Samah Gasm Allah Babiker | Advanced Light Sources | Research Excellence Award

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Dr. Samah Gasm Allah Babiker | Advanced Light Sources | Research Excellence Award

Dr. Samah Gasm Allah Babiker | Red Sea University | Sudan

Dr. Samah Gasm Allah Babiker Gasm Allah is a Sudanese Assistant Professor and accomplished researcher with more than 19 years of experience in higher education, combining teaching, research, and consultancy across diverse STEM disciplines. She has built a strong academic profile with 11 scholarly documents, achieving an h-index of 5 and accumulating 67 citations across 63 citing documents, reflecting the impact and relevance of her scientific contributions. Her research expertise centers on renewable energy, quantum physics, thermophotovoltaic (TPV) systems, and light-emitting diodes, with a particular emphasis on modifying radiative properties and designing innovative TPV systems to enhance overall efficiency and energy output. Throughout her career, Dr. Samah has published extensively in peer-reviewed journals and international conferences, earning recognition among leading academics for research productivity and scientific citations. In addition to her research achievements, she possesses in-depth experience in managing undergraduate and postgraduate programs, supervising postgraduate research, and executing energy and manufacturing projects. She is also known for her strong leadership, project management, proposal writing, and academic administration skills, alongside effective communication, mentoring, and faculty development capabilities. Her work demonstrates a sustained commitment to advancing scientific knowledge and fostering excellence in higher education.

Profile: Scopus

Featured Publication
Thermal performance optimization of microchannel heat sinks with triangle wave fin designs and various heat transfer fluids using GA/RSM/TOPSIS. (2025). Case Studies in Thermal Engineering.

Yoongun Jung |Biophotonics Systems Integration | Research Excellence Award

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Mr. Yoongun Jung | Biophotonics Systems Integration | Research Excellence Award

Mr. Yoongun jung | Korea University | South Korea

Mr. Yoongun Jung is an emerging researcher in Electrical Engineering, currently pursuing an M.S.–Ph.D. integrated program at Korea University, Seoul (2021–2027), after completing his B.S. in Electrical Engineering from the same institution in 2021. His research focuses on cutting-edge domains including AI applications in power systems, HVDC control, and energy management systems, contributing to intelligent, secure and sustainable power infrastructures. Demonstrating strong academic and research excellence, he has received several prestigious recognitions, beginning with an Excellence Award at the Kepco Creative Innovation Idea Contest in 2020 for his work on deep learning-based frequency response prediction. His impactful research has earned multiple Conference Best Paper Awards, including contributions on adaptive Volt–Var control using multiagent deep reinforcement learning (KIEE PES 2021, Jeju), cost-effective dynamic multi-microgrid formulation (KIEE Power System Research Association, 2023, Jeju), and transient stability data-driven special protection schemes using reinforcement learning (First Best Paper Award, ICRERA 2024, Japan). In addition, he has been recognized at IEEE Student Paper Awards for innovations such as solar power prediction using LGBM (2021), dynamic multi-microgrid formulation using spanning tree algorithms (2022), and federated reinforcement learning-based AGC algorithms, which won the Best Paper Award at the KIEE PES North America Chapter Meeting in 2025. Through his prolific research achievements, Mr. Jung continues to advance intelligent energy systems and contribute significantly to the future of smart power engineering.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

“Enhancing frequency stability with decentralized adaptive control using multi-agent deep reinforcement learning of multi-VSGs”, S Kang, Y Jung, D You, G Jang, International Journal of Electrical Power & Energy Systems 172, 2025.

“Cost-Effective automatic generation control for Renewable-dominated grids: Multi-Agent deep reinforcement learning approach”, Y Jung, S Kang, J Cha, S Song, M Yoon, G Jang, International Journal of Electrical Power & Energy Systems 173, 2025.

“Coordinate control of multi-infeed VSC-HVDC for enhancing power system reliability”, K Kim, Y Jung, M Chang, J Cha, S Kang, H Ku, G Kwon, M Yoon, G, Jang International Journal of Electrical Power & Energy Systems 166, 2025.

