Dr. George STANCIU | Materials Science & Laser Materials | Best Researcher Award

Dr. George STANCIU | Materials Science & Laser Materials | Best Researcher Award

National Institute for Laser, Plasma and Radiation Physics, Romania

Author Profile

Scopus 

🎓 Early Academic Pursuits

Dr. George Stanciu was born on July 26, 1980, in Bucharest, Romania, and from an early age demonstrated a keen interest in the sciences, particularly in chemistry and materials. His academic path began at the prestigious University Politehnica of Bucharest, where he enrolled in the Faculty of Applied Chemistry and Materials Science. Over the course of five rigorous years (2002–2007), he developed a solid foundation in chemical engineering, culminating in the attainment of his Engineering Diploma. Eager to advance his knowledge and practical competencies, he continued his education with a Master’s degree in Composite Materials at the same institution between 2007 and 2009. During this period, he gained significant insight into the synthesis, characterization, and application of advanced materials—interests that would form the core of his future research.

Dr. Stanciu’s commitment to scientific exploration led him to doctoral studies from 2009 to 2012, where he focused on micro- and nanostructured perovskite-type materials—a challenging and highly impactful area of chemical engineering with far-reaching applications in optics, electronics, and energy storage. His PhD journey exemplified a fusion of theoretical depth and experimental acumen, laying the groundwork for a career in advanced materials science. 🧪📘

🧑‍🔬 Professional Endeavors

Following the successful completion of his PhD, Dr. Stanciu embarked on a progressive research career at Romania’s esteemed National Institute for Laser, Plasma and Radiation Physics (INFLPR). He joined the Laboratory of Solid-State Quantum Electronics, where he held multiple positions of increasing responsibility. From 2012 to 2013, he served as a Scientific Researcher Assistant, rapidly advancing to Scientific Researcher (2014–2020), and eventually achieving the title of Senior Researcher (CS III) in July 2020.

Parallel to his early research engagements, he gained industry experience as a Chemical Engineer at S.C. CEPROCIM S.A. between 2007 and 2009. This role in the Department of Binder Research Materials Projects honed his skills in applied chemical technologies, adding a practical, solutions-oriented perspective to his primarily academic background. This rare combination of industrial and academic experience has made Dr. Stanciu a versatile and insightful researcher. 🧑‍🏭🔬

A notable milestone in his postdoctoral career was his involvement in a prestigious research scholarship under the supervision of Professor Dr. Ecaterina Andronescu at the University Politehnica of Bucharest. His work focused on the “SrxBa1-xNb2O6 doped system,” supported by the European Social Fund (POS DRU), marking his active engagement with European-level scientific initiatives. 📚🌍

🔬 Contributions and Research Focus

Dr. Stanciu’s scientific contributions reflect a focused and evolving engagement with crystal growth technology, transparent polycrystalline ceramics, and non-linear optics. His expertise in X-ray diffraction (XRD) for structural analysis underscores his dedication to uncovering the fundamental properties of materials at the atomic and molecular scale.

Among his primary research interests is the technology of transparent ceramics, a field that bridges the domains of material science and optics. These ceramics have critical applications in lasers, biomedical devices, and defense technologies. Furthermore, his work in frequency conversion and non-linear optical materials places him at the intersection of photonics and advanced material engineering, supporting global advancements in high-efficiency light generation and signal processing. 🔍🧿

His academic output is remarkable: 34 peer-reviewed journal articles, 85 presentations at international conferences, and contributions to 2 proceedings volumes, reflecting both his commitment to scientific communication and the relevance of his research to global scientific communities. His consistent presence in international forums signals a researcher deeply engaged in the advancement and dissemination of knowledge. 🌐📊

🏅 Accolades and Recognition

Though his CV does not list formal awards, Dr. Stanciu’s trajectory within INFLPR and his rapid ascent to senior researcher status are clear indicators of his esteem within the Romanian scientific community. Being entrusted with a postdoctoral research project funded by the European Social Fund also demonstrates recognition at the institutional and continental level. His work under Professor Andronescu, one of Romania’s most respected scientists, further underscores the trust placed in his abilities and potential. 🏆👨‍🎓

🌍 Impact and Influence

Dr. Stanciu’s work has significant implications for the future of laser and photonic technologies, where precision materials play a crucial role in performance and innovation. His research into perovskite-type structures aligns with global priorities in energy, environmental sustainability, and next-generation electronics. By developing novel materials with finely tuned optical and structural properties, his contributions support advances in everything from clean energy solutions to medical imaging technologies.

