Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

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Assist. Prof. Dr. Dinesh Kumar Chaudhary | Physics | Research Excellence Award

Assistant Professor | Tribhuvan University | Nepal

Assist. Prof. Dr. Dinesh Kumar Chaudhary is an accomplished academic and researcher with strong expertise in Physics, actively contributing to experimental and applied Physics with emphasis on semiconductor Physics, materials Physics, sensor Physics, and nanostructured systems. His work in Physics integrates thin film Physics, gas sensing Physics, optical Physics, and electrical Physics, demonstrating consistent advancement of Physics driven solutions for real world applications. He has authored multiple peer reviewed publications in reputed journals, reflecting sustained impact in Physics research and interdisciplinary Physics collaboration with international scientists. His Physics contributions have supported advancements in sensing technologies, energy related Physics applications, and applied Physics methodologies relevant to industry and society. Through active collaboration, peer review service, and scholarly dissemination, he strengthens the global Physics community and promotes responsible Physics research aligned with societal needs. His academic service and research engagement highlight a commitment to high quality Physics education, innovation in Physics experimentation, and knowledge transfer through Physics based solutions that support technological and environmental progress. Scopus profile of 277 Citations, 24 Documents, 11 h index.

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Sensing Performance of a ZnO-based Ammonia Sensor

Journal of Physical Science, 2022
Cited by 40

Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

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Dr. Anca Melintescu | Nuclear Physics | Research Excellence Award

Senior Scientist First Degree equivalent to Professor | Horia Hulubei National Institute of Physics and Nuclear Engineering | Romania

Dr. Anca Melintescu is an internationally recognized researcher whose work demonstrates sustained excellence in Nuclear Physics with a strong focus on Nuclear Physics applications to environmental systems, radiological impact assessment, and risk modeling. Her expertise in Nuclear Physics integrates advanced mathematical modeling, Nuclear Physics based transfer processes of radionuclides, and Nuclear Physics driven assessment frameworks used at global level. She has authored and coauthored more than forty peer reviewed scientific publications, with extensive citations reflecting the relevance of her Nuclear Physics contributions. Her research collaborations span major international institutions and agencies, where her Nuclear Physics knowledge supports harmonized methodologies, decision support tools, and scientific guidance. Through advisory roles and editorial activities, she has strengthened the global Nuclear Physics research ecosystem and ensured high scientific standards. Her work in Nuclear Physics has delivered measurable societal impact by improving environmental safety, public exposure assessment, and policy relevant decision making. Her sustained leadership and collaboration in Nuclear Physics continue to influence international best practices and scientific innovation. Scopus profile of 519 Citations, 44 Documents, 14 h-index.

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Featured Publications

Prof. Elvira Rossi | High Energy Physics | Research Excellence Award

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Prof. Elvira Rossi | High Energy Physics | Research Excellence Award

Associate Professor in Particle Physics | University of Naples Federico II | Italy

Prof. Elvira Rossi is a leading experimental scientist whose contributions have significantly advanced global High Energy Physics through pioneering research, interdisciplinary collaborations, and influential work within major international laboratories. Her research spans fundamental interactions, precision measurements, detector technologies, artificial intelligence applications, and large-scale data analysis, reinforcing the core pillars of modern High Energy Physics. She has played a major role in collaborations dedicated to High Energy Physics, including long-standing involvement in ATLAS and activities connected to future collider programs, where her work supports advancements in particle detection, trigger systems, calibration studies, and complex reconstruction strategies. Her scientific output reflects deep engagement with High Energy Physics, with impactful publications, extensive citation influence, and a strong presence across collaborative research networks. She has contributed to major discoveries, precision analyses, high-performance computing initiatives, and methodological innovations that benefit the broader High Energy Physics community and society through technological transfer, scientific outreach, and the development of advanced computational frameworks. Her sustained commitment to High Energy Physics, combined with her leadership roles and contributions to detector development and data-driven analysis, highlights her as a prominent figure shaping the future directions of High Energy Physics at the global level. Professional research metrics Scopus profile of 70403 Citations, 1211 Documents, 126 h-index.