“Physics-informed neural network-based VSC back-to-back HVDC impedance model and grid stability estimation”, M Chang, Y Jung, S Kang, G Jang, Electronics 13 (13), 2024.

“Transient Stability Data Driven Special Protection Scheme Using Deep Reinforcement Learning”, Y Jung, S Kang, K Kim, H Woo, S Choi, G Jang, S Song, M Yoon 2024, 13th International Conference on Renewable Energy Research, 2024.

Zedong Lin | Light-Matter Interactions | Research Excellence Award

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Dr. Zedong Lin | Light-Matter Interactions | Research Excellence Award

Dr. Zedong Lin | Taizhou University | China

Dr. Zedong Lin is a distinguished materials scientist recognized for his wide-ranging contributions across advanced materials, energy conversion, and electrochemical systems. He serves as a Fellow of the International Association of Advanced Materials (FIAAM) and is an active member of several leading scientific societies, including the American Physical Society, the Royal Society of Chemistry (MRSC), the Chinese Physical Society, and the Chinese Chemical Society. Dr. Lin also contributes significantly to scholarly publishing as a young editorial board member for multiple journals such as Research, eScience, Chinese Chemical Letters, Carbon Neutralization, Chinese Journal of Structural Chemistry, Energy Materials and Devices, Decarbon, EcoEnergy, Energy Lab, Materials Lab, and the Journal of Electrochemistry. His research output demonstrates strong academic influence, with an h-index of 17, an i10-index of 25, and a citation count exceeding 812 citations based on his indexed documents. Dr. Lin’s work spans fundamental investigations and applied innovations, reflecting his commitment to advancing next-generation materials technologies. His scientific leadership, active editorial service, and impactful publication record collectively underscore his role as an emerging figure in materials science and a contributor to shaping the future of sustainable energy and chemical research.

Profile: Google Scholar

Featured Publications

Zheng, J., Ying, Z., Yang, Z., Lin, Z., Wei, H., Chen, L., Yang, X., Zeng, Y., Li, X., & Ye, J. (2023). Polycrystalline silicon tunnelling recombination layers for high-efficiency perovskite/tunnel oxide passivating contact tandem solar cells. Nature Energy, 8(11), 1250–1261.

Yang, W., Ding, B., Lin, Z., Sun, J., Meng, Y. Y., Ding, Y., Sheng, J., Yang, Z., Ye, J., … (2023). Visualizing interfacial energy offset and defects in efficient 2D/3D heterojunction perovskite solar cells and modules. Advanced Materials, 35(35), 2302071.

Li, S., Yu, J., Zhang, S., Qiu, W., Tang, X., Lin, Z., Cai, R., Fang, Y., Yang, S., & Cai, X. (2024). Operando reconstruction of porous carbon supported copper selenide promotes the C2 production from CO2RR. Advanced Functional Materials, 34(12), 2311989.

Zhang, X., Li, B., Zhang, S., Lin, Z., Han, M., Liu, X., Chen, J., Du, W., Rahim, G., … (2025). A spiro-type self-assembled hole transporting monolayer for highly efficient and stable inverted perovskite solar cells and modules. Energy & Environmental Science, 18(1), 468–477.

Ju, M., Chen, Z., Zhu, H., Cai, R., Lin, Z., Chen, Y., Wang, Y., Gao, J., Long, X., … (2023). Fe (III) docking-activated sites in layered birnessite for efficient water oxidation. Journal of the American Chemical Society, 145(20), 11215–11226.

He, W., Lin, Z., Zhao, K., Li, Y., Meng, C., Li, J., Lee, S., Wu, Y., & Hao, X. (2022). Interspace and vacancy modulation: Promoting the zinc storage of an alcohol-based organic–inorganic cathode in a water–organic electrolyte. Advanced Materials, 34(47), 2203920.