Moreover, his involvement with INFLPR—a flagship research institute in Romania—places him in a strategic position to mentor young scientists, collaborate on multidisciplinary projects, and influence policy and funding directions within the national research ecosystem. 🌟🧭

🔮 Legacy and Future Contributions

Looking ahead, Dr. George Stanciu is well poised to expand his influence through cross-disciplinary collaborations, international research networks, and mentorship roles. As transparent ceramics, non-linear optics, and quantum electronics continue to gain importance in global technology sectors, his expertise will remain indispensable.

Given the rise in demand for perovskite-based applications in solar cells, LED devices, and sensing technologies, his foundational work in this area could lead to patentable innovations and technological breakthroughs. There is also strong potential for leadership in international consortia and EU-funded research initiatives.

His future contributions will likely continue to reflect the same intellectual rigor, collaborative spirit, and innovative mindset that have characterized his career so far—making him not just a researcher, but a builder of scientific legacies. 🌱🚀

📝Notable Publications

The Micro-Structure of the Celiac Ganglia—A Two-Photon Microscopy Study on Parkinson’s Disease

Authors: Morgos, Diana Theodora; Eftimie, Lucian George; Nicolae, Horia; Tulin, Adrian Daniel; Filipoiu, Florin Mihail
Journal: Diagnostics
Year: 2025

Differential Diagnosis of Thyroid Tumors Through Information Fusion from Multiphoton Microscopy Images Using Fusion Autoencoder

Authors: Kethireddy, Harshith Reddy; Tejaswee, A.; Eftimie, Lucian George; Stanciu, George A.; Paul, Angshuman
Type: Conference Paper
Year: Not explicitly mentioned (assumed 2024–2025)

A Coronaviral Pore-Replicase Complex Links RNA Synthesis and Export from Double-Membrane Vesicles

Authors: Chen, Anan; Lupan, Ana Mihaela; Quek, Rui Tong; Mitchison, Timothy J.; Salic, Adrian N.
Journal: Science Advances
Year: 2024

 Antibacterial Interactions of Ethanol-Dispersed Multiwalled Carbon Nanotubes with Staphylococcus aureus and Pseudomonas aeruginosa

Authors: Asaftei, Mihaela; Lucidi, Massimiliano; Anton, Stefan Razvan; Visca, Paolo J.; Stanciu, Stefan G.
Journal: ACS Omega
Year: 2024

Assoc Prof Dr. Ayse Nihan Basmaci | materials | Best Researcher Award

Assoc Prof Dr. Ayse Nihan Basmaci | materials | Best Researcher Award

Tekirdag Namik Kemal University, Turkey

Author Profile

Google Scholar 

🎓 Early Academic Pursuits: The Foundations of Brilliance

Ayşe Nihan Basmacı’s academic journey began with a clear and passionate vision rooted in electrical and electronics engineering. Her foundational years were shaped at Pamukkale University, where she pursued a Bachelor of Science degree in Electrical-Electronics Engineering from 2004 to 2008. Her early interest in understanding the behavior of electronic systems, particularly the wave-based phenomena in engineered materials, guided her into graduate studies with an inquisitive mindset and technical precision.

She advanced seamlessly into a Master of Science at the same university, earning her degree in 2011. This formative period sharpened her theoretical understanding and experimental skills, setting a strong base for further scholarly exploration. Committed to academic excellence, she continued on to a Ph.D. in the same discipline, completing it in 2017. Her doctoral work laid the groundwork for future exploration into electromagnetic wave propagation, a field where she has made significant scholarly contributions. 📘💡

🧑‍🏫 Professional Endeavors: Educator and Innovator

Since 2012, Ayşe Nihan Basmacı has been an integral part of Tekirdağ Namık Kemal University, beginning her career as a lecturer and eventually rising to the rank of Associate Professor in the Department of Electronics and Automation within the Vocational School of Technical Sciences. Her dedication to education is evident in her decade-long contribution to developing electronic engineering curricula and mentoring students in practical and research-intensive environments.

Between 2021 and 2022, she also took on an administrative role as Deputy Director of the Research and Application Center, showcasing her leadership abilities and commitment to fostering an innovative research culture within the institution. 🔬👩‍💼

📡 Contributions and Research Focus: Exploring the Invisible

Assoc. Prof. Basmacı’s research centers around electromagnetic wave propagation, particularly in advanced materials like carbon nanotubes, photonic crystals, and welded functionally graded structures. She has a keen interest in understanding how electromagnetic waves interact with novel materials, which has vast implications in communications, photonics, and material science.

