Dr. Sergey Uchaikin | Quantum Sensors | Lifetime achievement Award

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Dr. Sergey Uchaikin | Quantum Sensors | Lifetime achievement Award

Senior Research Fellow | Institute for Basic Science | South Korea

Dr. Sergey Uchaikin is a globally recognized scientist and research leader with outstanding contributions to Quantum Sensors research, development, and large scale implementation. His expertise centers on Quantum Sensors for low temperature physics, superconducting technologies, precision measurement, and frontier particle physics experiments, where Quantum Sensors play a decisive role in sensitivity and reliability. He has authored more than one hundred peer reviewed publications that advance Quantum Sensors performance, noise reduction, and system integration, earning widespread citations across the international scientific community. His work on Quantum Sensors has enabled breakthroughs in axion dark matter searches, quantum limited amplification, and cryogenic detection platforms, directly impacting fundamental science and emerging quantum technologies. Through extensive collaborations with leading research institutes and industrial partners worldwide, he has translated Quantum Sensors innovations into practical systems for quantum computing, precision instrumentation, and advanced sensing applications. His leadership continues to shape global progress in Quantum Sensors research, fostering innovation, collaboration, and long term societal benefit in science and technology. Google Scholar profile of 6493 Citations, 28 h-index, 45 i10 index

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Featured Publications

Dr. Maria Hasan | Carbon Nanomaterials | Research Excellence Award

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Dr. Maria Hasan | Carbon Nanomaterials | Research Excellence Award

Researcher | Technical University of Ostrava | Czech Republic

Dr. Maria Hasan is a distinguished researcher whose work in Carbon Nanomaterials has established her as a leading contributor to advanced material chemistry and two dimensional material innovation. Her research journey reflects a sustained commitment to exploring Carbon Nanomaterials through controlled synthesis, structural analysis, functional modification, and application oriented studies. Dr. Maria Hasan has produced influential work on graphene growth, heteroatom doping, electrical property evaluation, and large area fabrication, all rooted in deep expertise in Carbon Nanomaterials. Her publication record spans reputable international journals where Carbon Nanomaterials form the core of her scientific inquiry. She has contributed significantly to collaborative research across global laboratories, integrating Carbon Nanomaterials with emerging approaches in electrochemistry and catalytic systems. Her contributions extend to chromium based nanoparticles and electrocatalytic applications, yet Carbon Nanomaterials remain central to her scientific trajectory. As part of major research programmes supported by international grant frameworks, she continues to advance Carbon Nanomaterials within high technology environments where precision growth of two dimensional heterostructures is essential. Her involvement in supervising research projects and mentoring early career scientists highlights her commitment to strengthening the scientific community through knowledge sharing grounded in Carbon Nanomaterials. Her work is further enriched by peer review service for respected journals, reflecting scholarly integrity and academic responsibility. With an expanding citation record and recognized impact in material science, Dr. Maria Hasan continues to demonstrate how Carbon Nanomaterials can contribute to sustainable technological progress and scientific advancement. Her professional presence in global research networks reinforces the relevance of Carbon Nanomaterials in modern innovation. Scopus profile of 477 Citations, 9 Documents, 7 h index.

Profile: Scopus

Featured Publication

1. Hasan, M., Ta, H. Q., Ullah, S., Yang, X., Luo, J., Bachmatiuk, A., Gemming, T., Trzebicka, B., Mahmood, A., Zeng, M., Fu, L., Liu, L., & Rümmeli, M. H. (2023). Crystal structure, synthesis and characterization of different chromium-based two-dimensional compounds. Arabian Journal of Chemistry, 16(8), Article 104973.

Almara Aliyeva | Nanotechnology | Editorial Board Member

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Ms. Almara Aliyeva | Nanotechnology | Editorial Board Member