Manahel Thabet | Quantum Dots Applications | Research Excellence Award

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Prof.  Manahel Thabet | Quantum Dots Applications | Research Excellence Award

Prof. Manahel Thabet |  Institute of Brain Chemistry and Huma Nutrition |  United Kingdom

Professor Manahel Thabet is an eminent scholar, thought leader, and globally recognized intellectual, currently serving as the Special Envoy for Science and Technology to the Secretary General of the Commonwealth, the Right Honorable Baroness Patricia Scotland. As a distinguished economist, scientist, and futurist, she also holds the positions of President of The Economic Forum for Sustainable Development and Founder and President of Consortium Consultants, a premier consultancy specializing in Data Banks, Financial Engineering, Sustainable Economic Rewiring, and Futurism. Additionally, she advises the President of King Abdulaziz City for Science and Technology (KACST) in Saudi Arabia. In her role with the Commonwealth, she drives scientific collaboration and technological innovation across 56 member states, promoting sustainable development, building scientific capacity, and ensuring equitable access to advanced technologies in developing nations. Academically, she serves as Deputy Director of the Institute for Brain Chemistry and Human Nutrition at Imperial College London and as Vice President of the World Intelligence Network, the largest platform for high-IQ individuals globally. Prof. Thabet’s pioneering work in Quantum Research and her contributions to Financial Engineering, Quantum Mathematics, Quantum Brain Theories, and the Mathematics of Consciousness have earned her numerous prestigious awards, including the Brain of the Year Award, Guinness World Record in Mind Ability, Avicenna Award of Science, and recognition among the world’s most influential and inspirational women in science.

Profile: Orcid

Featured Publications

Crawford, M., Horn, L., Brenna, T., Broadhurst, C., Dyall, S., Johnson, M., Schmidt, W., Sinclair, A., Thabet, M., & Wang, Y. (2025). The quantum brain: The untold story of docosahexaenoic acid’s role in brain evolution, biophysics, and cognition. International Journal of Molecular Sciences.

Tuszynski, J., Poznanski, R., Cacha, L., Thabet, M., & Bandyopadhyay, A. (2022). [Title not provided]. Journal of Multiscale Neuroscience.

Stefano Marullo | Advanced Photonic Sensors | Best Researcher Award

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Dr. Stefano Marullo | Advanced Photonic Sensors | Best Researcher Award

Dr. Stefano Marullo | Institut Cochin | France

Stefano Marullo, MD, PhD, is an Italian-born physician-scientist recognized for his influential contributions to molecular pharmacology, receptor biology, and innate immunity. Trained in medicine and biochemistry at Université Paris Diderot, he developed a distinguished career spanning clinical practice, fundamental research, academic leadership, and biotechnology innovation. After early roles in internal medicine, hematology, and immuno-hematology within the Paris hospital system, he advanced through prominent research positions at Institut Pasteur and Institut Cochin, where he led pioneering work on receptor signaling, G-protein–coupled receptor regulation, and molecular scaffolding proteins. His career includes international research experience at the University of California, San Francisco, and long-standing service as Principal Investigator and Research Director within INSERM, where he also contributed extensively to academic governance as Vice-Director of a major PhD program and later as Vice-President for Research at Université Paris Descartes. He currently serves as Chief Scientific Officer of ALLSPIM, a pharmaceutical startup developing novel compounds targeting innate immunity homeostasis, while holding the title of Emeritus Research Director at INSERM. Author of more than eighty original research articles in high-impact journals, along with numerous reviews and book chapters, he has earned broad recognition, substantial citation impact, and multiple competitive fellowships and awards reflecting his sustained scientific leadership.

Profile: Orcid

Featured Publications

1. Marullo, S., & Remi, C. (2024). Awakening the thymus to cure SARS-CoV-2 infection: A matter of genes.

2. Da Silva, E., Scott, M. G. H., Enslen, H., & Marullo, S. (2023). Control of CCR5 cell-surface targeting by the PRAF2 gatekeeper.

3. Da Silva, E., Scott, M. G. H., Enslen, H., & Marullo, S. (2023). Control of CCR5 cell surface targeting by the PRAF2 gatekeeper [Preprint].