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Featured Publications

Zhen Wang | Nuclear Physics | Research Excellence Award

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Mr. Zhen Wang | Nuclear Physics | Research Excellence Award

Associate Professor | China Institute for Radiation Protection | China

Mr. Zhen Wang is a dedicated researcher whose work reflects a strong commitment to advancing Nuclear Physics through practical innovation and scientific rigor. His professional contributions focus on Nuclear Physics applications in nuclear air cleaning technology and radioactive gas purification, where he has played a meaningful role in strengthening safety standards within environments that rely on Nuclear Physics operational systems. Through his continuous involvement in research activities, Mr. Zhen Wang has developed insights that support the progress of experimental and applied Nuclear Physics, especially in areas that intersect environmental protection and radiation control. His engagement with Nuclear Physics has allowed him to participate in collaborative studies that enhance purification mechanisms and improve technological frameworks used in Nuclear Physics laboratories and industrial facilities. He has contributed to research efforts that integrate Nuclear Physics with engineering based solutions, generating outcomes that offer societal benefits by promoting safer handling of radioactive materials. His professional path demonstrates a consistent alignment with Nuclear Physics oriented problem solving, supported by active participation in projects related to environmental radiation management. Mr. Zhen Wang continues to strengthen his expertise in Nuclear Physics by contributing to scientific discussions, sharing research findings, and engaging with multidisciplinary teams that focus on practical improvements within Nuclear Physics systems. His growing scholarly presence supports broader goals in Nuclear Physics and reinforces the importance of developing technologies that protect public health and environmental stability. His ongoing work reflects precision, analytical depth, and a sustained commitment to research advancement within the global Nuclear Physics community. This profile acknowledges his contribution to Nuclear Physics and highlights his continued dedication to meaningful scientific development. Scopus profile of 11 Citations, 3 Documents, 3 h-index.

Profile: Scopus

Featured Publication

1. Study on fire safety assessment of nuclear grade activated carbon. Progress in Nuclear Energy. (2024)

Assist. Prof. Dr. Mohsen Zahir Joozdani | Particle accelerators | Editorial Board Member

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Assist. Prof. Dr. Mohsen Zahir Joozdani | Particle accelerators | Editorial Board Member

Assistant Professor | Niroo Research Institute (NRI) | Iran

Assist. Prof. Dr. Mohsen Zahir Joozdani is a distinguished researcher and academic whose work demonstrates remarkable contributions to the advancement of particle accelerators and applied physics. His research integrates advanced particle accelerators technology with experimental and computational methods, focusing on innovative developments that enhance scientific understanding and industrial applications. As a leading figure in the field of particle accelerators, he has authored and co-authored numerous research articles in reputed international journals, contributing significantly to the global scientific community. His professional achievements reflect a deep commitment to excellence in particle accelerators engineering and the pursuit of transformative solutions through interdisciplinary collaboration. Assist. Prof. Dr. Mohsen Zahir Joozdani’s research impact extends across diverse areas, where particle accelerators serve as the core foundation for breakthroughs in energy systems, material characterization, and radiation science. He has actively collaborated with renowned researchers and institutions, promoting cross-border scientific partnerships that advance the performance, safety, and sustainability of particle accelerators. Driven by innovation, his scholarly work has established new analytical frameworks and experimental methodologies, shaping the next generation of particle accelerators research. His scientific influence has not only elevated academic standards but also inspired a global audience of scientists and engineers dedicated to the advancement of particle accelerators and their real-world applications. His continuous dedication to the exploration of particle accelerators underlines his role as a visionary academic whose expertise continues to impact the future of scientific discovery. Scopus profile of 191 Citations, 16 Documents, 6 h-index.

Profile: Scopus

Featured Publication

1. A novel electromagnetic analysis of a TM02 mode dielectric assist accelerating structure. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024.

Dr. Atangana Likéné André Aimé | High Energy Physics | Best Researcher Award

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Dr. Atangana Likéné André Aimé | High Energy Physics | Best Researcher Award

Post-Doctoral Researcher | University of Geneva | Switzerland

Dr. Atangana Likéné André Aimé is a distinguished researcher in High Energy Physics with expertise spanning Nuclear Physics, Particle Physics, and Radiation Protection. His academic background, marked by advanced degrees in Physics, reflects a strong foundation in theoretical and applied High Energy Physics. Professionally, he has served as a Research Officer at the Research Center of Nuclear Science and Technology, a Lecturer at the University of Yaoundé I, and a Post-Doctoral Researcher affiliated with the ATLAS Experiment at CERN, contributing to global advancements in High Energy Physics. His research interests include Quantum Chromodynamics, quark confinement, nuclear decay, and the application of machine learning to High Energy Physics phenomena. Dr. Atangana’s excellence in research has earned him notable honors, including the Best Researcher Award in High Energy Physics, academic scholarships, and leadership roles in scientific collaborations. His skills encompass symbolic computation, scientific programming, and Monte Carlo simulations, all pivotal in modern High Energy Physics modeling and analysis. With an active presence in international conferences and publications across prestigious journals like Nuclear Physics A, European Physical Journal C, and Modern Physics Letters A, he continues to advance High Energy Physics through innovative theoretical frameworks and computational methods. His dedication to advancing knowledge and mentoring the next generation of scientists underscores his professional integrity and global recognition. Scopus profile of 37 Citations, 24 Documents, 3 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Ahmadou, K., Atangana Likéné, A., Mbida Mbembe, S., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Unveiling nuclear energy excitations and staggering effect in the γ-band of the isotope chain 180−196Pt. International Journal of Modern Physics E.

