Mrs. Maryam Jahanbakhshi | Electromagnetism | Research Excellence Award

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Mrs. Maryam Jahanbakhshi | Electromagnetism | Research Excellence Award

Mrs. Maryam Jahanbakhshi | University of West Bohemia | Czech Republic

Maryam Jahanbakhshi is a researcher in electrical engineering whose work centers on advanced antenna systems, RF and microwave circuit design, and high-performance communication technologies, contributing extensively to innovations in satellite communication, IoT networks, LTE systems, and radar applications; she has developed collinear array antennas with switched beamforming, compact microstrip lowpass filters with harmonic suppression, wideband Wilkinson power dividers, resonator-based miniaturized circuits, and tri-band filters tailored for modern communication requirements, while also advancing 3D antenna array concepts for next-generation ground stations and IoT gateways; her expertise extends to analyzing real 5G signals, designing and measuring patch antennas, and conducting high-frequency hardware evaluation using electromagnetic simulation tools and precision measurement equipment; she integrates theoretical modeling with hands-on fabrication, prototyping, and calibration, producing impactful research published across respected journals and international conferences; her work reflects strong command of RF simulation environments, circuit design platforms, and microwave analysis techniques, paired with practical experience in software testing, automated validation workflows, and functional safety frameworks, enabling her to bridge communication engineering with system-level reliability; her contributions continue to support the development of compact, efficient, and technologically advanced RF, microwave, and antenna systems that meet the evolving demands of modern wireless communication.

Profile: Google Scholar

Featured Publications

Siahkamari, H., Yasoubi, Z., Jahanbakhshi, M., Mousavi, S. M. H., & Siahkamari, P. (2018). Design of compact Wilkinson power divider with harmonic suppression using T-shaped resonators. Frequenz, 72(5-6), 253–259.

Jahanbakhshi, M., & Hayati, M. (2016). Design of a compact microstrip lowpass filter with sharp roll-off using combined T-shaped and L-shaped resonators. Electronics Letters, 52(23), 1931–1933.

Siahkamari, H., Jahanbakhshi, M., Al-Anbagi, H. N., Abdulhameed, A. A., … (2022). Trapezoid-shaped resonators to design compact branch line coupler with harmonic suppression. AEU - International Journal of Electronics and Communications, 144, 154032.

Jahanbakhshi, M., Hayati, M., & Veřtat, I. (2022). Prototype of compact microstrip lowpass filter for active phased antenna array with ultra-wide stopband using funnel shaped resonator. In 2022 International Conference on Applied Electronics (AE) (pp. 1–4).

Siahkamari, H., Lotfi, S., Tahmasbi, M., Blecha, T., … Jahanbakhshi, M. (2022). Design and analysis of a compact and harmonic suppressed microstrip lowpass filter. International Journal of Engineering & Technology Sciences, 1–12.

Dr. Geetha D. V. | Crystallography | Best Researcher Award

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Dr. Geetha D. V. | Crystallography | Best Researcher Award

Dr. Geetha D. V. | University of Mysore | India

Dr. Geetha D. V.’s research primarily focuses on the structural analysis and characterization of biologically and medicinally relevant compounds. She extensively utilizes X-ray crystallography and powder diffraction techniques to elucidate the three-dimensional structures of heterocyclic compounds, chalcones, indole derivatives, and hydrazones, providing detailed insights into their molecular packing and intermolecular interactions. Her work integrates quantum chemical computations, particularly Density Functional Theory (DFT), to investigate electronic properties, spectroscopic behavior, and reactivity patterns of novel molecules. She applies molecular docking and molecular dynamics simulations to study ligand–protein interactions, with special attention to antiviral targets like SARS-CoV-2 proteins, highlighting critical residues and interaction mechanisms. Additionally, Dr. Geetha explores Hirshfeld surface analysis to visualize and quantify intermolecular contacts and non-covalent interactions. Her research extends to the design and synthesis of novel heterocyclic molecules, combining experimental and computational approaches for structure–activity correlation. She has contributed to understanding drug-like properties, binding affinities, and stability profiles of therapeutic candidates. Her studies also involve electrostatic potential mapping, frontier molecular orbital analysis, and hydrogen-bonding evaluation, providing predictive insights for biological activity. The integration of crystallography, computational chemistry, and in-silico studies allows her to develop a comprehensive understanding of molecular behavior in both solid-state and biological environments. Her work consistently emphasizes innovation, molecular-level insight, and application to pharmacologically relevant systems, bridging experimental and theoretical chemistry. Dr. Geetha’s research contributes to rational drug design, molecular recognition studies, and advanced material analysis, reflecting a strong interdisciplinary approach in physical, computational, and medicinal chemistry.