Researcher | Baku State University | Azerbaijan

Ms. Almara Aliyeva is a distinguished researcher whose work demonstrates sustained excellence in Nanotechnology and its diverse scientific applications. Her contributions reflect a deep commitment to advancing Nanotechnology through rigorous investigation, multidisciplinary collaboration, and impactful scholarly output. She has authored numerous publications in reputable journals and has accumulated significant citations that highlight the relevance and influence of her research within the global Nanotechnology community. Through her extensive engagement in projects and collaborative initiatives, Ms. Almara Aliyeva has positioned herself as a respected figure in Nanotechnology research, contributing to scientific progress and technological innovation. Her research activities integrate Nanotechnology with advanced materials development, experimental analysis, and emerging scientific methodologies. This ongoing commitment has strengthened the role of Nanotechnology in solving complex scientific challenges and supporting the development of high performance materials that contribute to technological progress. Her involvement in collaborative research teams further enhances the reach of Nanotechnology by fostering knowledge exchange and encouraging new scientific perspectives. These efforts have enabled her to participate in impactful research that supports societal advancement through Nanotechnology based solutions and innovations. Ms. Almara Aliyevacontinuously contributes to the scientific community through active participation in academic discussions, peer review engagements, and interdisciplinary partnerships. Her work demonstrates the transformative potential of Nanotechnology in modern research environments and emphasizes the importance of integrating Nanotechnology into broader scientific and technological frameworks. Her scholarly activities and contributions strengthen the global understanding of Nanotechnology and reinforce its value in addressing scientific, environmental, and industrial challenges. Through her dedication, Ms. Almara Aliyeva remains an influential contributor to the advancement of Nanotechnology and its expanding role in contemporary research.

Profile: SciProfiles

Featured Publication

1. Rahimli, A., & Jafarov, M. (2025). Effect of nanoparticle concentration on the crystallinity, vibrational dynamics and morphology of PS/TiO₂ nanocomposites. Physical Chemistry Chemical Physics.

2. Rahimli, A., & Jafarov, M. (2025). Effect of nanoparticle concentration on the crystallinity, vibrational dynamics, and morphology of PS/TiO₂ nanocomposites. Physics of the Solid State.

Prof. Dr. Guy Le Lay | Materials for 5G and Beyond | Outstanding Scientist Award

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Prof. Dr. Guy Le Lay | Materials for 5G and Beyond | Outstanding Scientist Award

Professor Emeritus | Aix-Marseille University | France

Prof. Dr. Guy Le Lay, Professor Emeritus at Aix-Marseille University, is an eminent physicist whose pioneering contributions to Materials for 5G and Beyond have reshaped the understanding of low-dimensional quantum systems. He earned his engineering degree from the School of Mines Nancy, followed by doctorates in Engineering and Physics from the University of Provence. His professional journey includes leadership in international collaborations with CNES, ESA, NASA, and major scientific committees. His groundbreaking research on silicene, germanene, and other Xenes has propelled Materials for 5G and Beyond into new scientific frontiers, influencing the evolution of nanostructures and topological quantum materials. Recognized globally, his honors include the IUVSTA Prize for Science, the Fernand Holweck Medal and Prize, and fellowships from Nagoya University and the Japan Society for the Promotion of Science. His research expertise encompasses atomic-scale surface science, quantum materials, and advanced interface engineering key enablers for Materials for 5G and Beyond. With deep proficiency in synchrotron radiation, surface spectroscopy, and nanoscale material design, he remains a visionary in the physics of Materials for 5G and Beyond. His academic excellence is mirrored by leadership in international symposia and scientific advisory roles promoting Materials for 5G and Beyond across global platforms. Prof. Dr. Guy Le Lay’s enduring legacy continues to inspire innovation in Materials for 5G and Beyond applications and quantum device engineering. Google Scholar profile of 19028 Citations, 59 h-index, 171 i10-index.

Profile: Google Scholar

Featured Publications

1. Vogt, P., De Padova, P., Quaresima, C., Avila, J., Frantzeskakis, E., Asensio, M. C., et al. (2012). Silicene: Compelling experimental evidence for graphenelike two-dimensional silicon. Physical Review Letters, 108(15), 155501.

2. Dávila, M. E., Xian, L., Cahangirov, S., Rubio, A., & Le Lay, G. (2014). Germanene: A novel two-dimensional germanium allotrope akin to graphene and silicene. New Journal of Physics, 16(9), 095002.

3. Aufray, B., Kara, A., Vizzini, S., Oughaddou, H., Léandri, C., Ealet, B., & Le Lay, G. (2010). Graphene-like silicon nanoribbons on Ag (110): A possible formation of silicene. Applied Physics Letters, 96(18).

