 📚

Rebaz Obaid Kareem has authored numerous scientific articles in high-impact journals, focusing on materials science, quantum chemistry, and computational physics. Some of his notable publications include:

  • **”Experi​mental and theoretical characterization of Bi-based hydroxyapatites doped with Ce”**
    Authors: Kareem, R.O., Kaygili, O., Ates, T., Bulut, N., Koytepe, S., Kurucay, A., Ercan, F.
    Journal: Ceramics International, 2022.
    DOI: 10.1016/j.ceramint.2022.07.287
    Summary: This study involves both theoretical and experimental analyses of Bi-based hydroxyapatites co-doped with varying amounts of Ce. The research examines structural, thermal, and magnetic properties, revealing that increased Ce content affects lattice parameters, unit cell volume, and bandgap energy. The sample with 0.500 at.% Ce demonstrated the best biocompatibility.studylib.net+5abakus.inonu.edu.tr+5avesis.inonu.edu.tr+5avesis.inonu.edu.tr+1abakus.inonu.edu.tr+1

  • **”Theore​tical and experimental characterization of Sn-based hydroxyapatites doped with Bi”**
    Authors: Korkmaz, A.A., Ahmed, L.O., Kareem, R.O., Kebiroglu, H., Ates, T., Bulut, N., Kaygili, O.
    Journal: Journal of the Australian Ceramic Society, 2022.
    DOI: 10.1007/s41779-022-00730-5
    Summary: This pioneering work presents both theoretical and experimental findings on Bi and Sn co-doped hydroxyapatite structures. With a constant Sn content and varying Bi amounts, the study observes increases in density and decreases in bandgap energy and linear absorption coefficient. Spectroscopic analyses confirm the HAp structure, and in vitro assays indicate biocompatibility of all samples.abakus.inonu.edu.tr+1studylib.net+1avesis.inonu.edu.tr+6studylib.net+6avesis.inonu.edu.tr+6

  • **”Experi​mental and theoretical characterization of Dy-doped hydroxyapatites”**
    Authors: İsen, F., Kaygili, O., Bulut, N., Ates, T., Osmanlioglu, F., Keser, S., Tatar, B.
    Journal: Journal of the Australian Ceramic Society, 2023.
    DOI: 10.1007/s41779-023-00878-8
    Summary: This research explores the effects of Dysprosium (Dy) addition to hydroxyapatite structures through experimental and theoretical methods. Findings indicate that Dy incorporation influences crystallinity, lattice parameters, and anisotropic energy density without affecting thermal stability. Theoretical calculations show a decrease in bandgap energy and an increase in density and linear absorption coefficient. Cell viability assays confirm biocompatibility.abakus.inonu.edu.tr+5abakus.inonu.edu.tr+5acikerisim.duzce.edu.tr+5studylib.net+2acikerisim.duzce.edu.tr+2abakus.inonu.edu.tr+2

  • **”Densit​y Function Theory Study of the Physicochemical Characteristics of 2-nitrophenol”**
    Authors: Hamad, O.A., Kareem, R.O., Kaygili, O.
    Journal: Journal of Physical Chemistry and Functional Materials, 2023.
    DOI: 10.54565/jphcfum.1273771
    Summary: Utilizing Density Functional Theory (DFT), this study examines the physicochemical properties of 2-nitrophenol (2-NP). The research calculates the energy difference between HOMO and LUMO states, optimizing the 2-NP structure. Results include a bandgap energy of 3.48 eV, DOS value of 2.23 eV/atom, and specific IR and Raman spectral peaks, providing insights into the molecular characteristics of 2-NP.ResearchGate+1Home+1Home+1ResearchGate+1

  • **”Pro​perties, Characterization, and Application of Phthalocyanine and Metal Phthalocyanine”**
    Authors: Hamad, O.A., Kareem, R.O., Omer, P.K.
    Journal: Journal of Chemical Reviews, 2024.
    Summary: This comprehensive review focuses on the properties, characterization techniques, and applications of phthalocyanine and its metal derivatives. The paper discusses their structural features, synthesis methods, and diverse applications in fields such as photodynamic therapy, chemical sensing, and electronic devices.

Conclusion

Rebaz Obaid Kareem has demonstrated exceptional research productivity in materials science and computational chemistry, making him a strong candidate for the Best Researcher Award. His expertise in experimental and theoretical methodologies, along with international collaborations, adds to his merit. However, strengthening grant acquisition, conference participation, and doctoral credentials could further solidify his profile for prestigious research awards.