2. Atangana Likéné, A. A., Ndjana Nkoulou, J. E. II, Oumar Bobbo, M., & Saidou. (2025). Analytical solutions of the 222Rn radon diffusion-advection equation through soil using Atangana–Baleanu time fractional derivative. Indian Journal of Physics.

3. Nga Ongodo, D., Atangana Likéné, A. A., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Effect of spin-spin interaction and fractional order on heavy pentaquark masses under topological defect space-times. The European Physical Journal C.

4. Nga Ongodo, D., Atangana Likéné, A. A., Zarma, A., Ema’a Ema’a, J. M., Ele Abiama, P., & Ben-Bolie, G. H. (2025). Hyperbolic tangent form of sextic potential in Bohr Hamiltonian: Analytical approach via extended Nikiforov–Uvarov and Heun equations. International Journal of Modern Physics E.

5. Atangana Likéné, A. A., Ndjana Nkoulou, J. E. II, & Saidou. (2025). Angular momentum dependence of nuclear decay of radon isotopes by emission of 14C nuclei and branching ratio relative to α-decay. The European Physical Journal Plus.

Prof. Nikolai V. Gaponenko | Physics | Best Researcher Award

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Prof. Nikolai V. Gaponenko | Physics | Best Researcher Award

Professor | Belarusian State University of Informatics and Radioelectronics  | Belarus

Prof. Nikolai V. Gaponenko, a distinguished figure in physics, serves as Head of the Laboratory of Nanophotonics at the Belarusian State University of Informatics and Radioelectronics, where his extensive contributions to solid-state physics and nanophotonics have gained international recognition. His education in physics laid a robust foundation for pioneering research in optically anisotropic materials and sol-gel synthesis within the physics of photonic band gap structures. Throughout his professional experience, Prof. Gaponenko has led numerous interdisciplinary physics collaborations with global institutes, advancing luminescence technologies and nanostructure fabrication. His physics research encompasses photonic crystals, perovskite nanocomposites, and upconversion luminescence phenomena, with over a hundred high-impact publications and patents that redefine the role of physics in material design. Honored with several research distinctions, he has strengthened Belarus’s scientific presence through innovative physics-based solutions for electronic and photonic applications. His exceptional physics skills include experimental synthesis, spectroscopic analysis, and photonic modeling that bridge theory and engineering in nanophotonics. As an educator and physicist, he integrates practical and theoretical physics with creativity and leadership, inspiring scientific excellence. Prof. Nikolai V. Gaponenko’s career embodies the transformative potential of physics in shaping sustainable technological progress through deep insight, research integrity, and global collaboration.

Profiles: Google Scholar | ORCID

Featured Publications

1. Bogomolov, V. N., Gaponenko, S. V., Germanenko, I. N., Kapitonov, A. M., et al. (1997). Photonic band gap phenomenon and optical properties of artificial opals. Physical Review E, 55(6), 7619.

2. Dorofeev, A. M., Gaponenko, N. V., Bondarenko, V. P., Bachilo, E. E., Kazuchits, N. M., et al. (1995). Erbium luminescence in porous silicon doped from spin‐on films. Journal of Applied Physics, 77(6), 2679–2683.

3. Gaponenko, N. V., Davidson, J. A., Hamilton, B., Skeldon, P., Thompson, G. E., et al. (2000). Strongly enhanced Tb luminescence from titania xerogel solids mesoscopically confined in porous anodic alumina. Applied Physics Letters, 76(8), 1006–1008.

4. Lutich, A. A., Gaponenko, S. V., Gaponenko, N. V., Molchan, I. S., Sokol, V. A., et al. (2004). Anisotropic light scattering in nanoporous materials: A photon density of states effect. Nano Letters, 4(9), 1755–1758.

