Dr. Florentina-Cristina Chirila | Experimental Methods | Best Researcher Award

National Institute of Materials Physics | Romania

Florentina-Cristina Chirila (Dragoi) is a highly accomplished physicist specializing in ferroelectric and multiferroic materials. With extensive experience in material science research, she has contributed significantly to the field through national and international collaborations. As a Senior Researcher at the National Institute of Materials Physics, Romania, she has coordinated and participated in multiple high-impact research projects, secured patents, authored numerous high-ranking publications, and presented at international conferences. Her leadership in developing functional materials for electronics and sensors has placed her at the forefront of innovation in advanced material applications. Recognized for both her scientific output and mentorship, she exemplifies a researcher deeply committed to advancing technology for future energy, sensing, and electronic solutions.

Profiles

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Education

Florentina-Cristina Chirila completed her academic training at the University of Bucharest, where she obtained both her Bachelor’s and Master’s degrees in Physics, followed by a Ph.D. focused on the electrical and ferroic properties of complex heterostructures involving ferroelectric materials. Her academic foundation laid the groundwork for her future research on functional oxide materials. Her doctoral work bridged theoretical understanding and practical applications in electronic devices, sensors, and memory systems. This strong academic background, combined with subsequent international research experience in Germany and Spain, allowed her to develop expertise in a broad range of experimental and analytical techniques, which she continues to apply in advanced materials development and interdisciplinary scientific collaboration.

Professional Experience

Florentina-Cristina Chirila began her research career at the National Institute of Materials Physics in Romania, where she currently holds the position of Senior Researcher Rank I. Her career includes specialized training and short-term scientific stages in prominent European institutes, such as the Max Planck Institute and the Institute of Materials Science of Barcelona. She has led research efforts on ferroelectric thin films and multiferroic heterostructures, coordinating multi-year, high-budget projects and managing research teams. In addition to project leadership, she has contributed as a team member on several international and national projects. Her collaborative network spans multiple countries, enhancing her capacity to integrate cross-border expertise into her scientific endeavors.

Awards and Honors

Florentina-Cristina Chirila has been recognized with several prestigious awards for her outstanding contributions to materials science. Her accolades include the esteemed “Radu Grigorovici” Prize from the Romanian Academy and the “Roger Kelly Award” for young researchers. She has also been a consistent recipient of medals and recognition at EUROINVENT, securing Bronze, Silver, and Excellence Awards. These honors acknowledge not only her research achievements but also her innovation, as demonstrated by her patent applications and technology development in the area of energy harvesting and sensor design. Her reputation as an expert reviewer for high-impact journals further affirms her standing in the global scientific community.

Research Focus

Florentina-Cristina Chirila’s research centers on the development and characterization of functional materials, particularly ferroelectric thin films, multiferroic heterostructures, and oxide-based interfaces. Her work emphasizes experimental methods, electrical characterization, and strain engineering to improve the performance of energy storage devices, pyroelectric sensors, and multistate memory elements. A significant portion of her research addresses energy harvesting and advanced sensor applications. She has made impactful contributions through innovation in pyroelectric elements and dielectric nanolaminates. Her ability to translate fundamental material properties into applied technologies positions her research at the interface of physics, engineering, and nanotechnology, enabling next-generation electronic and optoelectronic solutions.

Notable Publications

Ferroelectric Hf0.5Zr0.5O2 Thin Films on TiN/Si Substrates Grown by Pulsed Laser Deposition at CMOS-Compatible Temperatures
Authors: C.F. Chirila, G.A. Boni, D.G. Popescu, C.M. Istrate, M.A. Husanu, L.D. Filip, C. Besleaga, L. Pintilie, A. Dimoulas
Journal: Ceramics International
Year: 2025

Electrical properties of epitaxial PZT-LSMO magnetoelectric heterostructures: the effect of the interface with the electrodes
Authors: L.M. Hrib, L. Trupina, M.I. Botea, C.F. Chirila, A.G. Boni, M.C. Istrate, L. Pintilie
Journal: Journal of Physics D: Applied Physics
Year: 2025

Guanine-based spin valve with spin rectification effect for an artificial memory element
Authors: N. Iacob, C. Chirila, M. Sangaré, A. Kuncser, A.E. Stanciu, M. Socol, …
Journal: Heliyon
Year: 2025

Surface charge dynamics on air-exposed ferroelectric Pb(Zr, Ti)O3(001) thin films
Authors: L.E. Abramiuc, L.C. Tanase, M.J. Prieto, L. de Souza Caldas, A. Tiwari, …
Journal: Nanoscale
Year: 2023

Resistive-like Behavior of Ferroelectric p–n Bilayer Structures Based on Epitaxial Pb(Zr0.2Ti0.8)O3 Thin Films
Authors: A.G. Boni, C. Chirila, L. Trupina, C. Radu, L.D. Filip, V. Moldoveanu, I. Pintilie, …
Journal: ACS Applied Electronic Materials
Year: 2023

Conclusion

Florentina-Cristina Chirila exemplifies excellence in applied physics and material science through her deep technical expertise, consistent scientific output, and leadership in multidisciplinary projects. Her ability to lead high-value research and collaborate across international borders underscores her value to the global scientific community. She stands as a role model for future generations of researchers.