Profile: Scopus 

Featured Publications

Karthik, V., Santhosh, C., Geetha, D. V., Chandini, K. M., Sindogi, K., Sridhar, M. A., & Sadashiva, M. P. (2026). Multifaceted exploration of benzyl 5-(p-tolyl)-1,3,4-thiadiazole-2-carboxylate: Spectroscopic, structural, and computational insights into its drug-like potential. Journal of Molecular Structure, 1350, 143963.

Geetha, D. V., Harisha, A. S., Karthik, V., Chanadana, S. N., Kavitha, H. D., Lakshminarayana, B. N., & Sridhar, M. A. (2026). X-ray structural analysis, quantum chemical computations, molecular docking, and molecular dynamics simulations of diethyl 5’-amino-3,3-dibromo-2,6-dicyano-1,2,3,4-tetrahydro-[1,1.3,1-terphenyl] 2,4-dicarboxylate. Journal of Molecular Structure, 1351, 144142.

Lakshminarayana, B. N., Sreenatha, N. R., Sharath, C. L., Geetha, D. V., Shivakumar, N., & Balakrishna, K. (2025). Synthesis and comparative investigations of DFT/B3LYP, B3PW91, CAM-B3LYP and HSEH1PBE methods applied to molecular structure, spectroscopic analysis, electronic properties of a novel hydrazone having triazole and pyrazole moiety. Results in Chemistry.

Al-Ostoot, F. H., Akhileshwari, P., Kameshwar, V. H., Geetha, D. V., Aljohani, M. S., Alharbi, H. Y., Khanum, S. A., & Sridhar, M. A. (2024). Structural and theoretical exploration of a multi-methoxy chalcone: Synthesis, quantum theory, electrostatics, molecular packing, DFT analysis, and in-silico anti-cancer evaluation. Heliyon, e33814.

Geetha, D. V., Sharath, C. L., Shivakumar, N., Lakshminarayana, B. N., Chandini, K. M., & Balakrishna, K. (n.d.). Novel series of hydrazones carrying pyrazole and triazole moiety: Synthesis, structural elucidation, quantum computational studies and antiviral activity against SARS-Cov-2.

Prof. Dr. Byoung Chul Cho | Biophysics | Best Researcher Award 

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Prof. Dr. Byoung Chul Cho | Biophysics | Best Researcher Award 

Prof. Dr. Byoung Chul Cho | Yonsei Cancer Center, Yonsei University College of Medicine | South Korea

Prof. Byoung Chul Cho’s distinguished academic journey began with biochemistry studies at Yonsei University and an honors exchange at Oregon State University, followed by medical training at Yonsei University College of Medicine and a visiting student experience at Harvard Medical School. His clinical career advanced through internship at Asan Medical Center, residency in internal medicine at Severance Hospital, and fellowship at Yonsei Cancer Center, leading to faculty roles from instructor to professor and leadership positions including Chief of the Lung Cancer Center and Director of the Yonsei New Il Han Institute for Integrative Lung Cancer Research. His research spans precision oncology, targeted therapies, immunotherapy, RET-altered and EGFR-mutated lung cancer, and translational studies linking mechanistic insights to clinical practice. His doctoral research on Sprouty2-mediated apoptosis laid the foundation for his later breakthroughs in lung cancer biology. He has played key roles in global clinical trials, including RET inhibitor studies and LEAP-008 immunotherapy combinations that shaped treatment standards. His prolific publications have established him as a global leader in thoracic oncology. He has earned major honors such as the Wunsch Medical Award, Boryeong Research Award, Yuhan Medical Award, Minister’s Commendation for Health Technology, and multiple Highly Cited Researcher recognitions from Clarivate. His excellence in teaching is shown through repeated Best Professor Awards at Yonsei University. His influence extends through active involvement in ASCO, ESMO, IASLC, SITC, and major Korean oncology societies. Prof. Cho’s impact continues to grow through innovative research, mentorship, and leadership that shape the future of precision lung cancer care worldwide.

