Zhuang Li | Laser Technologies | Best Researcher Award

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Zhuang Li | Laser Technologies | Best Researcher Award

Mr. Zhuang Li, Xiamen University, China.

Publication profile

Orcid

Education and Experience

1️⃣ B.Sc. in Electrical Engineering and Automation – Minnan Normal University (2016-2020) 🎓

  • GPA: 3.7/4

2️⃣ M.Sc. in Communication Engineering – Xiamen University (2020-2022) 🧑‍🎓

  • GPA: 3.72/4 | Supervisor: Dr. Zhiping Cai

3️⃣ Ph.D. in Integrated Circuit Science and Engineering – Xiamen University (2022-Present) 🛠️

  • GPA: 3.77/4 | Supervisor: Dr. Zhiping Cai

4️⃣ Visiting Scholar in Bio-lasers – Nanyang Technological University, Singapore (2024-2025) 🌍🔬

Suitability For The Award

Mr.Zhuang Li is a highly qualified candidate for the Best Researcher Award due to his outstanding research achievements and deep expertise in the field of laser technology and integrated circuit science. His academic background, innovative contributions, and involvement in cutting-edge projects make him a promising leader in his field.

Professional Development 

Awards and Honors

1️⃣ Fujian Provincial Electronic Design Competition, Third Prize 🥉 – July 2017
2️⃣ Fujian Graduate Student Electronic Design Competition, Third Prize 🥉 – May 2021
3️⃣ China Graduate Student Electronic Design Competition, Third Prize 🥉 – July 2021
4️⃣ Huawei Scholarship, Xiamen University 🎓 – September 2021
5️⃣ Youxun Scholarship, College of Electronic Science and Technology 🏅 – June 2023
6️⃣ Graduate Student Academic Scholarship, Xiamen University 📚 – 2020-Present
7️⃣ Cao Dewang Scholarship, Xiamen University 🌟 – May 2024

Publications

  • Highly efficient LD-pumped high power 718.5 nm Pr³⁺:YLF laser
  • Sub-picometer level all-solid-state narrow linewidth single-frequency Pr³⁺:LiYF₄ laser in the near-infrared spectral region
  • Wavelength-switchable watt-level continuous wave near-infrared Pr³⁺:LiYF₄ lasers pumped by an InGaN laser diode
  • Dual-ended pumped high-power 915 nm Pr³⁺:LiYF₄ laser and power scaling under energy levels cascade
  • Blue LD-pumped continuous wave a-cut Pr³⁺:LiYF₄ near-infrared laser at 868 nm
  • LD-pumped all-solid-state single-longitudinal-mode Pr³⁺:LiYF₄ laser at 915 nm
  • Continuous broadband tunable Pr³⁺:LiYF₄ laser in the near-infrared spectral range

Viviane Pilla | Nonlinear Optics | Best Researcher Award

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Viviane Pilla | Nonlinear Optics | Best Researcher Award

Assoc Prof Dr. Viviane Pilla, Universidade Federal de Uberlândia, Brazil.

Publication profile

Scopus
Orcid

Education and Experience

  • Ph.D. in Applied Physics
    University of São Paulo (USP), Brazil (2001) 📚
  • Master’s in Applied Physics
    University of São Paulo (USP), Brazil (1996) 🎓
  • Graduation in Physics (Licenciatura and Bacharelado)
    São Paulo State University (UNESP), Brazil (1993) 🎓
  • Postdoctoral Research
    • NOVA University of Lisbon, Portugal (2015-2016) 🌍
    • UNICAMP, Brazil (2005) 🇧🇷
    • UFPE, Brazil (2001-2002) 🇧🇷
  • Current Position
    Associate Professor III, Federal University of Uberlândia (UFU) 💼

Suitability For The Award

Dr. Viviane Pilla is a distinguished candidate for the Best Researcher Award due to her extensive contributions to the field of Applied Physics, particularly in the areas of nonlinear optics, optical properties of condensed materials, and biomaterials. Her robust academic background and impactful research activities demonstrate her commitment to advancing scientific knowledge and application.

