Hanwen Wang | Nanophotonics and Nanoelectronics | Young Scientist Award

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Assoc. Prof. Dr. Hanwen Wang | Nanophotonics and Nanoelectronics | Young Scientist Award

Associate Researcher | Liaoning Academy of Materials (LAM) | China

Assoc. Prof. Dr. Hanwen Wang is a leading researcher in two-dimensional materials, van der Waals heterostructures, and nanoelectronic devices, with strong contributions to physical property modulation, memory architectures, and advanced logic integration. His research has resulted in high-impact publications in top-tier journals such as Nature, Nature Communications, Advanced Materials, Light: Science & Applications, and Materials Today Physics, covering topics including anisotropic transport, ferroelectric memories, 3D integrated logic, and superconductivity in 2D systems. According to Scopus, he has published 35 scholarly documents, received 1,922 citations, and holds an h-index of 19, reflecting significant international impact, innovation, and recognition in nanomaterials and nanoelectronics research.

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Featured Publications

Suresh Kumar Jakka | Nanophotonics and Nanoelectronics | Best Researcher Award

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Dr. Suresh Kumar Jakka | Nanophotonics and Nanoelectronics | Best Researcher Award

Post-Doctoral Fellow | University of Aveiro | Portugal

Dr. Suresh Kumar Jakka is an accomplished materials physicist with a strong research focus on luminescent and functional materials, rare-earth-doped glasses and ceramics, upconversion nanomaterials, optical thermometry, bioactive glasses, and photonic materials for energy, sensing, and biomedical applications. His scholarly output comprises 89 peer-reviewed publications across high-impact Q1 and Q2 journals, conference proceedings, edited volumes, and book chapters, reflecting sustained contributions to spectroscopy, nanophotonics, solid-state physics, and advanced materials research. With over 2,700 citations, an h-index of 29, and an i10-index of 56, his work demonstrates significant international visibility and influence. He has contributed to interdisciplinary R&D projects, including funded national and international research initiatives, and has advanced innovation in optical materials, phosphors, perovskites, thin films, and biofunctional nanocomposites. His research contributions extend to editorial roles, peer-review service for leading journals, conference leadership, and recognition through competitive research awards and scientific honors.

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View Scopus Profile  View ORCID Profile  View Google Scholar  View ResearchGate View Sci Profiles  View Web Of Science  View Loop Profile  View IntechOpen

Featured Publications

Zakaria Ziani | Nanophotonics and Nanoelectronics | Research Excellence Award

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Assist. Prof. Dr. Zakaria Ziani | Nanophotonics and Nanoelectronics | Research Excellence Award

Assistant Professor | University of Paris Cité / Laboratory of Interfaces, Treatments, Organization and Dynamics of Systems (ITODYS) | France

Assist. Prof. Dr. Zakaria Ziani is an emerging scientist in molecular electronics, photoactive materials, and hybrid nanostructures, recognized for advancing the design and photochemical control of functional molecular systems. With 86 citations, an h-index of 6, and an i10-index of 2, his growing research influence is supported by 12 peer-reviewed publications in leading journals, including Journal of the American Chemical Society, Angewandte Chemie, Nanoscale, Small, iScience, and Chemistry-A European Journal. His work spans π-conjugated systems, dimethyldihydropyrene-based photoswitches, redox-active complexes, quantum dots, spin-crossover materials, and hybrid semiconductive nanostructures, emphasizing photochemical reactivity, charge-transport mechanisms, and optoelectronic tunability. Assist. Prof. Dr. Zakaria Ziani has contributed notable advances in visible-light photoswitching, singlet oxygen storage, quantum-dot–assisted photoisomerization, and electron-transfer-induced structural transformations. His findings have shaped fundamental understanding of nanoscale electronic processes and enabled new platforms for optical modulation, molecular sensing, and photoresponsive devices. He has been involved in major research projects such as ANR ORGA-PLAS-MIP and ANR CALOMEL, focusing on plasmonic nanostructures, molecular imprinting, and redox-engineered coordination systems. His research excellence has been recognized through the Grenoble Alpes University Academic Thesis Prize and scientific communication awards, alongside service as a reviewer, presenter, and contributor in international research communities.