Profile: Orcid

Featured Publications

Yang, J. C.-H., Lu, S., Hayashi, H., Felip, E., Spira, A. I., Girard, N., Kim, Y. J., Lee, S.-H., Ostapenko, Y., Danchaivijitr, P., et al. (2025). Overall survival with amivantamab–lazertinib in EGFR-mutated advanced NSCLC. New England Journal of Medicine. Advance online publication.

Krebs, M. G., Cho, B. C., Hiret, S., Han, J.-Y., Lee, K. H., Perez, C. L., De Braud, F., Haura, E. B., Sanborn, R. E., Yang, J. C.-H., et al. (2025). Amivantamab in participants with advanced NSCLC and MET exon 14 skipping mutations: Final results from the CHRYSALIS study. Journal of Thoracic Oncology.

Ahn, M.-J., Cho, B. C., Ohashi, K., Izumi, H., Lee, J.-S., Han, J.-Y., Chiang, C.-L., Huang, S., Hamidi, A., Mukherjee, S., et al. (2025). Asian subgroup analysis of patients in the phase 2 DeLLphi-301 study of tarlatamab for previously treated small cell lung cancer. Oncology and Therapy.

Lee, J. B., Shim, J. S., & Cho, B. C. (2025). Evolving roles of MET as a therapeutic target in NSCLC and beyond. Nature Reviews Clinical Oncology.

Park, S., Ahn, H. K., Lee, S., Min, Y. J., Kim, J., Jung, H. A., Sun, J.-M., Lee, S.-H., Ahn, J. S., Ahn, M.-J., et al. (2025). Lazertinib for patients with NSCLC harboring uncommon EGFR mutations: A phase II multicenter trial. Journal of Thoracic Oncology.

Dr. Adewumi Oluwole | Particle Physics | Best Researcher Award 

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Dr. Adewumi Oluwole | Particle Physics | Best Researcher Award 

Dr. Adewumi Oluwole | University of Pretoria | South Africa

Dr. Adewumi Olufemi Oluwole is a passionate research chemist specializing in the design, synthesis, and characterization of advanced nanocomposite materials for environmental remediation and energy storage applications. His work focuses on the degradation of pharmaceutical pollutants, agrochemicals, and industrial and domestic wastes using innovative photocatalytic and nanomaterial-based approaches. He has extensive expertise in graphitic carbon nitride, heterostructured nanocomposites, and ternary heterojunctions. Adewumi applies techniques such as XRD, FTIR, SEM-EDS, HRTEM, UV-Vis, PL, EIS, and BET to investigate material properties and performance. His research interests also include biosensor development, drug delivery systems, and renewable energy storage technologies. He has successfully synthesized novel nanomaterials with enhanced photocatalytic efficiency and energy storage capabilities. Adewumi has authored multiple high-impact publications in journals such as RSC Advances, Journal of Environmental Chemical Engineering, and Journal of Water Process Engineering. He is skilled in supervising and mentoring undergraduate and postgraduate students and managing complex research projects. Adewumi is experienced in presenting research findings at local and international conferences, demonstrating strong communication expertise. His work contributes significantly to sustainable environmental solutions and advanced material science. He is recognized for his innovative approaches in photocatalysis and pollutant degradation studies. Adewumi combines technical proficiency with effective project management and collaboration skills. His research continues to explore multifunctional nanocomposites for practical environmental and energy applications. Adewumi’s dedication to scientific innovation and academic excellence has positioned him as a leading researcher in environmental nanomaterials. His contributions have a notable impact on both fundamental research and applied chemical engineering solutions.

Profile: Google Scholar

Featured Publications

Oluwole, A. O., Omotola, E. O., & Olatunji, O. S. (2020). Pharmaceuticals and personal care products in water and wastewater: A review of treatment processes and use of photocatalyst immobilized on functionalized carbon in AOP degradation. BMC Chemistry, 14(1), 62.