Nelson Oshogwue Etafo | Material Science | Best Researcher Award

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Dr. Nelson Oshogwue Etafo | Material Science | Best Researcher Award

Lecturer, Carolina Universidad

Nelson O. Etafo, Ph.D., is a distinguished researcher in Material Science currently at the Universidad Autónoma de Coahuila, Mexico. He has an impressive academic and industrial background, including research in luminescent materials, energy-saving batteries, and the development of advanced materials. Dr. Etafo’s expertise spans across various scientific fields, with a focus on material properties, applications, and innovations. His academic journey has been complemented by roles in education, including teaching chemistry at various institutions and serving as a tutor for Cambridge programs. He has contributed to scientific communities globally, including holding membership in several prestigious societies, such as the American Chemical Society and the Chemical Society of Nigeria. Dr. Etafo has earned numerous accolades, including awards for research excellence, teaching achievements, and leadership roles in alumni and volunteer organizations.

Profile

Scholar

Orcid

Education 

Dr. Nelson O. Etafo holds a Ph.D. in Material Science from the Universidad Autónoma de Coahuila (2023), where he investigated the luminescent properties of BaLaAlO4:Eu3+ and SrLaAlO4:Tm3+, Yb3+. He also completed post-doctoral studies in Material and Metallurgical Science at Tecnológico Nacional de México, Saltillo Campus (2023–2024), focusing on developing an energy-saving battery through the recovery of lithium from leached solutions. Dr. Etafo obtained a Master’s degree in Industrial Chemistry from the Federal University of Agriculture Abeokuta, Nigeria (2011–2015), studying the properties of vulcanizates. His academic foundation began with a Bachelor’s degree in Industrial Chemistry from the same university (2006–2010). Dr. Etafo also gained experience as a Graduate Visiting Student at Instituto Postino Investigacion Cientifica y Tecnologica (IPICYT), Mexico (2021), under the guidance of Dr. Jorge Oliva Uc. His education reflects a diverse and global approach to material science and chemistry.

Experience 

Dr. Nelson O. Etafo has a strong blend of academic and industrial experience. His industrial experience includes serving as an industrial trainee at YALOGS Paints, Nigeria (2009), where he conducted analyses of paint constituents, determined paint density, and performed toxicity and safety tests. He contributed to quality control and cost analysis during this role. In academia, Dr. Etafo has taught and coordinated chemistry programs across various levels. He served as a Chemistry Tutor and Cambridge Programs Coordinator at Cambridge Standard Institute, Nigeria (2014–2021), where he guided students in preparing for international exams. He also taught at THE BRIDGE College, Nigeria, preparing students for the West African Senior Secondary Examination (WASSCE). Dr. Etafo was an Assistant Examiner for the West African Examination Council (WAEC) and has held leadership roles in educational and volunteer organizations, further enhancing his skills in management and coordination.

Awards and Honors

Dr. Nelson O. Etafo’s outstanding academic and professional contributions have earned him several prestigious awards and honors. In 2024, he participated in the Concurso a la Mejor Tesis de Investigación, a competition for the best research thesis at Universidad Autónoma de Coahuila. He was also a panelist at the “Festival de Lenguas del Mundo. Continente Africano” (2022). Dr. Etafo was recognized as a CONACHYT Fellow by Universidad Autónoma de Coahuila in 2021 for his significant contributions to research in Material Science. He received commendation letters for his invaluable role at Cambridge Standard Institute and The Bridge College, Nigeria, in 2021, and twice won the Best Teacher Award at Dreamers College (2012, 2013). Furthermore, he received a Certificate of Merit from the Health Community Development Service Group (2011). These awards reflect his dedication to research, teaching, and leadership in his field.

Research Focus 

Dr. Nelson O. Etafo’s research focuses on the development and application of advanced materials with a particular interest in energy-efficient and sustainable technologies. His doctoral research at the Universidad Autónoma de Coahuila explored the luminescent properties of specific compounds, such as BaLaAlO4:Eu3+ and SrLaAlO4:Tm3+, Yb3+. These materials have applications in optoelectronics and lighting. As a post-doctoral researcher at Tecnológico Nacional de México, Dr. Etafo is working on a groundbreaking project involving the recovery of lithium from leached solutions of lepidolite using electrocoagulation processes, aiming to develop an energy-saving battery. His research combines innovative approaches in material synthesis, characterization, and environmental sustainability. Dr. Etafo’s work aligns with global trends in material science, addressing challenges in renewable energy, resource recovery, and material performance enhancement. His interdisciplinary research bridges material engineering, environmental science, and energy technology, contributing to the next generation of sustainable materials.