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Featured Publications

Jie Sun | Nanophotonics and Nanoelectronics | Research Excellence Award

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Mr. Jie Sun | Nanophotonics and Nanoelectronics | Research Excellence Award

Professor | Fuzhou University | China

Mr. Jie Sunis a highly cited researcher in semiconductor science, widely recognized for his contributions to two-dimensional (2D) materials, nanoelectronics, and Micro-LED display technologies. With 8,900+ citations, 355 indexed publications, and an h-index of 42, his research output reflects sustained innovation across materials growth, device engineering, and next-generation display systems. His scholarly work spans high-impact journal publications, conference papers, invited talks, and contributions to national and international research programs. Mr. Jie Sun’s research focuses on semiconductor materials, CVD-grown graphene, GaN-graphene hetero-integration, quantum and nanoelectronic devices, and optoelectronic materials for Micro-LED/Mini-LED displays. He has made landmark contributions in large-area graphene synthesis, transfer-free graphene technologies, 2D material MOCVD growth, and high-frequency graphene electronics, influencing both academic research and industrial applications. He has led or participated in 70+ major research and funding projects, including national key R&D programs, NSFC projects, EU initiatives, and collaborations with global technology companies. His total funding involvement exceeds RMB 300 million, supporting breakthroughs in semiconductor processing, integrated circuits, next-generation display platforms, and materials system integration. Mr. Jie Sun’s research contributions include developing graphene-based flexible optoelectronics, pioneering Micro-LED optical characterization standards, and advancing GaN-based device engineering. His work has earned prestigious recognitions such as the IAAM Scientist Medal, major national talent awards, and international honors in materials and display science. His academic influence extends through extensive reviewer and editorial service for high-impact journals (including Nature Communications, Nano Letters, Advanced Materials), evaluation roles for national scientific foundations, and contributions to doctoral committees across Asia and Europe. He has delivered 30+ invited lectures at leading institutions and global conferences, reflecting his leadership in semiconductor and display innovation. Through his publications, research leadership, standards development, and interdisciplinary innovations, Mr. Jie Sun has established a distinguished international profile at the forefront of nanomaterials, optoelectronics, and Micro-LED technologies.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | IEEE Xplore | Web of Science

Featured Publications

1. Luo, Z., Ye, X., Zhang, S., Xue, S., Yang, C., Hou, Y., Xing, W., Yu, R., Sun, J., & Yu, Z. (2022). Unveiling the charge transfer dynamics steered by built-in electric fields in BiOBr photocatalysts. Nature Communications, 13, 2230. https://doi.org/10.1038/s41467-022-29825-0

2. Sun, J., Li, X., Guo, W., Zhao, M., Fan, X., Dong, Y., Xu, C., Deng, J., & Fu, Y. (2017). Synthesis methods of two-dimensional MoS₂: A brief review. Crystals, 7(7), 198. https://doi.org/10.3390/cryst7070198

3. Buron, J. D., Petersen, D. H., Bøggild, P., Cooke, D. G., Hilke, M., Sun, J., Whiteway, E., Nielsen, P. F., Hansen, O., Yurgens, A., & Jepsen, P. U. (2012). Graphene conductance uniformity mapping. Nano Letters, 12(10), 5074–5081. https://doi.org/10.1021/nl301551a

4. Zhang, B., Zhan, Z., Cao, Y., Gulan, H., Linnér, P., Sun, J., Zwick, T., & Zirath, H. (2016). Metallic 3-D printed antennas for millimeter- and submillimeter-wave applications. IEEE Transactions on Terahertz Science and Technology, 6(4), 592–600. https://doi.org/10.1109/TTHZ.2016.2562508

5. Sun, J., Lindvall, N., Cole, M. T., Teo, K. B. K., & Yurgens, A. (2011). Large-area uniform graphene-like thin films grown by chemical vapor deposition directly on silicon nitride. Applied Physics Letters, 98(25), 252107. https://doi.org/10.1063/1.3602921

Sunkook Kim | Nanophotonics and Nanoelectronics | Best Researcher Award

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Prof. Dr. Sunkook Kim | Nanophotonics and Nanoelectronics | Best Researcher Award