Her scholarly output is prolific and impactful. In recent years, she has published in respected international journals such as Materials, Coatings, Applied Sciences, and the Journal of Optoelectronics and Advanced Materials. Her work includes investigating backward wave behavior in carbon nanotube-coated metamaterials, and simulating electromagnetic properties in photonic-like welded structures using the finite element method.

She also delves into experimental and computational analyses, as seen in her studies on welded rods with functionally graded materials, and dual-mode microstrip filters for communication systems. This diverse but coherent body of research reflects both scientific depth and practical relevance. 🧲📐📶

🏆 Accolades and Recognition: A Scholar’s Rising Star

While specific awards and honors are not explicitly listed, her appointment as an Associate Professor in 2022 is a significant academic milestone that speaks volumes about her reputation, contributions, and recognition within the scientific community. Her collaborative works with other noted researchers like Filiz Seçkin, Ceyhun Karpuz, and Ali Kürşad Görür further underscore her visibility and respect in the field of electronics and applied physics.

The citation of her articles, particularly those published in high-impact journals with rigorous peer review, demonstrates the value of her work to both academia and industry. She has positioned herself as a knowledgeable voice in a highly technical and specialized area of research. 🥇📈

🌍 Impact and Influence: Bridging Theory and Application

Assoc. Prof. Basmacı’s research on carbon nanostructures and photonic waveguides has implications for the development of next-generation communication systems, sensors, and metamaterials. Through her investigations, she contributes to the global scientific understanding of how materials at the nanoscale behave under electromagnetic influence — a key to innovations in 5G/6G technologies, biomedical imaging, and defense systems.

Her academic influence also extends to her role as a mentor and educator. Generations of engineering students have benefited from her lectures and research supervision, gaining both technical skills and inspiration to pursue careers in electronics and material science. 🧑‍🎓🌐

🌱 Legacy and Future Contributions: A Vision of Progress

Looking ahead, Ayşe Nihan Basmacı stands at the confluence of emerging technologies and scientific discovery. Her expertise in computational electromagnetics and nanomaterials places her in a unique position to lead interdisciplinary research projects that could redefine materials engineering and telecommunications.

With the steady growth of fields like quantum computing, smart materials, and wearable electronics, her work is expected to become even more relevant. Her future contributions will likely focus on expanding the functionality of metamaterials and optimizing photonic structures for energy efficiency and signal clarity.

Through a rich combination of teaching, research, and leadership, Assoc. Prof. Basmacı is not only shaping the field of electromagnetic engineering but also cultivating a legacy of scientific curiosity and educational excellence. 🔭📚🚀

Characteristics of electromagnetic wave propagation in a segmented photonic waveguide

Author: Ayşe Nihan Basmacı
Journal: Journal of Optoelectronics and Advanced Materials
Year: 2020

Experimental analysis of welded rods with a functionally graded material approach

Author(s): Ayşe Nihan Basmacı, Filiz Seçkin, Mümin Şahin
Journal: Applied Sciences
Year: 2020

Design of tunable microstrip dual-mode bandpass filter having reconfigurable filtering characteristics for mobile applications

Author(s): Ceyhun Karpuz, Ali Kürşad Görür, Ayşe Nihan Basmacı
Conference: 46th European Microwave Conference (EuMC)
Year: 2016

Design and analysis of a compact dual-mode dual-band microstrip bandpass filter

Author(s): Ceyhun Karpuz, Ali Kürşad Görür, Ayşe Nihan Basmacı, Ahmet Özek
Journal: Journal of Electromagnetic Waves and Applications
Year: 2013

Dual‐mode dual‐band microstrip bandstop filter design with independently tunable center frequencies

Author(s): Ali Kürşad Görür, Ayşe Nihan Basmacı, Engin Doğan, Ceyhun Karpuz, Adnan Görür
Journal: Microwave and Optical Technology Letters
Year: 2017

Seckin Akin | Perovskite Solar Cells | Best Researcher Award

Congratulations, Seckin Akin | Best Researcher Award| Perovskite Solar Cells | Award Winner 2023  🏆

Seckin Akin : Perovskite Solar Cells

Seckin Akin: Congratulations on Best Researcher Award for Perovskite Solar Cells! In recognition of your outstanding contributions to the field of materials science and engineering, particularly in the advancement of perovskite solar cells, we extend our heartfelt congratulations on receiving the prestigious Best Researcher Award. Your innovative work, dedication, and impactful research have not only earned you this well-deserved honor but have also significantly contributed to the progress of renewable energy technology. Your achievements inspire and set a benchmark for excellence in the scientific community. Bravo! 🌟🏆

 Professional Profile 

Google Scholar
Orcid
Scopus

Early Academic Pursuits: Building the Foundation

Seckin Akin embarked on a journey of academic excellence, laying the groundwork for his impactful career. His quest for knowledge commenced with a Bachelor of Science degree in Physics (English) from Abant İzzet Baysal University, spanning from 2004 to 2009. Eager to deepen his understanding, he pursued a Master of Science in Physics/Solid State Physics at Anadolu University from 2009 to 2012. This phase of academic exploration marked the early stages of his commitment to the intricacies of materials science and engineering.