5. Gaponenko, N. V. (2001). Sol–gel derived films in meso-porous matrices: porous silicon, anodic aluminum and artificial opals. Synthetic Metals, 124(1), 125–130.

Dr. Abouzar Bahari | Nuclear Physics | Best Researcher Award

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Dr. Abouzar Bahari | Nuclear Physics | Best Researcher Award

CEO | Bahari Research and Development | Oman

Dr. Abouzar Bahari is a distinguished scholar and researcher whose academic and professional journey reflects a deep commitment to Nuclear Physics, with a Ph.D. in Nuclear Physics from Payame-Noor University, alongside advanced studies in Genetics, Petroleum Engineering, and Mining Engineering, enabling him to bridge multidisciplinary fields through innovative research. His career includes leadership as CEO and Founder of Bahari Research and Development in Muscat, Oman, invited lectureships at Ferdowsi University of Mashhad, and extensive engineering experience in oil and gas production, all while advancing Nuclear Physics research through Monte Carlo simulations, particle radiation modeling, relativity, zero-point field analysis, and electromagnetic field applications in health sciences. His Nuclear Physics dissertation on predicting rock and fault failure has been recognized with prestigious awards, including a Best Researcher Award, and his consistent ranking among top graduates further validates his expertise. As a prolific contributor to scientific journals, reviewer, and editorial board member, Dr. Bahari has authored impactful works on earthquake precursors, neutron interactions, and Nuclear Physics-based simulations. His research interests span physics, cancer therapy with ultra-low frequency fields, and interdisciplinary applications of Nuclear Physics in geology, health, and energy systems. With advanced computational and simulation skills in MCNPX, MATLAB, Python, and visualization software, he combines technical mastery with scientific creativity. Overall, Dr. Bahari exemplifies how Nuclear Physics can integrate with diverse domains to generate solutions with global impact, and his career stands as a model of excellence in research, innovation, and education.

Profiles: Google Scholar | ORCID

Featured Publications

1. Bahari, A., & Seyed, A. B. (2007, April). Trust-region approach to find constants of Bourgoyne and Young penetration rate model in Khangiran Iranian gas field (SPE-107520-MS). SPE Latin America and Caribbean Petroleum Engineering Conference, Buenos Aires, Argentina. Society of Petroleum Engineers.

2. Bahari, A., & Baradaran Seyed, A. (2009). Drilling cost optimization in a hydrocarbon field by combination of comparative and mathematical methods. Petroleum Science, 6(4), 451–463.

3. Moradi, H., Bahari, M. H., Sistani, M. B. N., & Bahari, A. (2010). Drilling rate prediction using an innovative soft computing approach. Scientific Research and Essays, 5(13), 1583–1588.

4. Bahari, M. H., Bahari, A., Moharrami, F. N., & Sistani, M. B. (2008). Determining Bourgoyne and Young model coefficients using genetic algorithm to predict drilling rate. Journal of Applied Sciences, 8(17), 3050–3054.

5. Hassan, B. M., Aboozar, B., & Hamidreza, M. (2011). Intelligent drilling rate predictor. International Journal of Innovative Computing, Information and Control, 7(4), 1425–1436.

Dr. Iulia Antohe | Particle Experiments | Best Researcher Award

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Dr. Iulia Antohe | Particle Experiments | Best Researcher Award

Scientific Researcher at National Institute for Lasers, Plasma and Radiation Physics | Romania

Dr. Iulia Antohe is a dedicated scientist working in the field of lasers, plasmonics, and nanomaterials with strong expertise in Particle Experiments. She has developed advanced biosensors and sensors for healthcare, environmental, and industrial applications. Her Particle Experiments research integrates physics, chemistry, and engineering to design fiber optic and surface plasmon resonance systems. Through extensive collaborations, she advances innovative solutions for diagnostics and sensing platforms. Her Particle Experiments contributions strengthen interdisciplinary innovation. With a background in bioscience engineering, physics, and nanotechnology, Dr. Iulia Antohe combines analytical skills and creativity to address complex scientific challenges through Particle Experiments with real-world impact.

Professional Profiles

Google Scholar Profile | ORCID Profile

Education 

Dr. Iulia Antohe has a strong academic background with achievements rooted in Particle Experiments. She holds a Ph.D. in Bioscience Engineering from KU Leuven, focusing on fiber optic surface modifications for improved plasmonic biosensing. Her education includes master and bachelor programs in physics with emphasis on nanostructures, optoelectronics, and medical physics. She gained international experience through visiting research roles in Spain and Belgium, enhancing her understanding of Particle Experiments in nanoscience and bioengineering. This educational pathway developed her expertise in synthesis, characterization, and application of nanomaterials, preparing her to contribute advanced Particle Experiments approaches to modern sensing and diagnostic technologies.