Professor | Sungkyunkwan University | South Korea

Prof. Dr. Sunkook Kim is an internationally recognized scientist whose pioneering contributions lie at the intersection of 2D materials, nanoelectronics, and flexible device engineering. With over 9,566 citations, 231 publications, and an h-index of 46, his research has profoundly influenced advanced materials and next-generation electronic systems. His work encompasses high-mobility transistors, flexible OLED and micro-LED displays, nanostructured memristors, neuromorphic sensors, and anticounterfeiting technologies based on MoS₂, WS₂, and transition metal dichalcogenides (TMDs). His studies have been featured in Nature Electronics, Nature Communications, Advanced Materials, ACS Nano, and Advanced Functional Materials, many highlighted as cover articles, reflecting the high impact of his research. Prof. Dr. Sunkook Kim’s R&D achievements bridge fundamental material synthesis and device integration, leading innovations in stretchable electronics, haptic feedback systems, and large-area 2D semiconductor devices. He has developed laser-assisted fabrication techniques and MoS₂-based biosensors for healthcare and optoelectronic applications, fostering sustainable and low-power device technologies. A recipient of the Korean President’s Young Scientist Award and the Scientist of the Month Award by the National Research Foundation of Korea, he has earned national recognition for his research excellence. His academic leadership extends to editorial board service, peer reviewing for top-tier journals, and conference chairing in nanotechnology and materials science forums. Prof. Dr. Sunkook Kim’s laboratory at Sungkyunkwan University is a hub of interdisciplinary collaboration, supported by multiple national and industrial funding projects, advancing Korea’s competitiveness in nanomaterials research and flexible electronics. His continuing innovations are redefining frontiers in next-generation semiconductors, photonic devices, and intelligent sensing systems.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles | IEEE Xplore

Featured Publications

1. Kim, S., Konar, A., Hwang, W. S., Lee, J. H., Lee, J., Yang, J., Jung, C., Kim, H., … (2012). High-mobility and low-power thin-film transistors based on multilayer MoS₂ crystals. Nature Communications, 3(1), 1011.

2. Choi, W., Cho, M. Y., Konar, A., Lee, J. H., Cha, G. B., Hong, S. C., Kim, S., Kim, J., … (2012). High‐detectivity multilayer MoS₂ phototransistors with spectral response from ultraviolet to infrared. Advanced Materials, 24(43), 5832–5836.

3. Liu, N., Kim, P., Kim, J. H., Ye, J. H., Kim, S., & Lee, C. J. (2014). Large-area atomically thin MoS₂ nanosheets prepared using electrochemical exfoliation. ACS Nano, 8(7), 6902–6910.

4. Kim, S., Kwon, H. J., Lee, S., Shim, H., Chun, Y., Choi, W., Kwack, J., Han, D., … (2011). Low-power flexible organic light-emitting diode display device. Advanced Materials, 23(31), 3511–3516.

5. Lee, J., Dak, P., Lee, Y., Park, H., Choi, W., Alam, M. A., & Kim, S. (2014). Two-dimensional layered MoS₂ biosensors enable highly sensitive detection of biomolecules. Scientific Reports, 4(1), 7352.

 

Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

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Dr. Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

Lecturer | Zhejiang Ocean University | China

Dr. Jianwei Chen is a dedicated researcher and lecturer at Zhejiang Ocean University, China, whose work focuses on the development of micro- and nanostructured electronic and photonic devices based on van der Waals (vdW) two-dimensional materials. His research contributes to the advancement of terahertz focal plane array devices and the engineering of high-performance heterostructures for next-generation optoelectronic technologies. With 123 citations, 9 publications, and an h-index of 6, Dr. Jianwei Chen has made impactful contributions to materials science and applied physics. His recent works published in reputed journals such as Materials Today Physics and ACS Applied Materials & Interfaces explore the design, modulation, and optimization of vdW 2D material interfaces and heterostructures, establishing a foundation for their practical use in terahertz imaging and advanced photonics. Earlier in his career, his studies on calcium alumino-titanate and bauxite–SiC composites significantly contributed to the understanding of microstructural control and mechanical performance in ceramic refractories. Dr. Jianwei Chen’s ongoing research integrates electronic engineering, material science, and device physics, emphasizing innovative interface engineering and controlled synthesis of high-quality bubble-free conducting vdW heterostructures. His contributions are recognized through distinctions such as the Outstanding Master’s Thesis Award by the China Society of Metallurgical Education (2020). He actively participates in research collaborations and academic dissemination, promoting advancements in nano-optoelectronics and 2D materials-based device fabrication. His scholarly output reflects a commitment to bridging fundamental research with functional device applications, particularly in terahertz imaging and nanophotonics, aligning with global trends in advanced material innovation and device miniaturization.