Professional Endeavors: Contributions to Materials Science and Engineering

Seckin Akin's professional journey is characterized by noteworthy contributions to the field of materials science and engineering. His active engagement in research spans diverse areas, including inorganic nanoparticle synthesis, thin film production, and the optoelectronic properties of materials. Notably, his work extends into the specialized domain of perovskite solar cells, showcasing his multidisciplinary expertise.

Contributions and Research Focus: Advancing Solar Cell Technology

Akin's contributions to the scientific community are substantial, particularly in the synthesis of new-generation inorganic nanoparticles and their application in perovskite solar cells. His research focus encompasses investigating inorganic nanoparticle synthesis, thin film production, and the optoelectronic properties of materials. A significant milestone in his research journey is the design and development of efficient and stable perovskite solar cells.

An exemplary achievement in this regard is the patent for an organometallic perovskite solar cell, tandem solar cell, and the associated manufacturing process (US20210249196A1). This patent underscores Akin's innovative approach to advancing solar cell technology, showcasing his prowess in translating research findings into practical applications.

Accolades and Recognition: A Trail of Achievements

Seckin Akin's accomplishments have garnered well-deserved recognition, as evidenced by a string of awards and honors:

  • 2022: Entrepreneurship Grant by the Individual Young Entrepreneur Program (BIGG).
  • 2021: Science Academy's Young Scientist Awards Program (BAGEP).
  • 2021: SPTech Congress, Best Presentation Award.
  • 2020: TUBITAK, BIDEB 2247-A – National Leading Researchers Programme.
  • 2018: TUBITAK, BIDEB 2214-A – International Research Fellowship Programme (Laboratory of Photonics and Interfaces – LPI – EPFL, Switzerland / Supervisor: Prof. Michael Grätzel).
  • 2017: E-MRS Fall Meeting, Best Presentation Award.
  • 2017: ICENTE’17, Best Presentation Award.
  • 2015: Konya Technocity, University - Industry Collaboration Award.

Impact and Influence: Shaping Scientific Discourse

Seckin Akin's impact on the scientific community is palpable through a prolific output of scientific publications. His work, published in reputable journals, has significantly shaped the discourse in materials science and engineering. Notable contributions include the development of efficient and stable perovskite solar cells with a record efficiency over 17%, exploration of composition engineering for operationally stable CsPbI2Br perovskite solar cells, and probing the low-frequency response of impedance spectroscopy of halide perovskite single crystals using machine learning.

Legacy and Future Contributions: Shaping the Landscape of Renewable Energy

Akin's legacy is firmly rooted in his pioneering work in the synthesis of inorganic nanoparticles and their application in solar cell technology. His dedication to advancing the understanding and practical applications of perovskite solar cells and optoelectronic properties has left an indelible mark on the field of materials science and engineering. As he continues his academic and research journey, the anticipation is high for Akin to further shape the landscape of renewable energy, leaving a lasting impact on the future of sustainable technology.

Notable Publications 

Ultrahydrophobic 3D/2D fluoroarene bilayer-based water-resistant perovskite solar cells with efficiencies exceeding 22%

Europium-doped CsPbI2Br for stable and highly efficient inorganic perovskite solar cells

New Strategies for Defect Passivation in High‐Efficiency Perovskite Solar Cells

Novel p-dopant toward highly efficient and stable perovskite solar cells

Stabilization of Highly Efficient and Stable Phase‐Pure FAPbI3 Perovskite Solar Cells by Molecularly Tailored 2D‐Overlayers

FAPbI3‐Based Perovskite Solar Cells Employing Hexyl‐Based Ionic Liquid with an Efficiency Over 20% and Excellent Long‐Term Stability

Poly (N, N′‐bis‐4‐butylphenyl‐N, N′‐bisphenyl) benzidine‐Based Interfacial Passivation Strategy Promoting Efficiency and Operational Stability of Perovskite Solar Cells in …

 

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