Oluwole, A. O., & Olatunji, O. S. (2022). Photocatalytic degradation of tetracycline in aqueous systems under visible light irradiation using needle-like SnO₂ nanoparticles anchored on exfoliated g-C₃N₄. Environmental Sciences Europe, 34(1), 5.

Omotola, E. O., Oluwole, A. O., Oladoye, P. O., & Olatunji, O. S. (2022). Occurrence, detection and ecotoxicity studies of selected pharmaceuticals in aqueous ecosystems: A systematic appraisal. Environmental Toxicology and Pharmacology, 91, 103831.

Olufemi Oluwole, A., Khoza, P., & Olatunji, O. S. (2022). Synthesis and characterization of g-C₃N₄ doped with activated carbon (AC) prepared from grape leaf litters for the photocatalytic degradation of enrofloxacin. ChemistrySelect, 7(45), e202203601.

Oluwole, A. O., & Olatunji, O. S. (2023). Synthesis and characterization of binary bismuth tungstate-graphitic carbon nitride (BWO/g-C₃N₄) heterojunction nanocomposites for efficient photodegradation of ibuprofen in aqueous media. Journal of Water Process Engineering, 54,

 

Dr. Meena S | Chemistry | Editorial Board Member

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Dr. Meena S | Chemistry | Editorial Board Member

Dr. Meena S | Dayananda Sagar College of Engineering | India

Dr. Meena S is a prominent chemist specializing in the synthesis and characterization of multifunctional ferrite-based nanomaterials with applications in photocatalysis, antibacterial activity, and electrochemical sensing. Her research emphasizes green and sustainable methods, including biofuel- and plant-mediated synthesis of nanocomposites, spinel ferrites, and metal-doped materials. She has contributed to developing advanced heterojunction nanomaterials for energy harvesting, environmental remediation, and healthcare applications. Dr. Meena’s work integrates structural, optical, and electrochemical studies to optimize material performance for photocatalytic and sensor-based applications. She has published extensively in high-impact journals such as Inorganic Chemistry Communications, ACS Omega, RSC Advances, and Desalination and Water Treatment, highlighting her expertise in nanomaterials and electrochemical systems. Her research includes exploring S-scheme photocatalysis, carbon-based electrode composites, and ferrite-mediated degradation of pollutants. She actively coordinates and organizes international conferences, webinars, and faculty development programs, promoting knowledge sharing and innovation. Dr. Meena has served as a Special Issue Editor in nanomaterials, contributing to advancing the field through editorial leadership. She has received multiple awards for research excellence, oral presentations, and invited talks, reflecting her scientific impact. Her work bridges chemistry, materials science, and sustainable technology development. She is recognized for mentoring students and fostering research collaborations across disciplines. Her studies in visible-light-driven photocatalysis and electrochemical sensors demonstrate practical applications in environmental and healthcare monitoring. Dr. Meena emphasizes the integration of fundamental research with applied technologies for societal benefit. Her innovative approaches in nanomaterial synthesis and characterization continue to influence emerging research trends. Her ongoing work aims to expand applications of ferrite and heterojunction nanocomposites in energy, sensing, and environmental fields. She is a leading figure in advancing nanotechnology research with a focus on functional materials and green chemistry.

Profiles: Orcid | Google Scholar

Featured Publications

Maiti, N., Chawla, R., Illakiya, T., Mohan, C. R., Meena, S., Sen, S., & George, A. S. (2025). Enhancing telemedicine workflow through secure image transmission. In Title of the Book (pp. xx–xx). IGI Global.

Swamy, S., Gurushantha, K., Meena, S., Shashidhar, S., Srinatha, N., Anantharaju, K. S., Aruna Kumar, D. B., Soumya, C., Deepa, D., & Desai, N. R. (2024). Clove oil mediated combustion method synthesised Dy stabilized lanthanum ferrite: Its application as photocatalyst and antibacterial agent. Desalination and Water Treatment, 320, 100785.