Profiles: Scopus | ORCID

Featured Publications

  • Chen, J., Guo, Y., Su, Y., et al. (2025). Interface interaction, design, modulation, and optimization of van der Waals two-dimensional materials. Materials Today Physics, 58, 101878.

  • Chen, J., Liu, L., Chen, H., et al. (2024). Controlled preparation of high-quality bubble-free and uniform conducting interfaces of vertical van der Waals heterostructures of arrays. ACS Applied Materials & Interfaces, 16, 10877–10885.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of partial substitution of calcium alumino-titanate for bauxite on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 2934–2940.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of the calcium alumino-titanate particle size on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 6564–6572.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Sintering and microstructure characterization of calcium alumino-titanate-bauxite-SiC composite refractories. Ceramics International, 44, 10934–10939.

 

QinghuaWei |Nanosensors and Actuators | Best Researcher Award

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Assoc. Prof. Dr. Qinghua Wei | Nanosensors and Actuators | Best Researcher Award

Associate Professor at Northwestern Polytechnical University, China

Dr. Qinghua Wei, a distinguished Doctor of Engineering and doctoral supervisor, is recognized for his pioneering research in composite materials and biological additive manufacturing. As a recipient of the “Aerospace New Star” award from Northwestern Polytechnical University, he has led over ten major national projects and authored more than 80 high-impact publications, with over 1,600 SCI citations. His innovations have yielded 23 national patents, nine of which have been successfully commercialized, and ten software copyrights. Dr. Wei’s outstanding contributions have earned him prestigious honors, including the First Prize of the National Technology Invention Award and multiple provincial science and technology awards. His interdisciplinary work integrates materials science, 3D bioprinting, and biomedical engineering, with significant translational value. Listed among the world’s top 2% scientists by Stanford University, Dr. Wei exemplifies research excellence and innovation, with a commitment to advancing scientific knowledge and nurturing future scholars in advanced manufacturing and biomaterials.

Professional Profile 

Scopus Profile

Education

Dr. Qinghua Wei holds a Doctorate in Engineering, which has laid the foundation for his extensive academic and research career. His educational journey reflects a solid grounding in materials science, mechanical engineering, and manufacturing technologies. His doctoral training equipped him with the theoretical knowledge and practical skills necessary to address complex problems in composite material design and additive manufacturing. Through rigorous academic preparation, Dr. Wei developed a keen interest in integrating multiple disciplines such as biomaterials, mechanics, and process engineering. His academic background also provided the platform for his future role as a doctoral supervisor, mentoring graduate students and guiding innovative research projects. His education has not only shaped his technical capabilities but also cultivated his analytical thinking and leadership qualities, enabling him to lead national-level projects and secure recognition within the scientific community. His commitment to lifelong learning continues to inform his work in advanced manufacturing and biomedical applications.

Professional Experience

Dr. Qinghua Wei is a seasoned researcher and doctoral supervisor at Northwestern Polytechnical University, where he also earned recognition through the “Aerospace New Star” science and technology talent program. Over the course of his career, he has led more than ten high-level research projects, including those funded by the National Natural Science Foundation of China and the State Key Research and Development Program. His responsibilities extend beyond research to include project management, academic mentorship, and technology transfer. Dr. Wei has an impressive track record of publishing over 80 peer-reviewed articles and two academic monographs, which have earned wide citation and acclaim. He has also played a pivotal role in translating research into practice, with 23 national invention patents—nine of which have been successfully commercialized. His experience reflects a balanced integration of scientific inquiry, educational mentorship, and innovation-driven entrepreneurship, positioning him as a thought leader in additive manufacturing and materials science.

Research Interest

Dr. Qinghua Wei’s research interests lie at the intersection of composite materials, 3D bioprinting, and biomedical manufacturing. His work focuses on the multi-scale design and functional modification of composite materials for high-performance applications. A major area of emphasis is the development of biological additive manufacturing technologies, including novel bio-inks, smart hydrogels, and multi-material extrusion systems for 3D printing. He has contributed significantly to tissue engineering, particularly in the fabrication of bone scaffolds, skin substitutes, and soft tissue constructs using biocompatible hydrogels. His work also explores the optimization of printing parameters through numerical modeling and simulation, ensuring both structural integrity and cell viability. By integrating mechanical design, material science, and bological systems, Dr. Wei is pioneering advanced solutions with both clinical and industrial relevance. His interdisciplinary research not only advances fundamental science but also offers practical tools and technologies that address challenges in healthcare, aerospace, and precision manufacturing.