4. De Padova, P., Quaresima, C., Ottaviani, C., Sheverdyaeva, P. M., Moras, P., et al. (2010). Evidence of graphene-like electronic signature in silicene nanoribbons. Applied Physics Letters, 96(26).

5. Le Lay, G. (1983). Physics and electronics of the noble-metal/elemental-semiconductor interface formation: A status report. Surface Science, 132(1–3), 169–204.

Dr. Liping Gong | Mechanical engineering | Best Researcher Award

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Dr. Liping Gong | Mechanical engineering | Best Researcher Award

Associate Research Fellow | University of Wollongong | Australia

Dr. Liping Gong is a distinguished researcher in the field of mechanical engineering, demonstrating exceptional expertise in advanced materials, vibration control, and energy harvesting systems. He earned his Doctor of Philosophy in mechanical engineering from the University of Wollongong, Australia, where his work received the Examiners’ Commendation for Outstanding Thesis. His academic foundation in mechanical engineering was strengthened by a Bachelor’s degree in Engineering Mechanics from Chang’an University, China. As a Postdoctoral Research Fellow, he has made significant strides in developing shear-stiffening phononic crystals through stereolithography for vibration and acoustic applications, alongside mentoring students in material characterization and finite element modeling—core skills in mechanical engineering research. His contributions span the design of magnetorheological elastomers, liquid metal-based nanogenerators, and intelligent materials for energy harvesting, reflecting innovation across various mechanical engineering domains. Dr. Gong’s research in mechanical engineering has been published in top-tier journals such as Advanced Materials, Nano Energy, and Smart Materials and Structures. His dedication has been recognized with the Best Oral Presentation Award at international mechanical engineering conferences. His research skills encompass experimental design, data analysis, material fabrication, and computational modeling—crucial aspects of mechanical engineering advancement. With deep involvement in reviewing for international journals, Dr. Gong continues to contribute to global mechanical engineering excellence. His professional journey highlights a commitment to innovation, interdisciplinary collaboration, and scientific impact within mechanical engineering.Google Scholar profile of 301 Citations, 7 h-index, 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Wang, S., Gong, L., Shang, Z., Ding, L., Yin, G., Jiang, W., Gong, X., & Xuan, S. (2018). Novel safeguarding tactile e‐skins for monitoring human motion based on SST/PDMS–AgNW–PET hybrid structures. Advanced Functional Materials, 28(18), 1707538.

2. Zhang, Q., Lu, H., Yun, G., Gong, L., Chen, Z., Jin, S., Du, H., Jiang, Z., & Li, W. (2024). A laminated gravity‐driven liquid metal‐doped hydrogel of unparalleled toughness and conductivity. Advanced Functional Materials, 34(31), 2308113.

3. Wu, H., Gong, N., Yang, J., Gong, L., Li, W., & Sun, S. (2024). Investigation of a semi-active suspension system for high-speed trains based on magnetorheological isolator with negative stiffness characteristics. Mechanical Systems and Signal Processing, 208, 111085.

4. Gong, L., Xuan, T., Wang, S., Du, H., & Li, W. (2023). Liquid metal based triboelectric nanogenerator with excellent electrothermal and safeguarding performance towards intelligent plaster. Nano Energy, 109, 108280.

5. Jin, S., Yang, J., Sun, S., Deng, L., Chen, Z., Gong, L., Du, H., & Li, W. (2023). Magnetorheological elastomer base isolation in civil engineering: a review. Journal of Infrastructure Intelligence and Resilience, 2(2), 100039.

Franck C Mushid | Engineering | Best Researcher Award

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Mr. Franck C Mushid | Engineering | Best Researcher Award

Doctoral Researcher | University of KwaZulu-Natal | South Africa

Mr. Franck C Mushid, an accomplished scholar in the field of Engineering, has demonstrated outstanding expertise and leadership through his role as a Lecturer and Doctoral Researcher at the University of KwaZulu-Natal. His Engineering background, combined with his deep focus on Battery Energy Storage Systems (BESS), reflects a strong commitment to advancing Engineering solutions for renewable integration and smart grid efficiency. With extensive Engineering research experience and innovative thinking, he develops frameworks that enhance voltage regulation, grid stability, and frequency control. His Engineering-oriented approach bridges theoretical understanding and practical implementation, emphasizing sustainability and real-world adaptability in modern distribution networks. Through Engineering education and mentorship, he cultivates the next generation of innovators, reinforcing academic excellence and applied Engineering research. His professional affiliations and publications highlight a consistent dedication to Engineering progress and energy system optimization. Recognized for his Engineering contributions to renewable infrastructure and grid reliability, he continues to influence the broader landscape of Engineering research and education. His achievements, particularly in sustainable energy systems, underline a vision driven by innovation and academic rigor. This distinguished academic profile is supported by a Google Scholar record of 37 citations, 1 h-index, and 1 i10 index, reflecting Mr. Franck C Mushid’s sustained impact in the field.