Swamy, S., Gurushantha, K., Keshavamurthy, K., Meena, S., Sreenivasa, S., Soumya, C., Shashidhar, S., Desai, N. R., & Aruna Kumar, D. B. (2024). Green fuel mediated Europium doped lanthanum ferrites: Synthesis, characterization, and their application as photocatalyst and antibacterial agents. Inorganic Chemistry Communications.

Roopashree, B. N., Gurushantha, K., Nagaraju Kottam, & Meena, S. (2024). Recent review on S-scheme photocatalysis. Water, Air, & Soil Pollution, 235, 570.

Pompapathi, K., Anantharaju, K. S., Karuppasamy, P., Meena, S., Uma, B., Siddegowda, S. B., Chowdhury, A. P., & Murthy, H. C. A. (2024). Visible-light-driven Mentha spicata L.-mediated Ag-doped Bi₂Zr₂O₇ nanocomposite for enhanced degradation of organic pollutants, electrochemical sensing, and antibacterial applications. ACS Environmental Au.

Prof. Dr. Saeed Jafarirad | Biophysics | Best Researcher Award 

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Prof. Dr. Saeed Jafarirad | Biophysics | Best Researcher Award 

Prof. Dr. Saeed Jafarirad | University of Tabriz | Iran

Dr. Saeed Jafarirad is a leading researcher in polymer chemistry, green nanotechnology, and biomaterials, recognized for his extensive contributions to biogenic nanostructures, eco-friendly nanoparticle synthesis, and advanced polymeric systems. His work integrates supramolecular chemistry, dendritic and polymeric architectures, cellulose-based and chitosan-based biopolymers, and innovative nano-drug delivery systems designed for therapeutic and theranostic applications. He has produced a large body of scientific output, including book chapters in major biomedical polymer encyclopedias, dozens of peer-reviewed journal articles, numerous conference presentations, national patents, and a wide range of scientific and industrial research projects. His recent publications highlight breakthroughs in slow-release nanofertilizers, phytochemical-mediated magnetic nanocomposites, and enhanced osteogenic and osteoconductive materials developed through green chemistry. His research also explores modulation of plant secondary metabolites using green-synthesized nanomaterials, as well as environmentally friendly fabrication of metal oxide nanostructures for biological and agricultural use. Throughout his career, he has advanced the design of sustainable nanomaterials, self-assembly systems, and carbosiloxane-based dendritic hybrids with applications in drug delivery and controlled release. His contributions have strengthened interdisciplinary links between polymer science, biotechnology, and environmental nanotechnology. He has been frequently recognized for research excellence through awards at institutional and regional levels. Through his innovative approaches and consistent scientific productivity, Dr. Jafarirad continues to play a significant role in shaping the future of green nanotechnology, functional polymers, and bio-based nanomaterial engineering.

Profile: Google Scholar

Featured Publications

Jafarirad, S., Mehrabi, M., Divband, B., & Kosari-Nasab, M. (2016). Biofabrication of zinc oxide nanoparticles using fruit extract of Rosa canina and their toxic potential against bacteria: A mechanistic approach. Materials Science and Engineering: C, 59, 296–302.

Ebadollahi, R., Jafarirad, S., Kosari-Nasab, M., & Mahjouri, S. (2019). Effect of explant source, perlite nanoparticles and TiO₂/perlite nanocomposites on phytochemical composition of metabolites in callus cultures of Hypericum perforatum. Scientific Reports, 9(1), 12998.

Namazi, H., & Jafarirad, S. (2011). Application of hybrid organic/inorganic dendritic ABA type triblock copolymers as new nanocarriers in drug delivery systems. International Journal of Polymeric Materials, 60(9), 603–619.

Gharehpapagh, A. C., Farahpour, M. R., & Jafarirad, S. (2021). The biological synthesis of gold/perlite nanocomposite using Urtica dioica extract and its chitosan-capped derivative for healing wounds infected with methicillin-resistant bacteria. International Journal of Biological Macromolecules, 183, 447–456.

Daghian, S. G., Farahpour, M. R., & Jafarirad, S. (2021). Biological fabrication and electrostatic attractions of new layered silver/talc nanocomposite using Lawsonia inermis L. and its chitosan-capped inorganic/organic hybrid. Materials Science and Engineering: C, 128, 112294.