Award and Honor

Dr. Qinghua Wei has received numerous awards and honors that underscore his contributions to science and technology. Most notably, he was awarded the First Prize of the National Technology Invention Award in 2019, a prestigious national recognition of groundbreaking research with significant impact. He has also received the Second Prize of the Shaanxi Provincial Natural Science Award (2024) and the First Prize of the Shaanxi Provincial University Science and Technology Award in 2024, 2020, and 2016, demonstrating sustained excellence over the years. In 2023, his research was evaluated as qualified by the International Association for Science and Technology Promotion of China. Furthermore, his scientific output has earned him a place in Stanford University’s list of the world’s top 2% scientists, reflecting both national and international acknowledgment. These honors affirm Dr. Wei’s leadership in his field and validate the relevance, originality, and societal value of his research contributions.

Conclusion

In summary, Dr. Qinghua Wei is an accomplished researcher whose academic rigor, innovative spirit, and translational impact make him a standout figure in engineering and applied sciences. With a solid educational foundation, extensive project leadership, and cutting-edge interdisciplinary research, he bridges theory and real-world application in fields such as composite materials and 3D bioprinting. His work has led to high-impact publications, patent commercialization, and influential collaborations, reflecting both depth and breadth in his expertise. Dr. Wei’s career is marked by a consistent trajectory of excellence, as evidenced by prestigious national awards and global scientific recognition. As a mentor, inventor, and thought leader, he continues to shape the future of advanced manufacturing and biomedical engineering. His accomplishments not only enhance academic knowledge but also contribute to technological innovation with societal benefits. Dr. Wei is undoubtedly a strong candidate for major research accolades and an exemplar of excellence in modern engineering research.

Publications Top Notes

  • Title: A triple-network PVA/cellulose nanofiber composite hydrogel with excellent strength, transparency, conductivity, and antibacterial properties

    • Authors: Li, Mingyang; Wang, Yanen; Wei, Qinghua; Liu, Zhisheng

    • Year: 2025

  • Title: 3D printing of microstructured polyacrylamide/sodium alginate/lithium chloride composite hydrogels for nanofriction generator and e-skin

    • Authors: Chen, Xiaohu; Wang, Qinglin; Ma, Shuai; Xu, Yan; Wang, Yanen

    • Year: 2025

    • Citations: 1

  • Title: Investigation of wet-heat coupling and hygroscopic behavior of moso bamboo

    • Authors: Hong, Qi; Wei, Qinghua; Lan, Xianwei; Yuan, Jing

    • Year: 2025

  • Title: Optimal design of multi-biomaterials mixed extrusion nozzle for 3D bioprinting considering cell activity

    • Authors: Wei, Qinghua; An, Yalong; Zhao, Xudong; Zhang, Juan; Cui, Ning

    • Year: 2025

  • Title: Influence of particle size distribution on hydroxyapatite slurry and scaffold properties fabricated using digital light processing

    • Authors: Liu, Minyan; Wang, Yanen; Zhang, Haonan; Liu, Zhisheng; Liu, Xiaowu

    • Year: 2024

    • Citations: 3

  • Title: Research on the flow behavior of bio-ink inside the extrusion nozzle during printing

    • Authors: Wei, Qinghua; An, Yalong; Li, Mingyang; Zhao, Xudong

    • Year: 2024

  • Title: Optimization of hydrogel extrusion printing process parameters based on numerical simulation

    • Authors: Wei, Qinghua; Li, Mingyang; An, Yalong; Zhao, Xudong; Sun, Daocen

    • Year: 2024

Dr. Wonder Dlamini | Nanotechnology | Excellence in Research

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Dr. Wonder Dlamini | Nanotechnology | Excellence in Research

Dr. Wonder Dlamini, National Yang Ming Chiao Tung University, Taiwan

Dr. Wonder Nathi Dlamini 🇸🇿 is an innovative research scientist and educator based in Taipei 🇹🇼, originally from Eswatini. With a Ph.D. in Environmental Science & Technology from NYCU 🎓 and a Master’s in Soil & Environmental Sciences from NCHU, he blends nanotechnology, microbial research, and environmental health in impactful ways. His work on antiviral nanomaterials, water purification, and indoor air quality 🌍💧 has gained international recognition through publications, global presentations 🌐, and leadership roles. As an Advanced HE Fellow and WERESA Taiwan Chapter Chair 👨‍🏫, he’s committed to sustainability, science diplomacy, and mentoring future environmental leaders 🌱🔬.