Profile: Google Scholar

Featured Publications

1. Mushid, F. C., & Dorrell, D. G. (2017). Review of axial flux induction motor for automotive applications. IEEE Workshop on Electrical Machines Design, Control and Diagnosis.

2. Mushid, F. C., & Khan, M. F. (2023). A survey on energy storage in electric power systems and its applications in MV/LV networks. Preserved in Portico, 21.

3. Mushid, F. C., & Khan, M. F. (2025). Battery energy storage for ancillary services in distribution networks: Technologies, applications, and deployment challenges—A comprehensive review. Energies, 18(20), 5443.

4. Apata, O., & Mushid, F. C. (2025). Energy storage systems in South Africa: A comprehensive review of policy challenges and opportunities for MV/LV networks. 2025 Conference on Information Communications Technology and Society (ICTAS).

5. Mushid, F. C., & Khan, M. F. (2025). An analysis of South Africa's diurnal energy distribution towards a strategy on LV storage. IET Renewable Power Generation, 19(1), e70106.

Dr. Mohamed Abdi | Engineering | Best Researcher Award

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Dr. Mohamed Abdi | Engineering | Best Researcher Award

Teacher | Tissemsilt University | Algeria

Dr. Mohamed Abdi is a distinguished researcher in Mechanical Engineering whose academic and professional journey reflects a profound commitment to advancing the frontiers of Engineering science. With an extensive educational foundation in Energetics and Mechanical Engineering, his expertise bridges theoretical and applied aspects of Engineering thermodynamics, fluid mechanics, and heat transfer. His Engineering research primarily explores the rheological, hydrodynamic, and thermal behavior of non-Newtonian and nanofluid systems through advanced numerical and simulation-based Engineering methodologies. Dr. Abdi’s Engineering contributions include numerous publications in high-impact journals and conferences addressing turbulence modeling, convective heat transfer, and magnetohydrodynamic flow within complex Engineering systems. His participation in various international Engineering collaborations and his authorship of Engineering book chapters demonstrate his capacity to translate scientific insight into practical innovation. Dedicated to the progression of renewable energy and thermal management solutions, his Engineering studies aim to optimize system performance and sustainability through computational modeling and Engineering analysis. In recognition of his scholarly impact, he has been actively involved in Engineering education and mentoring, nurturing future engineers with analytical and problem-solving skills essential for global challenges. His meticulous approach to Engineering research and his ability to integrate theoretical models with industrial applications highlight his academic excellence and professional rigor. Dr. Abdi’s Engineering accomplishments stand as a testament to his intellectual leadership and contribution to multidisciplinary Engineering innovation. Google Scholar profile of 48 Citations, 4 h-index, 2 i10 index.

Profile: Google Scholar

Featured Publications

1. Abdi, M., Chaib, K., Menouer, A., & Benferhat, S. (2023). A natural convection conjugate heat transfer of nano-encapsulated phase change materials (NEPCMs) in an inclined blocked square enclosure. Numerical Heat Transfer, Part A: Applications, 84(6), 604–625.

2. Abdi, M., Noureddine, A., & Ould-Rouiss, M. (2020). Numerical simulation of turbulent forced convection of a power law fluid flow in an axially rotating pipe. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 42.

3. Abdi, M. (2024). Combined conjugate free convection and thermal radiation in a porous inclined enclosure occupied with Cu–Al₂O₃ hybrid nanofluid. Numerical Heat Transfer, Part B: Fundamentals, 1–39.

4. Abdi, M. (2025). Laminar convective heat transfer combining buoyancy and thermal radiation of Carreau fluid within a concentric and eccentric annulus. Numerical Heat Transfer, Part B: Fundamentals, 86(9), 2879–2908.