Assist. Prof. Dr. Lilan Zhang | Molecular Physics | Best Researcher Award 

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Assist. Prof. Dr. Lilan Zhang | Molecular Physics | Best Researcher Award 

Assist. Prof. Dr. Lilan Zhang | Institute of Tropical Bioscience and Biotechnology, Sanya Research Institute, Chinese Academy of Tropical Agricultural Sciences | China

Dr. Zhang Lilan is an Assistant Professor at the Institute of Tropical Bioscience and Biotechnology, Chinese Academy of Tropical Agricultural Sciences. Her research primarily focuses on animal genetics, breeding, and the molecular mechanisms regulating adipose tissue development, fat deposition, and thermogenesis in pigs. She has made notable contributions to understanding the function of beige adipocytes and the genetic regulation of lipid metabolism. Dr. Zhang utilizes molecular biology, bioinformatics, and gene-editing approaches to uncover key regulators of adipogenesis and energy metabolism. Her work explores the adipose-liver-gut axis and its role in fat deposition and metabolic regulation. She has published extensively in high-impact journals including Cells, Protein & Cell, International Journal of Molecular Sciences, and Animal Feed Science and Technology. Dr. Zhang has also co-invented several patents related to regulating lipid metabolism, cold resistance, and ferroptosis in livestock. Her research has advanced insights into gene–environment interactions in animal physiology. She has been recognized with national awards for outstanding research presentations and contributions to animal genetics. Dr. Zhang has successfully led competitive research projects funded by the NSFC and other national programs. Her studies provide a strong foundation for improving meat quality and animal welfare. She is committed to translating molecular discoveries into practical applications in livestock breeding. Her interdisciplinary approach combines genetics, nutrition, and biotechnology. Dr. Zhang’s work strengthens the understanding of molecular regulators of fat deposition in pigs. She continues to contribute to innovations in animal biotechnology. Her research impact is recognized nationally and internationally in the field of animal science.

Profile: Scopus 

Featured Publications

Zhang, L., Hu, S., Cao, C., Chen, C., Liu, J., Wang, Y., Liu, J., Zhao, J., Tao, C., & Wang, Y. (2022). Functional and genetic characterization of porcine beige adipocytes. Cells, 11(751), 1–15.

Liu, J., Jiang, Y., Chen, C., Zhang, L., Wang, J., Yang, C., Wu, T., Yang, S., Tao, C., & Wang, Y. (2024). Bone morphogenetic protein 2 enhances porcine beige adipogenesis via AKT/mTOR and MAPK signaling pathways. International Journal of Molecular Sciences, 25(7), 3915.

Pan, J., Chui, L., Liu, T., Zheng, Q., Liu, X., Liu, L., Zhao, Y., Zhang, L., Song, M., Han, J., Huang, J., Tang, C., Tao, C., Zhao, J., & Wang, Y. (2023). Fecal microbiota was reshaped in ucp1 knock-in pigs via the adipose-liver-gut axis and contributed to less fat deposition. Microbiology Spectrum, 11(1), e03540-22.

Zhong, R., Gao, L., Zhang, L., Huang, Q., Chen, L., & Zhang, H. (2021). Effects of optimal carbohydrases cocktails screened using an in vitro method on nutrient and energy digestibility of different fiber source diets fed to growing pigs. Animal Feed Science and Technology, 271, 114728.

Liang, X., Tao, C., Pan, J., Zhang, L., Liu, L., Zhao, Y., Fan, Y., Cao, C., Liu, J., Zhang, J., Lam, S. M., Shui, G., Jin, W., Li, W., Zhao, J., Li, L., & Wang, Y. (2020). Rnf20 deficiency in adipocyte impairs adipose tissue development and thermogenesis. Protein & Cell, 12(6), 475–492.