Professional Profile:

Scopus

Orcid

🏅 Summary of Suitability for Excellence in Research Award

Dr. Wonder Nathi Dlamini exemplifies the qualities of an outstanding researcher whose work bridges cutting-edge nanotechnology, microbial science, and environmental sustainability. With a global educational foundation and professional presence, he has consistently demonstrated innovation, leadership, and a commitment to addressing pressing environmental and public health challenges. His impactful research outputs, leadership in academic communities, and dedication to mentoring position him as an exceptional candidate for the Excellence in Research Award.

📚 Education & Experience 

🎓 Ph.D. in Environmental Science and Technology – NYCU, Taiwan (2021–2025)
🎓 M.Sc. in Soil and Environmental Sciences – NCHU, Taiwan (2019–2021)
🧪 Research Scientist – Specializing in antiviral nanomaterials and microbial research
👨‍🏫 Educator – Advanced HE Fellow, mentoring and teaching in multidisciplinary fields
🌏 Conference Chair & Presenter – MIREC, IEEE NANO, ISIAQ, ISEE

🚀 Professional Development 

r. Dlamini actively advances his professional journey through diverse global platforms 🌍. As Chair of the Taiwan Chapter for WERESA (2024–2025) and a member of esteemed organizations like IEEE Nanotechnology Council, ISIAQ, and ISEE 🤝, he cultivates international collaboration. He contributes as a reviewer and editorial board member for top journals including Sustainable Cities & Society and Journal of Environmental Management 📄. His commitment to ethical research, interdisciplinary leadership, and environmental stewardship 🌱 empowers him to inspire innovation and change in both academic and applied environmental science 🌐🔬.

🔬 Research Focus

Dr. Dlamini’s research lies at the intersection of nanotechnology, environmental science, and microbial biotechnology 🔬🌱. His primary focus is on engineering multifunctional nanomaterials like Cu/Ag/TiO₂ and chitosan-based composites for viral and bacterial inactivation 🦠, water purification 💧, and indoor air decontamination 🌬️. He also explores microbial interactions for sustainable agriculture 🌾, developing endophytic bacteria to enhance crop resilience under climate stress ☀️. With a deep commitment to climate-resilient ecosystems and public health, his work bridges lab-based innovation and real-world environmental solutions 🌍⚗️.

🏆 Awards & Honors 

🥇 Chairman – Taiwan Chapter, WERESA (2024–2025)
🧑‍🏫 Advanced HE Fellow – Higher Education recognition for teaching excellence
🎤 Keynote Speaker – Multiple international conferences (ISIAQ, IEEE NANO)
📢 Conference Chair – 3rd MIREC Conference, Taipei (2025)
🌟 Featured Author – Multiple high-impact journal publications and conference proceedings

Publication Top Notes:

  • Endophytic Bacteria Derived from Oryza sativa: Implications for Sustainable Agriculture
  • Enhancing Indoor Air Quality using Ag/TiO₂-CS Nanocomposite Filter Efficacy against Viral Aerosols
  • Enhancing Hospital Air Quality Through Advanced Purification Systems and Cloud-Enabled Monitoring: Strategies and Innovations
  • Enhanced Removal of Viral Aerosols using Nanosilver/TiO₂-Chitosan Filters Combined with a Negative Air Ionizer
  • Assessment of Air Pollution Emitted During Cooking Using Biomass and Cleaner Fuels in the Shiselweni Region of Eswatini (Swaziland)

Prof. Dr. Mihai OPROESCU | Electronics | Best Researcher Award

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Prof. Dr. Mihai OPROESCU | Electronics | Best Researcher Award

Prof. Dr. Mihai OPROESCU, National University of Science and Technology POLITEHNICA Bucharest, Romania

Mihai Oproescu is an esteemed Associate Professor at the National University of Science and Technology Politehnica Bucharest, Pitesti University Center. With a Ph.D. in Electronics and Telecommunications 🎓, he specializes in electronics, telecommunications, power devices, and bioinformatics ⚡📡. His career spans academia and industry, including leadership roles such as Dean and General Administrative Director 🏛️. Passionate about research, he has contributed to multiple Horizon 2020 and national grants 🔬. Mihai also manages international conferences and scientific symposia 🌍. His expertise extends to renewable energy, smart grids, and nanostructured materials 🔋.