4. Marullo, S. (2022). Pharmacological chaperone-rescued cystic fibrosis CFTR-F508del mutant overcomes PRAF2-gated access to endoplasmic reticulum exit sites.

5. Chevalier, B., Baatallah, N., Najm, M., Castanier, S., Jung, V., Pranke, I., Golec, A., Stoven, V., Marullo, S., Antigny, F., et al. (2022). Differential CFTR-interactome proximity labeling procedures identify enrichment in multiple SLC transporters.

Koichi Shimizu | Optical Bioimaging Research | Best Researcher Award

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Prof. Dr. Koichi Shimizu | Optical Bioimaging Research | Best Researcher Award

Prof. Dr. Koichi Shimizu | Xidian University | China

Koichi Shimizu is a distinguished Professor at Xidian University, renowned for his extensive contributions to electromagnetics, imaging technologies, and advanced signal processing. He received his M.S. and Ph.D. degrees from the University of Washington, Seattle, where he also served as a Research Associate. He later built a long and impactful academic career at Hokkaido University, Japan, progressing from Assistant Professor to full Professor and ultimately Professor Emeritus. He also serves as an Invited Research Professor at Waseda University, Japan. His research portfolio includes more than one hundred completed and ongoing projects, alongside over thirty consultancy and industry collaborations with notable organizations such as NASDA, Epson, and Huawei. With a prolific academic output comprising more than twenty books, over fifty granted patents with several more under review, and more than three hundred journal publications indexed in leading scientific databases, he is recognized as a leading figure in his field. He has served as Associate Editor of IEEE Transactions on Information Technology in Biomedicine and sits on the editorial boards of Scientific Reports and Advanced Imaging. A Fellow of the Electromagnetics Academy, Koichi Shimizu continues to advance impactful interdisciplinary research and global academic collaboration.

Profile: Orcid

Featured Publications

1. Wang, J., Ieiri, Y., Yoshie, O., & Shimizu, K. (2026). A learnable transformer decoder for blurred near-infrared blood vessel segmentation using domain adaptation with limited data.

2. Nakagawa, Y., Yamaguchi, T., Ishimaru, T., Saito, T., Hattori, Y., Ono, T., Arai, Y., Hasegawa, Y., Shiga, H., Tamaki, K., et al. (2025). Day-to-day variation in masseteric electromyographic waveforms during the diurnal awake state.

3. Ishimaru, T., Yamaguchi, T., Saito, T., Nakagawa, Y., Hattori, Y., Ono, T., Arai, Y., Hasegawa, Y., Shiga, H., Tamaki, K., et al. (2025). Verification of the relationship between awareness of clenching or the teeth contacting habit and the integral value of masseteric electromyogram during diurnal wakefulness.

4. To, N. P. V., Hoang, N. H., Nguyen, N. A. D., Tran, T. N., & Shimizu, K. (2025). A large open access dataset of transillumination imaging toward the realization of optical computed tomography.

5. Ishimaru, T., Yamaguchi, T., Saito, T., Hattori, Y., Ono, T., Arai, Y., Hasegawa, Y., Shiga, H., Tamaki, K., Tanaka, J., et al. (2024). Actual state of the diurnal masseteric electromyogram: Differences between awareness and non-awareness of awake bruxism.

Yasser El-Sharkawy | Light-Matter Interactions | Best Researcher Award

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Dr. Yasser El-Sharkawy | Light-Matter Interactions | Best Researcher Award

Prof. Dr. Yasser El-Sharkawy | Military technical college | Egypt

Prof. Yasser H. El-Sharkawy is a distinguished professor of optoelectronics and biomedical engineering whose career spans more than three decades of impactful academic, research, and industrial contributions. As Chairman of the Scientific Council at the Military Technical College in Cairo, he leads research strategy and governance in optical systems, biomedical imaging, medical diagnostics, hyperspectral imaging, photoacoustic spectroscopy, and laser-based technologies. His work is widely recognized for bridging scientific innovation with real-world applications, particularly in advanced medical diagnostics and explosive detection. Prof. El-Sharkawy serves as an editor for the Journal of Engineering Science and Military Technologies and the Military Medicine Journal while mentoring numerous postgraduate researchers across interdisciplinary fields. His scholarly achievements include an h-index of 16, along with 956 total citations and 43 documents reflected in his i10-index, which collectively demonstrate the strong academic influence and sustained impact of his research. A respected leader in optoelectronics, he continues to drive advancements in imaging and photonic technologies while contributing actively to scientific development and professional training within the region and beyond.