Assoc. Prof. Dr. Jonas Duarte | Carbon Allotropes | Outstanding Contribution Award

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Assoc. Prof. Dr. Jonas Duarte | Carbon Allotropes | Outstanding Contribution Award

Assoc. Prof. Dr. Jonas Duarte | Federal University of Western Pará | Brazil

Professor Jonas Marinho Duarte is a leading researcher in nanotechnology, with a primary focus on the detection of Majorana fermions and electronic transport phenomena in nanodevices based on the Kitaev chain. His work extensively employs Green’s function methods to model and analyze quantum transport in low-dimensional systems. He also utilizes ab initio calculations to simulate the electronic properties of graphene-like 2D materials, providing insights into charge transport behavior in molecular nanoelectronics. His research spans both one-dimensional and two-dimensional carbon allotropes, exploring their computationally predicted electronic transport properties. He has contributed to the development of nanodevices for potential applications in telecommunications and molecular electronics. Professor Duarte’s publications appear in reputable journals such as Computational Condensed Matter, PHYSICA E, and Optical and Quantum Electronics. His studies combine theoretical modeling with computational simulations to advance understanding of quantum transport mechanisms. He actively collaborates with institutions such as the Federal University of Pará, fostering interdisciplinary research. His contributions have potential implications for future quantum computing and nanoelectronic devices. By integrating concepts from physics, electrical engineering, and materials science, his work bridges fundamental theory and practical applications. Professor Duarte is also engaged in exploring 1D and 2D carbon-based nanomaterials for enhanced electronic functionality. His research provides valuable insights into the design and optimization of nanoscale electronic systems. Through his studies, he continues to push the boundaries of molecular and low-dimensional electronics. His work not only deepens theoretical understanding but also informs experimental approaches in nanodevice fabrication. He is recognized for his innovative applications of computational methods to complex quantum systems, establishing him as a prominent figure in the field of nanotechnology.

Profile: Orcid

Featured Publications

Cardoso, D. H., Miranda, I. R. S., Mota, E. A. V., Duarte, J. M., dos Santos da Silva, S. J., da Silva, C. A. B., & Del Nero, J. (2025). Numerical implementation of phagraphene as patch resonator for a microstrip antenna. Optical and Quantum Electronics.

Quaresma, L. C., Ferreira, D. F. S., Duarte, J. M., Moreira, M. M., da Silva, C. A. B., Jr., & Del Nero, J. (2025, December). Eigenchannel visualization and transition-voltage spectroscopy in two-dimensional C-57 allotrope. Computational Condensed Matter.

Quaresma, L. C., Duarte, J. M., Ferreira, D. F. S., da Silva, C. A. B., Jr., & Del Nero, J. (2025, October). Electronic transport modulation in C-57: A path toward carbon-based logic and switching devices. Physica E: Low-dimensional Systems and Nanostructures.

Duarte, J. M., Santos, J. C. S., Ferreira, D. F. S., Paula, M. V. S., Mota, E. A. V., Silva, C. A. B., & Del Nero, J. (2025, March). Systematic investigation of a metallic quadrilateral nanoribbon graphene allotrope for application in nanoelectronics. Computational Condensed Matter.

Duarte, J. M. (2024, November 1). Metodologias ativas e educação ambiental: uma revisão integrativa sobre abordagens inovadoras para o ensino de energia solar. Ensino e Tecnologia em Revista.

Assist. Prof. Dr. Mingliang Long | Laser Ranging | Best Researcher Award 

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Assist. Prof. Dr. Mingliang Long | Laser Ranging | Best Researcher Award 

Assist. Prof. Dr. Mingliang Long | Shanghai Astronomical Observatory | China

Dr. Long Mingliang is a distinguished researcher in optical engineering whose work centers on advanced laser technology and precision optical measurement for space applications. He has made notable contributions to the development of high-repetition-rate picosecond lasers and multi-telescope echo-receiving laser ranging systems, enhancing China’s capabilities in satellite and space debris observation. His pioneering research led to several international firsts in laser-based space debris measurement using both infrared and green picosecond lasers. He has addressed key challenges in high-power laser systems, such as self-focusing and beam divergence, achieving world-class performance in weak signal detection and long-distance precision ranging. Dr. Long has also contributed to the design of ultra-high repetition rate satellite laser ranging systems, enabling breakthroughs in backscattering avoidance and high-frequency measurement accuracy. His work supports critical advancements in arrayed telescope systems, improving multi-point space observation precision. Beyond laser ranging, he has explored applications in quantum communication and space-based time transfer, optimizing laser payload performance for space missions. His interdisciplinary research effectively bridges optical engineering, laser physics, and space science. Over his career, Dr. Long has authored more than thirty academic papers in leading journals and conference proceedings and holds eleven authorized invention patents. His innovations and leadership in laser ranging and optical detection technologies have positioned him as a leading figure in the field of advanced optical measurement.