Professional Profile:

Scopus

Orcid

Suitability for Best Researcher Award

Dr. Mihai Oproescu is an outstanding researcher and academic leader, making him a strong candidate for the Best Researcher Award. His expertise in electronics, telecommunications, renewable energy, and nanostructured materials has led to groundbreaking research and technological advancements. His leadership roles, contributions to Horizon 2020 projects, and interdisciplinary research solidify his impact on the scientific community.

Education & Experience 🎓🔬

📌 Education:

  • Ph.D. in Electronics and Telecommunications 🎓
  • Master’s in Electrical and Electronic Engineering 🎓
  • Bachelor’s in Electronics and Telecommunications 🎓

📌 Academic Positions:

  • Associate Professor (2022–Present) – Politehnica Bucharest, Pitesti Center 👨‍🏫
  • General Administrative Director (2022–Present) – Politehnica Bucharest, Pitesti Center 🏛️
  • Dean, Faculty of Electronics, Communications, and Computers (2017–2020) – University of Pitești 🎓
  • Vice-Dean (2016–2017) – University of Pitești 🎓
  • Head of Works (2012–2016) – University of Pitești 🎓

📌 Industry & Management Roles:

  • Manager, S.C. ECAI Conference S.R.L. (2014–Present) 📊
  • Manager, S.C. Expert Info Teach S.R.L. (2005–Present) 💼
  • Technical Consultant, Engineering and Industrial Realization, France (2003) 🏭

Professional Development 🚀

Mihai Oproescu has been at the forefront of academic innovation and technological advancements 📡. His leadership as Dean and General Administrative Director has significantly shaped university policies and research directions 🏛️. His passion for renewable energy, smart grids, and nanomaterials has led to groundbreaking research in nanostructured magnesium oxide and solar cell efficiency 🌱🔬. Beyond academia, he actively organizes international conferences and collaborates on European projects 🌍. As a mentor and researcher, Mihai is dedicated to bridging the gap between academia and industry, ensuring technological evolution and societal impact 🔄💡.

Research Focus 🔍

Mihai Oproescu’s research spans multiple high-impact fields, focusing on electronics, telecommunications, and nanostructured materials ⚙️. His Horizon 2020 projects delve into smart grid efficiency, renewable energy integration, and bioinformatics applications ⚡🌱. He has also worked on advanced power electronics, medical electronics, and static converters 🏥. His studies on vibration monitoring for infrastructure protection and nanostructured oxide layers for solar energy contribute to sustainable and resilient technologies 🌞🏗️. Mihai’s expertise in fuel cell power flows, electromagnetic shielding, and hybrid propulsion systems makes him a key figure in next-generation electronic innovations ⚡🚀.

Awards & Honors 🏆

🏅 Director, Horizon 2020 Project (2022–2023)Nanostructured Magnesium Oxide Powders
🏅 Technical Manager, Horizon 2020 Project (2021–2022)Solar Cell Efficiency Enhancement
🏅 ERA-Net Smart Grids Plus Member (2018–2021)Smart Grid Revenue Assurance
🏅 Director, UEFISCDI Grant (2016–2018)Critical Infrastructure Protection
🏅 Key Contributor, CNCSIS Grant (2007)Fuel Cell Power Flow Optimization
🏅 Researcher, CEEX-AMTRANS Project (2006–2008)Hybrid Transport Propulsion Systems
🏅 Member, MATNANTECH Project (2006–2008)Electromagnetic Shielding Solutions
🏅 Contributor, AMTRANS Project (2006–2008)Renewable Energy Conversion

Publication Top Notes:

  • 🚗 “Energy management of electric vehicle using a new strategy based on slap swarm optimization and differential flatness control” – (2024) 📖 2 citations
  • 🌪️ “Self-filtering based on the fault ride-through technique using a robust model predictive control for wind turbine rotor current” – (2024) 📖 8 citations
  • ⚡ “Application of fractional-order synergetic-proportional integral controller based on PSO algorithm to improve the output power of the wind turbine power system” – (2024) 📖 15 citations
  • 🔬 “Tailoring the Synthesis Method of Metal Oxide Nanoparticles for Desired Properties” – (2024) 📖 2 citations
  • 🔋 “Influence of Supplementary Oxide Layer on Solar Cell Performance” – (2024) 📖 2 citations