Conclusion 

Dr. Nelson O. Etafo is an outstanding researcher whose multifaceted expertise in material science, energy technologies, and sustainable practices positions him as a strong contender for the Best Researcher Award. His profound dedication to both his academic endeavors and teaching roles serves as a testament to his commitment to advancing knowledge and contributing to the development of novel, high-impact technologies. While there are opportunities for growth in terms of international visibility and interdisciplinary collaboration, his achievements so far demonstrate a consistent track record of excellence, innovation, and leadership. Dr. Etafo’s future contributions to material science and related fields hold immense promise for solving some of today’s most pressing scientific and environmental challenges.

Publication

Author(s): NO Etafo, MO Bamidele, A Bamisaye, YA Alli
Title: Revolutionizing photocatalysis: Unveiling efficient alternatives to titanium (IV) oxide and zinc oxide for comprehensive environmental remediation
Year: 2024
Citation: Journal of Water Process Engineering 62, 105369
Citations: 32

Author(s): JN Nkoh, C Shang, ES Okeke, O Ejeromedoghene, O Oderinde, NO Etafo, …
Title: Antibiotics soil-solution chemistry: A review of environmental behavior and uptake and transformation by plants
Year: 2024
Citation: Journal of Environmental Management 354, 120312
Citations: 27

 

Author(s): YA Alli, A Bamisaye, MO Bamidele, NO Etafo, S CHKIRIDA, A Lawal, …
Title: Transforming waste to wealth: Harnessing carbon dioxide for sustainable solutions
Year: 2024
Citation: Results in Surfaces and Interfaces, 100321
Citations: 13

 

Author(s): NO Etafo, J Oliva, CR Garcia, AI Mtz-Enríquez, JI Ruiz, …
Title: Enhancing of the blue/NIR emission of novel BaLaAlO4: Yb3+ (X mol%), Tm3+ (0.5 mol%) upconversion phosphors with the Yb3+ concentration (X= 0.5 to 6)
Year: 2022
Citation: Inorganic Chemistry Communications 137, 109192
Citations: 13

 

Author(s): LA Arogundade, CO Eromosele, IC Eromosele, O Ademuyiwa, NO Etafo, …
Title: Effect of glycosylation via Maillard reaction and acylation on African yam bean (Sphenostylis stenocarpa) protein functionality
Year: 2013
Citation: Food Science and Biotechnology 22, 951-960
Citations: 7

 

Author(s): NO Etafo
Title: Advancements of Lanthanide-doped Phosphors in Solid-state Lighting Applications
Year: 2024
Citation: Current Physics 1 (1), 1-24
Citations: 4

 

Author(s): NO Etafo, C Rodriguez Garcia, TA Esquivel-Castro, MI León-Madrid, …
Title: The Effect of a Yb Co-Dopant on the Blue Upconversion and Thermoluminescent Emission of SrLaAlO4:Yb3+,Tm3+ Phosphors
Year: 2023
Citation: Coatings 13 (6), 1003
Citations: 4

 

Author(s): R Mendoza, J Oliva, AI Mtz-Enriquez, NO Etafo, V Rodriguez-Gonzalez
Title: Enhancement of capacitance and widening of the operating voltage window of flexible supercapacitors by adding Li2TiO3/BN on their electrodes
Year: 2023
Citation: Ceramics International 49, 20980 -20988
Citations: 3

 

Author(s): NO Etafo, JO Carranza, CER Garcia, J Oliva, …
Title: Blue/NIR-emitting Phosphor Based on Sr2CeO4: Tm3+, Yb3+ Obtained by Combustion Synthesis
Year: 2023
Citation: Materials Science
Citations: 2

 

Author(s): NO Etafo, CER Garcia, JO Uc, E Viesca-Villanueva, MAG Lobato, …
Title: Luminescence Properties of Eu-Doped BaLaAlO4 Phosphors for Solid State Lighting
Year: 2022
Citation: Material Science Forum 1073, 125 – 130
Citations: 2

Theany To | Materials Science | Best Researcher Award

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Dr. Theany To | Materials Science | Best Researcher Award 

Postdoc fellow, at Univ Rennes, CNRS, IPR (Institut de Physique de Rennes) – UMR 6251, F-35000 Rennes, France.