Profiles: Scopus | Orcid

Featured Publication

Zhang, H., Long, M., Deng, H., Cheng, S., Wu, Z., Zhang, Z., Zhang, A., & Sun, J. (2021). Developments of space debris laser ranging technology including the applications of picosecond lasers. Applied Sciences, 11(21), 10080.

Assoc. Prof. Dr. Atsuomi Kimura | Experimental Physics | Best Researcher Award 

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Assoc. Prof. Dr. Atsuomi Kimura | Experimental Physics | Best Researcher Award 

Assoc. Prof. Dr. Atsuomi Kimura | The University of Osaka | Japan

Dr. Atsuomi Kimura is a highly respected researcher in the field of medical imaging and magnetic resonance technology at Osaka University, where his work focuses on the development and application of hyperpolarized ¹²⁹Xe MRI/MRS for advanced biomedical research. He has made significant contributions to improving imaging sensitivity and diagnostic accuracy, particularly in the study of lung function, disease detection, and therapeutic monitoring. His research emphasizes the innovative use of hyperpolarized noble gases to visualize physiological processes in ways that conventional imaging methods cannot achieve. By combining expertise in pharmacology, medical physics, and biomedical engineering, Dr. Kimura is advancing the integration of nanomedicine and magnetic resonance for precise, non-invasive diagnostic systems. His work on hyperpolarized xenon NMR technology has led to improved robustness, reproducibility, and sustainability, strengthening its application in both medical and materials science. He is deeply committed to translating experimental imaging techniques into practical clinical tools that enhance early disease detection and personalized treatment planning. Through his interdisciplinary approach, he bridges gaps between physics, chemistry, and life sciences, fostering innovations that drive next-generation imaging platforms. His research not only contributes to understanding complex biological systems but also supports the development of highly sensitive lung cancer detection methods. Dr. Kimura is actively involved in several professional societies in Japan, promoting collaboration and knowledge exchange in analytical chemistry and magnetic resonance research. His dedication to scientific advancement, combined with his innovative spirit, continues to influence the global field of medical imaging.

Profiles: Scopus | Orcid

Featured Publications

Kimura, A., Shimokawa, A., Stewart, N. J., Imai, H., & Fujiwara, H. (2025). Relationship between pulmonary gas exchange function and brain uptake dynamics investigated with hyperpolarized ¹²⁹Xe MR imaging and spectroscopy in a murine model of chronic obstructive pulmonary disease. Magnetic Resonance in Medical Sciences.

Fujiwara, H., Imai, H., & Kimura, A. (2025). Proposition of hyper‐chemical exchange saturation transfer subtraction spectroscopy to detect very weak and broad signals hidden under baseline and widen range of materials accessed by hyperpolarized ¹²⁹Xe NMR. ChemPhysChem.

Kimura, A., Shimokawa, A., Stewart, N. J., Hosoi, R., Imai, H., & Fujiwara, H. (2025). Ethyl pyruvate promotes wound healing in elastase-induced lung injury in mice as assessed by hyperpolarized ¹²⁹Xe magnetic resonance imaging. Preprint.

Fujiwara, H., Imai, H., & Kimura, A. (2024). Development of stopped-flow hyper-CEST NMR method on recirculating hyperpolarization system as applied to void space analysis in polymers. Analytical Sciences.

Kimura, A., Utsumi, S., Shimokawa, A., Nishimori, R., Hosoi, R., Stewart, N. J., Imai, H., & Fujiwara, H. (2022). Targeted imaging of lung cancer with hyperpolarized ¹²⁹Xe MRI using surface-modified iron oxide nanoparticles as molecular contrast agents. Cancers, 14(24), 6070.