Experience 

Dr. Iulia Antohe has extensive professional experience in Particle Experiments within advanced laser and biosensor research. At the National Institute for Lasers, Plasma and Radiation Physics, she progressed from early-stage researcher to senior scientific researcher. Her roles include development of FO-SPR sensors, gas sensors, and biofunctionalized nanomaterials, combining multidisciplinary Particle Experiments with biomedical, environmental, and industrial objectives. She managed national and international projects, supervised students, and authored impactful publications. Her earlier work as a Marie Curie fellow in Belgium strengthened her expertise in biosensing and assay development. Through Particle Experiments, she continues to advance cutting-edge sensor technologies and contribute to the global scientific community.

Research Interest 

Dr. Iulia Antohe’s research interests center around Particle Experiments in sensors, nanomaterials, and plasmonic platforms. She explores the synthesis and functionalization of magnetic and gold particles, integrating them into fiber optic systems for healthcare diagnostics, food safety, and environmental monitoring. Her Particle Experiments expand into bioassay development, polymer-based sensing, and hybrid material applications. She is dedicated to bridging the gap between fundamental research and applied technologies, making Particle Experiments vital for innovative solutions. This includes advanced optical fiber plasmonic sensors, responsive polymers, and smart diagnostic platforms that support rapid, sensitive, and reliable measurements across multiple scientific and industrial domains.

Award and Honor

Dr. Iulia Antohe has received multiple awards and honors recognizing her Particle Experiments excellence. Among them are Best Poster Awards at international conferences, Young Scientist Awards, and special mentions for outstanding research contributions. She has been honored as an IOP Outstanding Reviewer for Nanotechnology and Materials Research Express, acknowledging her leadership in scientific quality. Her Particle Experiments-based projects received funding from prestigious institutions, including L’Oréal-UNESCO for Women in Science. These recognitions validate her commitment to advancing knowledge through Particle Experiments and highlight her role as a prominent contributor in multidisciplinary scientific research communities worldwide.

Research Skill

Dr. Iulia Antohe possesses a versatile set of research skills tailored for Particle Experiments innovation. She is proficient in nanomaterial synthesis, including gold and magnetic particles, thin-film deposition, and polymer coatings. Her analytical skills cover structural, morphological, electrical, and optical characterization essential for advanced Particle Experiments. She excels in biosensor design, fiber optic integration, and assay optimization for medical and environmental diagnostics. Project management, scientific writing, mentoring, and international collaboration further strengthen her Particle Experiments impact. Her ability to translate fundamental findings into applied sensing technologies reflects her technical precision, innovation, and leadership in complex multidisciplinary research environments.

Publication Top Notes 

Title: Smart design of fiber optic surfaces for improved plasmonic biosensing
Journal: New Biotechnology
Authors: I Arghir, F Delport, D Spasic, J Lammertyn
Citation: 90

Title: Improved surface plasmon resonance biosensing using silanized optical fibers
Journal: Sensors and Actuators B: Chemical
Authors: I Arghir, D Spasic, BE Verlinden, F Delport, J Lammertyn
Citation: 63

Title: A polyaniline/platinum coated fiber optic surface plasmon resonance sensor for picomolar detection of 4-nitrophenol
Journal: Scientific Reports
Authors: I Antohe, I Iordache, VA Antohe, G Socol
Citation: 42

Title: Nanoscale patterning of gold-coated optical fibers for improved plasmonic sensing
Journal: Nanotechnology
Authors: I Antohe, D Spasic, F Delport, J Li, J Lammertyn
Citation: 42

Title: Thermal annealing of gold coated fiber optic surfaces for improved plasmonic biosensing
Journal: Sensors and Actuators B: Chemical
Authors: I Antohe, K Schouteden, P Goos, F Delport, D Spasic, J Lammertyn
Citation: 41

Title: Cadmium ions’ trace-level detection using a portable fiber optic—Surface plasmon resonance sensor
Journal: Biosensors
Authors: BG Şolomonea, LI Jinga, VA Antohe, G Socol, I Antohe
Citation: 32

Title: Sensitive pH Monitoring Using a Polyaniline-Functionalized Fiber Optic—Surface Plasmon Resonance Detector
Journal: Sensors
Authors: I Antohe, LI Jinga, VA Antohe, G Socol
Citation: 29