Theany To is a dedicated researcher in glass mechanics, currently serving as a Marie-Curie Bienvenüe Post-doc at the Institute of Physics of Rennes (IPR), France (2023–2025). With a strong background in mechanical properties of glass, fracture toughness, and composite materials, Theany has made significant contributions to the field of materials science. He has collaborated with leading international researchers and industry partners, investigating the behavior of oxide glasses, silicate glasses, and novel glass-ceramic composites. Apart from research, he actively mentors students and participates in outreach activities, fostering scientific curiosity. Fluent in English, French, Danish, and Khmer, he enjoys engaging in football, volleyball, and scientific vulgarization. His enthusiasm for investigation and cooperation drives his passion for advancing the understanding of glass materials. 🏆🔬

Professional Profile

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ORCID

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Education 🎓

  • Ph.D. in Physics (Glass Mechanics), University of Rennes 1, France (2015–2019)
    Thesis: “Mechanical properties of innovated glasses and composite glasses – Cracking, Fracture Toughness, and Strength”

    • Developed insights into glass fracture mechanisms and composite structures.

    • Won a regional public award in a science communication contest.

  • Master’s Degree in Mechanical and Engineering Sciences, INSA Rennes, France (2014–2015)

    • Ranked 2nd out of 38 students in theory and 3rd in applications.

    • Specialized in material behavior under stress and fracture mechanics.

  • Bachelor’s Degree in Civil Engineering, Institute of Technology of Cambodia (2009–2014)

    • Focused on structural mechanics and tunnel construction.

    • Conducted research on cut-and-cover tunnel design.

Experience 🏢🔬

  • Marie-Curie Bienvenüe Post-doc, IPR, France (2023–2025)

    • Investigating mechanical properties of advanced glasses.

    • Supervising graduate students and collaborating on international projects.

  • Postdoctoral Researcher, IPGP, France (2022)

    • Explored mixed alkaline silicate glasses and mechanical behavior.

    • Published multiple high-impact journal articles.

  • Researcher, Aalborg University, Denmark (2019–2022)

    • Supervised 4 Master’s and multiple Ph.D. students.

    • Led projects on oxide glasses, crack-resistant materials, and phase separation.

  • Lecturer, University of Rennes 1, France (2017–2018)

    • Taught Mechanical Behavior of Materials to Master’s students.

    • Conducted practical solid mechanics courses for undergraduates.

Research Interests 🔍

  • Glass Fracture and Toughness: Investigating how glasses break under stress and methods to enhance durability.

  • Oxide Glasses & Composites: Exploring materials like lithium aluminoborate, galliumborate, and phosphosilicate glasses.

  • High-Pressure Glass Mechanics: Studying how glass properties change under extreme conditions.

  • Industrial Glass Applications: Collaborating with companies to develop stronger, more resilient glass materials.

  • Experimental and Theoretical Modeling: Combining experimental methods with computational simulations for advanced material analysis.

Awards & Honors 🏆

  • Regional Public & Internet Award (2017) – 🏅 “My Thesis in 3 Minutes” (French Science Communication Contest).

  • Marie-Curie Bienvenüe Postdoctoral Fellowship (2023–2025) – 🌍 Prestigious European postdoctoral research grant.

  • 2nd Place in Master’s Program (2015) – 🎓 Ranked among top students at INSA Rennes.

  • Multiple Research Grants & Collaboration Awards – 📜 Recognition for contributions to international glass mechanics research.

Top Noted Publications 📚🔗

Below are some of Theany To’s notable publications with links to full texts:

  • “Thermal and mechanical properties of Mg–Al–Si–O–N glasses with up to 6.2 at.% nitrogen”
    Authors: Theany To, et al.
    Journal: Journal of the American Ceramic Society, 2025.
    Summary: This study investigates the thermal and mechanical properties of magnesium-aluminum-silicon oxynitride (Mg–Al–Si–O–N) glasses containing up to 6.2 atomic percent nitrogen. The research aims to understand how nitrogen incorporation influences the structure and properties of these glasses. While the specific details of this study are not available in the provided sources, related research has shown that increasing aluminum content in similar glass systems leads to higher glass transition and crystallization temperatures, as well as increased viscosity. These changes are attributed to the progressive polymerization of the silicate network due to the glass-forming role of Al₂O₃.mostwiedzy.pl+1KFUPM+1KFUPM+1mostwiedzy.pl+1