Profile: Google Scholar

Featured Publications

Aboughaleb, I. H., Aref, M. H., & El-Sharkawy, Y. H. (2020). Hyperspectral imaging for diagnosis and detection of ex-vivo breast cancer. Photodiagnosis and Photodynamic Therapy, 31, 101922.

Aref, M. H. F., Sharawi, A. A. R., & El-Sharkawy, Y. H. (2021).Delineation of the arm blood vessels utilizing hyperspectral imaging to assist with phlebotomy for exploiting the cutaneous tissue oxygen concentration. Photodiagnosis and Photodynamic Therapy, 33, 102190.

El-Sharkawy, Y. H., & Elbasuney, S. (2019).Hyperspectral imaging: A new prospective for remote recognition of explosive materials. Remote Sensing Applications: Society and Environment, 13, 31–38.

Aref, M. H., Aboughaleb, I. H., & El-Sharkawy, Y. H. (2020).Tissue characterization utilizing hyperspectral imaging for liver thermal ablation. Photodiagnosis and Photodynamic Therapy, 31, 101899.

Darwiesh, M., El-Sherif, A. F., Ayoub, H. S., El-Sharkawy, Y. H., Hassan, M. F., … (2018).Hyperspectral laser imaging of underwater targets. Journal of Optics, 47(4), 553–560.

El-Sharkawy, Y. H., & Elbasuney, S. (2017).Novel laser induced photoacoustic spectroscopy for instantaneous trace detection of explosive materials. Forensic Science International, 277, 215–222.

El-Sharkawy, Y. H., Badr, Y., Gadallah, M., & El-Sherif, A. F. (2006).Diagnostic of human teeth using photoacoustic response. Lasers in Dentistry XII, 6137, 613701.

Assoc. Prof. Dr. Xingyu Yang | Imaging Lidar Technology | Best Researcher Award 

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Assoc. Prof. Dr. Xingyu Yang | Imaging Lidar Technology | Best Researcher Award 

Assoc. Prof. Dr. Xingyu Yang | Shijiazhuang Tiedao University | China

Dr. Yang Xingyu is a distinguished researcher in Light Detection and Ranging (LiDAR), Artificial Intelligence, and Machine Vision, known for advancing high-resolution laser imaging, intelligent sensing, and non-scanning 3D radar technologies through impactful scientific and engineering contributions. His research spans optical coding, spatial–temporal multiplexing, weak-signal enhancement, beam-shaping optimization, and ultra-high-SNR 3D imaging, driving major improvements in detection accuracy, imaging quality, long-range sensing, and real-time data processing across diverse environments. He has published influential work in leading journals such as Optics and Lasers in Engineering, Applied Optics, Optics Communications, IEEE Photonics Technology Letters, and Chinese Physics B, covering innovations ranging from cluster LiDAR optimization to low-cost large-FOV infrared devices and non-line-of-sight object localization. His research outcomes integrate optical engineering with AI-driven algorithms, supporting applications in autonomous driving, robotics, intelligent transportation, UAV systems, electromagnetic environment assessment, and intelligent rail transit. He has contributed significantly to major scientific projects relating to laser radar development, road-network reliability, data-management platforms, ultra-high-voltage environment testing, and UAV cooperative planning. His portfolio also includes numerous invention patents and software copyrights, demonstrating strong translational impact from theory to practical systems. Dr. Yang has earned multiple competitive awards in provincial innovation competitions, robotics, AI design, autonomous systems, and digital-economy innovation, reflecting broad recognition of his technical leadership. He has guided student teams to national first prizes in intelligent vehicle design, AI challenges, robotics innovation, and other engineering competitions, highlighting his commitment to mentoring future innovators. His professional influence extends to academic and industrial communities through active service in artificial intelligence, ordnance technology, and UAV associations. With strong foundations in information engineering, optical sensing, and intelligent systems, Dr. Yang continues to advance cutting-edge research that strengthens the future of imaging radar, smart perception, and AI-empowered sensing technologies.