Title: Transparent indium zinc oxide thin films used in photovoltaic cells based on polymer blends
Journal: Thin Solid Films
Authors: C Besleaga, L Ion, V Ghenescu, G Socol, A Radu, I Arghir, C Florica, ...
Citation: 25

Title: Synthesis and anti-melanoma activity of L-cysteine-coated iron oxide nanoparticles loaded with doxorubicin
Journal: Nanomaterials
Authors: LI Toderascu, LE Sima, S Orobeti, PE Florian, M Icriverzi, VA Maraloiu, ...
Citation: 22

Title: Production and characterization of CdTe wire arrays for hybrid inorganic/organic photovoltaic cells
Journal: Digest Journal of Nanomaterials and Biostructures
Authors: C Florica, I Arghir, L Ion, I Enculescu, VA Antohe, A Radu, M Radu, ...
Citation: 15

Title: Study of a new composite based on SnO2 nanoparticles—P3HT: PC71BM co-polymer blend, used as potential absorber in bulk heterojunction photovoltaic cells
Journal: Materials Today Communications
Authors: AI Radu, VA Antohe, S Iftimie, I Antohe, M Filipescu, A Radu, D Coman, ...
Citation: 10

Title: Study of electrical and optical properties of ITO/PEDOT/P3HT: PCBM (1: 1)/LiF/Al photovoltaic structures
Journal: Journal of Optoelectronics and Advanced Materials
Authors: S Iftimie, A Majkic, C Besleaga, VA Antohe, A Radu, M Radu, I Arghir, ...
Citation: 8

Title: Morphological, Optical and Electrical Properties of RF-Sputtered Zinc Telluride Thin Films for Electronic and Optoelectronic Applications
Journal: AIP Advances
Authors: A.M. Panaitescu, I. Antohe, A.M. Răduță, S. Iftimie, Ș. Antohe, C.N ...
Citation: 7

Title: Aluminum doped zinc oxide nanoplatelets based sensor with enhanced hydrogen sulfide detection
Journal: Scientific Reports
Authors: B Ydir, A Ajdour, I Antohe, G Socol, M Socol, LI Toderascu, D Saadaoui, ...
Citation: 5

Title: Effect of the cadmium telluride deposition method on the covering degree of electrodes based on copper nanowire arrays
Journal: Applied Sciences
Authors: AM Panaitescu, I Antohe, C Locovei, S Iftimie, Ş Antohe, L Piraux, ...
Citation: 5

Title: Shaping in the Third Direction; Fabrication of Hemispherical Micro-Concavity Array by Using Large Size Polystyrene Spheres as Template for Direct Self-Assembly of Small Size …
Journal: Polymers
Authors: I Sandu, CT Fleaca, F Dumitrache, BA Sava, I Urzica, I Antohe, ...
Citation: 5

Title: Shaping in the Third Direction; Synthesis of Patterned Colloidal Crystals by Polyester Fabric-Guided Self-Assembly
Journal: Polymers
Authors: I Sandu, CT Fleaca, F Dumitrache, BA Sava, I Urzica, I Antohe, ...
Citation: 5

Title: Shaping in the Third Direction: Self-Assembly of Convex Colloidal Photonic Crystals on an Optical Fiber Tip by Hanging Drop Method
Journal: Polymers
Authors: I Sandu, I Antohe, CT Fleaca, F Dumitrache, I Urzica, S Brajnicov, ...
Citation: 4

Title: Cobalt ions detection using an evanescent wave optical fiber sensor
Journal: Romanian Reports in Physics
Authors: I Antohe
Citation: 4

Title: Mechanism of nonpolar model substances to inhibit primary gushing induced by hydrophobin HFBI
Journal: Journal of Agricultural and Food Chemistry
Author(s): Z Shokribousjein, D Riveros Galan, P Losada-Pérez, P Wagner, ...
Citation: 4

Conclusion

Dr. Iulia Antohe’s career exemplifies excellence in Particle Experiments through education, research, and innovation. Her work integrates advanced physics, materials science, and engineering to create impactful sensor technologies addressing real-world challenges. Her Particle Experiments contributions enhance healthcare diagnostics, environmental monitoring, and food safety systems. With international training, project leadership, and recognized expertise, she stands out as a scientist who bridges fundamental discovery with applied solutions. The consistent integration of Particle Experiments in her work reflects a commitment to progress, collaboration, and scientific integrity, ensuring that her contributions will continue to influence and inspire future developments in modern sensing technologies.