5. Abdi, M., Ould-Rouiss, M., & Noureddine, A. (2024). Hydrodynamic and rheological characteristics of a pseudoplastic fluid through a rotating cylinder. Numerical Heat Transfer, Part A: Applications, 85(2), 250–269.*

Dr. Temitope Adefarati | Engineering | Best Researcher Award

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Dr. Temitope Adefarati | Engineering | Best Researcher Award

Post Doctoral Fellowship | University of Johannesburg | South Africa

Dr. Temitope Adefarati is a distinguished Engineering scholar whose expertise in Electrical and Electronic Engineering has made notable contributions to renewable energy, power systems, and smart grid technology. He holds advanced Engineering degrees from prestigious universities, including a Ph.D. in Electrical Engineering, and has accumulated extensive experience in Engineering education, research, and industry. As an Engineering academic and researcher, he has served as an Associate Professor and Postdoctoral Fellow, contributing to Engineering curriculum development and the supervision of numerous postgraduate Engineering theses. His Engineering research focuses on optimizing renewable energy systems, distributed power generation, and sustainable energy integration. Dr. Adefarati’s Engineering excellence has been recognized through inclusion in the World’s Top 2% Scientists list for consecutive years and through his active role as an editorial board member of leading Engineering journals such as Frontiers in Smart Grids and International Journal of Energy Research. His Engineering research skills encompass power system reliability analysis, grid-connected PV optimization, and hybrid energy system simulation. With a prolific Engineering publication record in top-tier journals like Applied Energy, he has advanced the understanding of energy management and sustainable power systems. Dr. Adefarati’s Engineering commitment extends beyond academia through consultancy and professional affiliations, including COREN and the South African Institute of Electrical Engineers. His Engineering career demonstrates innovation, leadership, and dedication to advancing global energy solutions. Google Scholar profile of 2885 Citations, 31 i10 index, 22 h-index.

Profiles: ORCID | Google Scholar

Featured Publications

1. Adefarati, T., & Bansal, R. C. (2016). Integration of renewable distributed generators into the distribution system: A review. IET Renewable Power Generation, 10(7), 873–884.

2. Adefarati, T., & Bansal, R. C. (2019). Reliability, economic and environmental analysis of a microgrid system in the presence of renewable energy resources. Applied Energy, 236, 1089–1114.

3. Adefarati, T., & Bansal, R. C. (2017). Reliability assessment of distribution system with the integration of renewable distributed generation. Applied Energy, 185, 158–171.

4. Adefarati, T., & Bansal, R. C. (2017). Reliability and economic assessment of a microgrid power system with the integration of renewable energy resources. Applied Energy, 206, 911–933.

5. Adefarati, T., Bansal, R. C., & Just, J. J. (2017). Reliability and economic evaluation of a microgrid power system. Energy Proceedings, 142, 43–48.

Otilia Pitulac | Engineering | Best Researcher Award

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Ms. Otilia Pitulac | Engineering | Best Researcher Award

Teaching Assistant | Technical University Gheorghe Asachi Iasi | Romania

Ms. Otilia Pitulac is an emerging scholar in the field of Environmental Engineering, recognized for her growing expertise and dedication to sustainability-driven Engineering innovations. She currently serves as a Teaching Assistant at the “Gheorghe Asachi” Technical University of Iași, where she contributes to academic and research excellence in hydrotechnics, geodesy, and environmental Engineering. Her academic journey includes a PhD in Environmental Engineering, a Master’s in Geomatics and Cartography, and a Bachelor’s in Geography, reflecting a strong foundation in both theoretical and applied Engineering disciplines. Ms. Pitulac’s research interests lie in environmental management, green city development, climate resilience, and sustainable Engineering practices. Her work emphasizes innovative approaches to soil conservation, resource optimization, and urban ecological balance within modern Engineering systems. Throughout her academic and professional experience, she has demonstrated Engineering skills in GIS analysis, project coordination, sustainable soil management, and environmental modeling. Her Engineering achievements are complemented by strong teamwork and communication abilities, essential for collaborative research environments. Ms. Pitulac has been actively engaged in guiding students and supporting Engineering research projects focused on sustainability and urban innovation. She has shown excellence in applying Engineering principles to address real-world environmental challenges, contributing meaningfully to the field’s evolution. Through continuous learning, practical engagement, and technical proficiency, Ms. Otilia Pitulac exemplifies the new generation of researchers shaping the future of sustainable Engineering, demonstrating an unwavering commitment to innovation, academic integrity, and interdisciplinary advancement.