Profile: Scopus

Featured Publications

Yang, X., Hao, L., Wang, H., & Wang, Y. (n.d.). Spatial and temporal multiplexing array imaging lidar technique based on OOCDMA. Optics and Lasers in Engineering.

Yang, X., Hao, L., & Wang, Y. (n.d.). Improved imaging quality of cluster LiDAR by optimizing laser energy distribution using an effective optical approach. Optics Communications.

Yang, X., & Wang, Y. (n.d.). Low-cost, large-visual-field pyroelectric infrared linear device. Applied Optics.

Yang, X., Li, P., & Meng, X. (n.d.). Edge artifact improvement in multipixel LiDAR imaging via tailored optical beam shaping. Optics Communications.

Yang, X., Su, J., Hao, L., & Wang, Y. (n.d.). An optical OCDMA coding and 3D imaging technique for non-scanning full-waveform LiDAR system. Applied Optics.

Yang, X., Hao, L., & Wang, Y. (n.d.). Adjustable higher SNR and long-range 3D-imaging cluster LiDAR based on a coded full-waveform technique. Applied Optics.

 

Dr. Sang Bong Lee | Optical Bioimaging Research | Best Researcher Award 

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Dr. Sang Bong Lee | Optical Bioimaging Research | Best Researcher Award 

Dr. Sang Bong Lee | SimVista Inc. | South Korea

Dr. Sang Bong Lee is a distinguished researcher in nuclear medicine, molecular imaging, and biophotonics, focusing on the development of theranostic nanoplatforms for cancer and inflammatory diseases. He has pioneered NMDAR-targeted imaging probes for tracking M1 macrophages and immune cells, enabling precise visualization of disease processes. His work on radionuclide-embedded gold and silica nanoparticles has advanced the field of molecular diagnostics and image-guided therapy. Dr. Lee has established bioadhesive orthotopic and metastatic colorectal cancer models that closely mimic human clinical conditions, providing improved platforms for translational research. He has innovated 4D-printed microrobot-based drug delivery systems that enhance targeted therapy and personalized medicine. His research integrates nanomedicine, molecular imaging, and advanced biomaterials to develop clinically relevant therapeutics. In addition, he leads the creation of cardiovascular and neurovascular intervention simulators, which combine physical vascular models, pulsatile pumps, and AI-enhanced virtual X-ray imaging to offer realistic, radiation-free training for interventional cardiologists and neurointerventionists. Dr. Lee’s work spans fundamental science to translational applications, bridging multidisciplinary fields including chemistry, medicine, engineering, and materials science. He has published extensively in SCI/SCIE-indexed journals and holds multiple patents in theranostic nanocomposites, microrobot systems, and simulation technologies. His research has introduced new approaches in immune-cell and platelet tracking, mesoporous silica and gold nanoparticle theranostics, and nanomaterial-based imaging probes. By integrating experimental innovation with clinical relevance, Dr. Lee has significantly advanced personalized and precision medicine. His contributions continue to influence molecular imaging, drug delivery, and medical training worldwide, setting benchmarks for innovation in biophotonics research. His work fosters collaboration across institutions, promoting the translation of laboratory discoveries into real-world healthcare solutions. Through his research, Dr. Lee has made a lasting impact on diagnostics, therapeutics, and advanced medical education, shaping the future of molecular imaging and biophotonics.

Profile: Google Scholar

Featured Publications

Lee, S. B., Kim, H. L., Jeong, H. J., Lim, S. T., Sohn, M. H., & Kim, D. W. (2013). Mesoporous silica nanoparticle pretargeting for PET imaging based on a rapid bioorthogonal reaction in a living body. Angewandte Chemie International Edition, 52(40), 203.