 

Dr. Byung-Wook Kim | Nanomaterials | Best Researcher Award

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Dr. Byung-Wook Kim | Nanomaterials | Best Researcher Award

Dr. Byung-Wook Kim, Columbia University, United States

Dr. Byung-Wook Kim is an Associate Research Scientist at Columbia University, specializing in nanomaterials, energy harvesting, and thermal management. With a Ph.D. in Materials Science & Engineering from UCSD 🎓, his work focuses on advanced materials for thermal and electrical applications. Previously, he was a Senior Research Engineer at Hyundai Motor Company 🚗, where he contributed to energy-efficient automotive materials. Dr. Kim has received prestigious awards 🏆 and has published extensively in high-impact journals. His collaborations with Columbia Nano Initiative and leading researchers drive advancements in radiative cooling, thermoelectrics, and polymer nanocomposites.

Professional Profile:

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Suitability of Dr. Byung-Wook Kim for the Best Researcher Award 🏆

Dr. Byung-Wook Kim is a leading researcher in nanomaterials, energy harvesting, and thermal management, making groundbreaking contributions to radiative cooling, thermoelectrics, and polymer nanocomposites. His expertise spans both academia and industry, with notable contributions at Columbia University and Hyundai Motor Company. His high-impact publications, prestigious awards, and pioneering research in sustainable energy solutions position him as a strong candidate for the Best Researcher Award.

Education & Experience 🎓👨‍🔬

  • Ph.D. in Materials Science & Engineering – University of California, San Diego (UCSD) 🏛️

  • M.S. in Applied Physics – University of California, San Diego (UCSD) ⚛️

  • B.S. in Physics – Hanyang University, Seoul 🇰🇷

  • Associate Research Scientist – Columbia University 🏢

  • Senior Research Engineer – Hyundai Motor Company 🚘

  • Postdoctoral Researcher – Advanced materials and energy systems 🔬

Professional Development 🚀

Dr. Byung-Wook Kim has been at the forefront of nanomaterials, energy storage, and thermoelectric technology. His expertise extends to radiative cooling, polymer composites, and photonic structures, enhancing energy efficiency across multiple sectors. At Columbia University, he collaborates with top researchers on breakthrough materials. His industrial experience at Hyundai Motor Company helped develop high-performance energy solutions for automotive applications. A dedicated researcher, Dr. Kim actively participates in Columbia Nano Initiative and energy research centers. With numerous high-impact publications and awards, he remains a key contributor to advancing sustainable and efficient energy technologies 🌍🔋.

Research Focus 🔬

Dr. Byung-Wook Kim’s research primarily revolves around nanomaterials, thermal management, and energy harvesting. His work explores carbon nanotube-polymer composites for enhanced electrical and thermal conductivity, as well as radiative cooling materials to improve energy efficiency ☀️❄️. He is also involved in developing thermoelectric materials that convert waste heat into usable energy ⚡. His contributions extend to photonic structures, advanced composites, and sustainable energy storage solutions. At Columbia University, he collaborates on next-generation energy systems, pushing the boundaries of nanotechnology and applied physics for real-world applications in clean energy and thermal regulation 🌱🔋.

Awards & Honors 🏆🎖️

  • 🏅 Nanoscale Horizons Outstanding Paper Award (2023) – Recognized for excellence in nanomaterials research
  • 🏆 Excellence in Advanced Technology (2019) – Hyundai Motor Company, for contributions to advanced energy-efficient materials
  • 📜 Multiple High-Impact Publications – Featured in Light: Science & Applications, Journal of Applied Physics, Nanomaterials
  • 🎓 Research Grants & Fellowships – Funding for cutting-edge energy and materials research
  • 🔬 Columbia Nano Initiative Affiliation – Recognized researcher in advanced materials and nanotechnology

Publication Top Notes:

  • 🏭 Abrasion Effect on Heating Performance of Carbon Nanotube/Epoxy Composites
  • 🌱 Bio-Based Phase Change Materials for Sustainable Development
  • 📏 Thermoelastic Modeling of Cubic Lattices from Granular Materials to Atomic Crystals
  • An Ag–Au-PANI Core–Shell Nanowire Network for Visible-to-Infrared Data Encryption and Supercapacitor Applications
  • ☀️ Photonic Structures in Radiative Cooling