Profile: ORCID

Featured Publication

1. Pitulac, O., Chirilă, C., Stătescu, F., & Marcoie, N. (2025). GIS-based assessment of photovoltaic and green roof potential in Iași, Romania. Applied Sciences, 15(19), 10786.

Ran Wang | Materials Science | Women Researcher Award

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Ms. Ran Wang | Materials Science | Women Researcher Award

Student at Beijing Institute of Technology, China

Wang Ran is a dedicated master’s student in Materials Science and Engineering at Beijing Institute of Technology. She completed her undergraduate studies at Shandong University. With a keen interest in absorbing materials, she is committed to advancing research in this field. Though at an early stage in her academic journey, she is eager to contribute to scientific advancements. Wang Ran aspires to explore innovative materials with potential applications in energy absorption and electromagnetic shielding. Her passion for scientific discovery drives her ambition to make significant contributions to materials engineering. She is applying for the Women Research Award or Young Scientist Award. 🌟

Professional Profile 

Education & Experience 📚🔍

  • 🎓 Master’s Degree (Ongoing) – Beijing Institute of Technology, Materials Science and Engineering
  • 🎓 Bachelor’s Degree – Shandong University, Materials Science and Engineering

Professional Development 📖🔬

Wang Ran is in the early stages of her academic career, focusing on developing expertise in absorbing materials. She actively engages in coursework, laboratory experiments, and independent research projects to build a strong foundation in material science. Passionate about innovation, she continuously explores the latest advancements in materials engineering. Though she has not yet published any journals or patents, she is eager to collaborate with experts in her field. Her long-term goal is to contribute groundbreaking research that enhances the performance of absorbing materials in practical applications such as stealth technology and electromagnetic interference shielding. 🚀

Research Focus🏗️🔬

Wang Ran’s research interests lie in the field of absorbing materials, a crucial area in materials science that plays a significant role in energy dissipation, stealth technology, and electromagnetic shielding. She is particularly interested in developing new materials that can efficiently absorb electromagnetic waves and reduce interference in electronic devices. By studying the structural and compositional properties of these materials, she aims to optimize their absorption efficiency and enhance their performance in real-world applications. Her research has potential implications in defense, aerospace, and communication industries, where advanced absorbing materials are essential for improving stealth and signal integrity. 📡🛡️

Awards & Honors 🏆🎖️

  • 🌟 Nominee – Women Research Award (2025)
  • 🌟 Nominee – Young Scientist Award (2025)
  • 🎓 Bachelor’s Degree Completion – Shandong University
  • 📖 Master’s Degree Pursuit – Beijing Institute of Technology

Publication Top Notes

  • “Resonantly pumped acousto-optic Q-switched Er:YAG lasers at 1617 and 1645 nm”

    • Authors: R. Wang, Q. Ye, C. Gao
    • Journal: Applied Optics, 2014
    • Citations: 5
    • Summary:
      • Discusses the development of acousto-optic Q-switched Er:YAG lasers emitting at 1617 nm and 1645 nm.
      • The lasers are resonantly pumped, enhancing efficiency.
      • These wavelengths are valuable for medical, LIDAR, and optical communication applications.

  • “Single-frequency operation of a resonantly pumped 1.645μm Er:YAG Q-switched laser”

    • Authors: R. Wang, Q. Ye, Y. Zheng, M. Gao, C. Gao
    • Type: Conference Paper
    • Citations: 13
    • Summary:
      • Focuses on achieving single-frequency operation of an Er:YAG laser at 1645 nm.
      • Uses resonant pumping and a Q-switching technique for better performance.
      • Suitable for high-precision applications such as spectroscopy and atmospheric sensing.

Conclusion

While Wang Ran shows potential in her research field, she currently lacks the extensive academic contributions and professional engagement necessary to compete for a “Best Researcher” or “Women Researcher” award. She would be a more suitable candidate for a “Young Scientist Award” in the future, provided she enhances her publication record, citations, collaborations, and industry engagement.