Nguyen, K. T., Go, G., Jin, Z., Darmawan, B. A., Yoo, A., Kim, S., Nan, M., & Lee, S. B., et al. (2021). A magnetically guided self-rolled microrobot for targeted drug delivery, real-time X-ray imaging, and microrobot retrieval. Advanced Healthcare Materials, 10(6), 2001681.

Sachin, K., Jadhav, V. H., Kim, E. M., Kim, H. L., Lee, S. B., Jeong, H. J., & Lim, S. T., et al. (2012). F-18 labeling protocol of peptides based on chemically orthogonal strain-promoted cycloaddition under physiologically friendly reaction conditions. Bioconjugate Chemistry, 23(8), 1680–1686.

Darmawan, B. A., Lee, S. B., Go, G., Nguyen, K. T., Lee, H. S., Minghui, N., & Hong, A., et al. (2020). Self-folded microrobot for active drug delivery and rapid ultrasound-triggered drug release. Sensors and Actuators B: Chemical, 128752, 75.

 

Dr. ‪Ibrahim Karim Abbas | Environmental Biophotonics Research | Editorial Board Member

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Dr. ‪Ibrahim Karim Abbas | Environmental Biophotonics Research | Editorial Board Member

Dr. ‪Ibrahim Karim Abbas | University of Baghdad | Iraq

Dr. Ibrahim Karim Abbas is a plasma physics researcher whose work centers on advanced plasma systems, spectroscopic diagnostics, and plasma-assisted nanomaterial synthesis. He has developed and characterized a variety of plasma sources, including non-thermal plasma needles, dielectric barrier discharges, portable plasma medical devices, and atmospheric plasma jets, contributing to progress in both fundamental plasma science and applied technologies. His research spans antibacterial plasma applications, plasma–biological interactions, and the design of medical plasma tools supported by patented innovations. Dr. Abbas is widely recognized for synthesizing and analyzing diverse metal oxide nanoparticles—such as copper oxide, cadmium oxide, magnesium oxide, cobalt oxide, zinc oxide, calcium oxide, and nickel oxide—using atmospheric plasma and laser ablation methods, with structural, electrical, and spectroscopic investigations forming a core part of his work. His publications appear in numerous reputable Scopus- and Clarivate-indexed journals, covering themes like plasma parameter optimization, optical emission spectroscopy, and laser-induced plasma behavior. He has contributed to understanding how applied voltage, frequency, discharge conditions, gas flow rates, and laser energy influence plasma characteristics in different environments. His studies on plasma-assisted antibacterial activity and nanoparticle-related biomedical effects further broaden the impact of his research across interdisciplinary fields. Dr. Abbas also serves as a scientific reviewer for several international journals, reflecting his engagement with global scholarship and peer evaluation. His participation in conferences, scientific forums, and academic platforms demonstrates active involvement in research dissemination and community development. He maintains professional visibility across global indexing and academic networks, contributing to scientific dialogue and collaborative opportunities. His expertise in plasma diagnostics, nanomaterial engineering, and applied plasma technologies underscores his role in advancing modern plasma research with both theoretical and practical significance.

Profiles: Scopus | Orcid

Featured Publications

Abbas, I. K. (2025). Investigation of the characterization and synthesis of copper oxide nanoparticles by atmospheric plasma jet. Iranian Journal of Science.

Abbas, I. K. (2025). Investigation of the structural characteristics of cadmium oxide nanoparticles synthesised by laser ablation. Journal of Nano Research.

Abbas, I. K., & Aadim, K. A. (2024). Investigation of the impacts of laser energy on calcium plasma and calculated plasma parameters by using the O. E. S. technique. AIP Conference Proceedings.

Abbas, I. K. (2024, December 20). Effects of increasing applied voltage and frequency on plasma parameters in dielectric barrier discharge plasma. Physical Sciences and Technology.