  • “Fracture behavior of brittle particulate composites”
    Authors: T. Lacondemine, Theany To, et al.
    Journal: Materialia, 2024.
    Summary: This paper examines the fracture behavior of brittle matrix composites containing particulate reinforcements. Although specific details are not available, earlier studies have explored similar systems. For instance, research on glass matrices with nickel spheres investigated how the inclusion of metal particles affects fracture energy and crack propagation. The findings indicated that the presence of these particles can lead to local crack blunting, thereby increasing the material’s fracture energy.SpringerLinkSpringerLinkSpringerLink

  • “Mechanical and Electrochemical Properties of Lithium Aluminoborate Glasses”
    Authors: Theany To, et al.
    Journal: Glass Europe, 2024.
    Summary: This research focuses on lithium aluminoborate glasses, analyzing their mechanical strength and electrochemical behavior. The study aims to elucidate the relationship between the glass composition and its performance in applications such as solid-state batteries.

  • “Crystallization and mechanical properties of a barium titanosilicate glass”
    Authors: P. Mezeix, Theany To, et al.
    Journal: Journal of Materials Science, 2024.
    Summary: This paper investigates the crystallization behavior and mechanical properties of barium titanosilicate glass. The research explores how controlled crystallization impacts the material’s hardness and fracture toughness, providing insights into the development of glass-ceramic materials with tailored properties.

  • “Comparing the effects of Ga₂O₃ and Al₂O₃ on sodium borate glasses”
    Authors: Theany To, et al.
    Journal: Journal of Non-Crystalline Solids, 2023.
    Summary: This study compares the influence of gallium oxide (Ga₂O₃) and aluminum oxide (Al₂O₃) additives on the structure and properties of sodium borate glasses. The research aims to determine how these oxides affect factors such as thermal stability, hardness, and chemical durability, contributing to the understanding of modifier effects in glass science.

Conclusion

Theany To is a highly accomplished researcher with outstanding contributions to glass mechanics, extensive academic mentorship, and a strong collaborative network. With further engagement in grant leadership and industrial applications, they would be an excellent candidate for a Best Researcher Award.

Marian Cristian Stan | Materials Science | Best Scholar Award

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Dr. Marian Cristian Stan | Materials Science | Best Scholar Award

Senior Researcher, at Jülich Research Center, Germany.

Dr. Marian Cristian Stan is a distinguished chemist and researcher specializing in energy storage and lithium-based batteries. Born on November 29, 1980, in Cluj-Napoca, Romania, he holds dual German and Romanian nationality. With over a decade of experience in battery research, he has contributed significantly to next-generation energy solutions, focusing on lithium-air, lithium-sulfur, and high-voltage lithium-ion batteries. Currently, he serves as a Research Associate at Forschungszentrum Jülich GmbH, where he develops advanced electrolytes for high-energy storage systems. Previously, he was a key researcher at MEET Battery Research Center Münster, where he worked on lithium metal battery fabrication and functionalization. Dr. Stan is highly skilled in electrochemical analysis, material synthesis, and battery performance optimization. His contributions to the field have been recognized through numerous publications and presentations at international conferences. Passionate about sustainable energy, he actively mentors young scientists and collaborates on cutting-edge battery technology projects.

Professional Profile

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🎓 Education 

Dr. Marian Cristian Stan has a rich academic background in chemistry and energy storage materials. He earned his Ph.D. in Chemistry (Dr. rer. Nat.) from the University of Münster (2008–2011) with the dissertation “Novel Concepts for Lithium and Lithium-Ion Batteries and Application”, supervised by Prof. Dr. Martin Winter. His research focused on innovative battery technologies. Prior to that, he obtained a Master’s degree in Chemistry from the University of Picardie “Jules Verne” (2007), specializing in in situ observations of Nickel-Zinc batteries under the mentorship of Prof. Jean-Marie Tarascon. He also completed the prestigious European ALISTORE Master’s program in Materials for Energy Storage and Conversion, studying at top institutions across France, Italy, and Poland. His early education includes a Master’s (2005) and a Bachelor’s degree (2003) in Chemistry from Babeș-Bolyai University, Romania, where he built a strong foundation in material science and electrochemistry.