Dr. Mohamad Abdelaal | Experimental Methods | Best Researcher Award

IKI RAS | Russia

Mohamad Essam Abdelaal is a multidisciplinary space scientist and geophysicist with expertise spanning planetary science, electromagnetic phenomena, and geophysical exploration. His career integrates advanced academic research with engineering experience, particularly in studying dust particle dynamics in planetary atmospheres. Mohamad has worked across international research institutes and industry, contributing to space missions and developing instruments for electromagnetic and particle detection. His background includes seismic data processing, remote sensing, and geophysical prospecting. Through his publications and hands-on work, he has significantly contributed to understanding atmospheric discharge phenomena on Mars and the Moon. With a strong foundation in both theoretical and applied sciences, Mohamad bridges space exploration and environmental geophysics, shaping innovative solutions in planetary research.

Profiles

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Education

Mohamad Essam Abdelaal completed his academic journey in top institutions specializing in geosciences and space sciences. His doctoral research focused on electromagnetic phenomena arising from dust particle dynamics in planetary environments. He holds a master’s degree in Earth sciences with specialized training in mining geology and seismic data filtering. His pre-master’s education emphasized geomagnetic pulsations and electrodynamic coupling using satellite and ground-based observations. He began his academic path with a bachelor’s degree in geosciences, concentrating on geothermal energy and geophysical analysis. His education combines theoretical insight with practical training, including international exchange studies and interdisciplinary fieldwork. This academic trajectory has equipped him with the analytical, experimental, and computational skills necessary to advance planetary and space research.

Professional Experience

Mohamad Essam Abdelaal has extensive professional experience in space science, engineering, and geophysical exploration. At a major space research institute, he has led experiments investigating planetary surfaces, developing instruments for electromagnetic measurements and dust analysis. He contributes to lunar and Martian mission data interpretation and instrument calibration. In the private sector, he has worked as a geophysicist, managing surveys and data interpretation using advanced software tools. His earlier roles included engineering positions in solar energy and space applications, where he implemented georadar and electric prospecting techniques. He has also taught undergraduate physics and led laboratory sessions, integrating research with education. His professional path merges scientific exploration, engineering precision, and academic instruction in multidisciplinary environments.

Awards and Honors

Mohamad Essam Abdelaal has been recognized for academic merit, innovation, and leadership through multiple scholarships and awards. He received competitive government-funded scholarships for both his doctoral and master’s studies, reflecting academic excellence and research potential. His entrepreneurial mindset earned him recognition in a global leadership program focused on innovation and future technologies. An award from a global tech company enabled him to complete specialized training in cloud computing, further enhancing his technical profile. He was also selected for a competitive international exchange program to advance his knowledge in mining and geophysics. These honors highlight his commitment to continuous learning, technical advancement, and cross-disciplinary collaboration, positioning him as a leader in both scientific and technological domains.

Research Focus

Mohamad Essam Abdelaal’s research focuses on the interaction between charged dust particles and electromagnetic fields in planetary environments such as Mars, the Moon, and atmosphereless bodies. He develops instruments to measure low-frequency electromagnetic noise and models discharge phenomena that occur under extraterrestrial atmospheric conditions. His experimental work simulates Martian and lunar environments, investigating plasma-like behavior and the generation of electromagnetic radiation. In addition, his research extends to seismic noise filtering and geophysical prospecting for critical minerals. He combines laboratory experimentation, field data interpretation, and numerical modeling, using programming tools to analyze and visualize complex datasets. His interdisciplinary approach contributes valuable insights to space weather, planetary surface processes, and the design of future exploratory missions.

Notable Publications

Electromagnetic Noise in the Near-Surface Martian Atmosphere: Research Methods
Authors: Mohamad Abdelaal
Journal: Solar System Research
Year: 2025

Circumlunar Dusty Plasma: Main Physical Processes and Experimental Data Obtained during the “Luna-25” Mission
Authors: Popel, S.I.; Zelenyi, L.M.; Zakharov, A.V.; Kuznetsov, I.A.; Dol’nikov, G.G.; Lyash, A.N.; Shashkova, I.A.; Kartasheva, A.A.; Dubov, A.E.; Abdelaal, M.E.
Journal: Plasma Physics Reports
Year: 2024

Experimental Modeling of Atmospheric Discharge Phenomena and Charged Dust Particle Interactions
Authors: Abdelaal, M.E.; Dokuchaev, I.V.; Malinovskaya, E.A.; Klimov, S.I.; Dolnikov, G.G.; Zakharov, A.V.
Journal: Frontiers in Astronomy and Space Sciences
Year: 2024

Experimental Study of the Influence of UV Radiation on the Activation of Regolith Dust Particle Simulators on Atmosphereless Bodies
Authors: Kuznetsov, I.A.; Shashkova, I.A.; Lyash, A.N.; Poroikov, A.Y.; Bednyakov, S.A.; Kronrod, E.V.; Dolnikov, G.G.; Dubov, A.E.; Voshchan, O.N.; Abdelaal, M.E.
Journal: Astronomy Reports
Year: 2024

Dust Complex for Studying the Dust Particle Dynamics in the Near-Surface Atmosphere of Mars
Authors: Zakharov, A.V.; Dolnikov, G.G.; Kuznetsov, I.A.; Lyash, A.N.; Esposito, F.; Molfese, C.; Rodríguez, I.A.; Seran, E.; Godefroy, M.; Dubov, A.E.; Abdelaal, M.E.
Journal: Solar System Research
Year: 2022

Conclusion

Mohamad Essam Abdelaal is a dynamic space and geophysical scientist whose expertise connects planetary research, electromagnetic analysis, and instrument development. His contributions span academic, experimental, and industrial domains, supported by strong computational and technical skills. With a track record of innovation and international collaboration, he continues to drive forward research in planetary exploration and atmospheric physics. His ability to unify scientific theory with practical applications makes him a valuable asset in advancing planetary science and future space missions.