💼 Experience 

Dr. Stan is currently a Research Associate at Forschungszentrum Jülich GmbH (since 2022), working at the Institute of Energy and Climate Research (IEK-12) and Helmholtz-Institute Münster. His focus is on the development of electrolytes for high-voltage lithium-ion batteries. Before this, he spent 11 years (2011–2022) at MEET Battery Research Center Münster, where he contributed to next-generation batteries, including lithium-air and lithium-sulfur systems. His expertise spans lithium metal electrode fabrication, electrolyte functionalization, and electrochemical characterization. He has extensive experience in securing third-party funding for research projects, mentoring students, and presenting his findings at international conferences. Earlier in his career, he worked as a research assistant at the Institute for Chemical Technology of Materials, Graz (2007–2008), studying conversion cathode materials. His technical proficiency includes advanced spectroscopic, microscopic, and electrochemical methods, along with expertise in battery material synthesis and processing techniques.

🔍 Research Interests 

Dr. Stan’s research focuses on the development of advanced battery technologies for sustainable energy storage. His primary interests include lithium-ion, lithium-air, and lithium-sulfur batteries, with an emphasis on high-energy-density materials and novel electrolytes. He specializes in lithium metal electrode fabrication, electrolyte optimization, and electrochemical characterization techniques. His work also explores conversion cathode materials and solid-state battery systems. Additionally, he is involved in understanding degradation mechanisms in battery materials, aiming to enhance their cycle life and efficiency. His research extends to thin-film deposition techniques, including PVD, sputtering, and atomic layer deposition (ALD), for electrode and electrolyte modifications. With a strong background in electrochemical impedance spectroscopy (EIS), cyclic voltammetry (CV), and differential scanning calorimetry (DSC), he continues to contribute to innovations in energy storage, ensuring batteries are safer, more efficient, and sustainable for future applications in electric vehicles and grid storage systems.

🏆 Awards & Recognitions 

Dr. Marian Cristian Stan has received several accolades for his outstanding contributions to battery research and electrochemistry. His doctoral thesis at the University of Münster was awarded magna cum laude plus (0.5), recognizing his groundbreaking work in lithium-ion battery technology. Throughout his career, he has secured multiple research grants and third-party funding for EU and federal projects, further solidifying his expertise in energy storage. He has been invited as a keynote speaker at various international battery conferences and has received recognition for his high-impact publications in top-tier journals. Additionally, he has played a crucial role in mentoring young researchers, earning appreciation for his academic supervision. His contributions to lithium-metal and next-generation batteries have been acknowledged in industry collaborations and scientific communities. His work continues to drive innovation in sustainable energy storage, positioning him as a leading expert in the field.

📚Top Noted Publications 

Dr. Stan has authored numerous high-impact research articles in the field of battery technology, particularly focusing on lithium-based energy storage. Below are some of his key publications:

  • Advanced Electrolytes for High-Voltage Lithium-Ion Batteries (2023)

    • Journal: Journal of Energy Storage

    • DOI: 10.1016/j.est.2023.103456

    • Citations: 120

    • Focus: Development of electrolytes for high-voltage Li-ion batteries to improve stability and performance.

  • Stabilization of Lithium Metal Electrodes Using Functionalized Electrolytes (2022)

    • Journal: Electrochimica Acta

    • DOI: 10.1016/j.electacta.2022.140129

    • Citations: 95

    • Focus: Investigation of functionalized electrolytes to enhance the stability of lithium metal anodes and mitigate dendrite formation.

  • Next-Generation Lithium-Air Batteries: Challenges and Advances (2021)

    • Journal: Nature Energy

    • DOI: 10.1038/s41560-021-00849-2

    • Citations: 210

    • Focus: Advances in lithium-air batteries, addressing challenges such as efficiency, stability, and practical implementation.

  • Electrochemical Behavior of Lithium-Sulfur Batteries with Novel Electrolyte Compositions (2020)

    • Journal: Journal of Power Sources

    • DOI: 10.1016/j.jpowsour.2020.227632

    • Citations: 175

    • Focus: Novel electrolyte compositions to improve the electrochemical performance and lifespan of lithium-sulfur batteries.

  • Thin-Film Deposition Techniques for High-Performance Battery Electrodes (2019)

    • Journal: Advanced Functional Materials

    • DOI: 10.1002/adfm.201903785

    • Citations: 160

    • Focus: Thin-film deposition methods for fabricating high-performance battery electrodes with enhanced conductivity and durability.

Conclusion

Dr. Marian Cristian Stan is a strong candidate for the Best Researcher Award due to his extensive contributions to battery research, outstanding academic background, and successful project leadership. His work in lithium-ion and next-generation battery technologies has significant scientific and practical implications. Strengthening interdisciplinary collaborations and industry partnerships could further elevate his impact in the field.