Professional Development 

Awards and Honors 

  • CNPq Productivity Fellowship (Level 2) 🇧🇷
  • Grantee of CNPq (Brazil) for Ph.D. and Master’s degrees 🎓
  • Postdoctoral Fellowships funded by CNPq and FAPESP 🇧🇷
  • Recognition for Contributions to Nonlinear Optics in various scientific forums 🏆
  • Research Publications in Leading Journals recognized for their impact 🌟

Publications

  • Influence of Nb2O5 on the luminescent and structural properties of nanostructured phosphate glasses doped with RE3+ ions – Silva Neto, L.P., Camilo, N., Filho, J.C., … Dantas, N.O., Andrade, A.A. (2024) – 0 citations 📖✨
  • Athermal phosphate glass matrix at room temperature investigated by thermal lens – Filho, J.C.S., Zilio, S.C., Camilo, N., … Dantas, N.O., Andrade, A.A. (2024) – 1 citation 🔍📊
  • Optical and thermal characterization of a nanofluid of MPA-functionalized CdSe nanocrystals and Au nanorods: An energy transfer process analysis – Camilo, N.S., Fraga, W.G., Filho, J.C.D.S., … Lourenço, S.A., Andrade, A.A. (2023) – 0 citations 🧪💡
  • Nd3+ high order electrical susceptibility induced by CdS nanocrystals in a phosphate glass matrix – Camilo, N.S., Filho, J.C.S., Pilla, V., … Dantas, N.O., Andrade, A.A. (2023) – 2 citations ⚡📈
  • Fluorescence Quantum Yields and Lifetimes of Aqueous Natural Dye Extracted from Tradescantia pallida purpurea at Different Hydrogen Potentials – De Lima, S.R., Lourenço, L.R., Thomaz, M., … Andrade, A.A., Pilla, V. (2023) – 1 citation 🌼🔬
  • High photoluminescence quantum efficiency in near infrared of CdS nanocrystals in glass phosphate matrix – Camilo, N.S., Messias, D.N., Pilla, V., … Dantas, N.O., Andrade, A.A. (2022) – 6 citations 🌈📊
  • CdS Nanocrystals in Glass Phosphate Matrix With High Photoluminescence Quantum Efficiency in Near Infrared – Camilo, N.S., Messias, D.N., Pilla, V., … Dantas, N.O., Andrade, A.A. (2022) – 0 citations 📄🔭
  • Thermo-Optical Characterization of Natural Fluorescent Dyes for Potential of Hydrogen Indicators – Lourenço, L.R., de Lima, S.R., Santos, T.T.S., … Andrade, A.A., Pilla, V. (2022) – 0 citations 🔬🌡️

Yingyi Qiu | Optical Engineering | Best Researcher Award

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Yingyi Qiu | Optical Engineering | Best Researcher Award

Mr. Yingyi Qiu , Fuzhou University , China.

📚🔬Publication Profile

Scopus

Suitability For The Award

Yingyi Qiu, a Master’s degree candidate in Integrated Circuit Engineering at Fuzhou University, is an exceptional candidate for the Best Researcher Award. Yingyi’s research focus on optical design for backlight modules and energy-efficient LED driver circuits has resulted in innovative contributions to display technologies. Notably, Yingyi has developed a light propagation cavity with staggered light bars, improving luminance uniformity by 77%, and co-invented a patented backlight module. Additionally, Yingyi co-designed a direct-drive feedback LED strip driver circuit that increased energy efficiency by 5.8%, which is now in mass production. These contributions bridge academic research with industry applications, demonstrating Yingyi’s ability to solve real-world challenges in display technologies.

Education and Experience:

Professional Development

Yingyi Qiu is deeply involved in cutting-edge research and development in display technologies. He has honed his skills through hands-on experience in both academia and industry, particularly during his internship at TPV Technology. Yingyi has successfully transitioned innovative designs, like the direct-drive feedback LED strip driver circuit, into mass production, demonstrating a strong capacity to bridge the gap between theoretical research and commercial application. His focus on energy-efficient solutions and optical innovation continues to drive his professional growth. Yingyi is committed to making tangible improvements in display technologies. 💼📈🔧

Research Focus

Yingyi Qiu’s research primarily revolves around advancing optical design for backlight modules and developing energy-efficient LED driver circuits. He focuses on improving luminance uniformity and minimizing energy losses in edge-lit displays. His patented design for a staggered light bar significantly enhances brightness uniformity by 77%, solving a major industry problem with hotspots in displays. Additionally, his ongoing research on direct-drive feedback LED strip driver circuits has led to a 5.8% increase in energy efficiency, with designs that are now being mass-produced. Yingyi’s research addresses key challenges in modern display technology. 📊💡🔋

Awards and Honors 🏆✨

  • Best Research Paper Award (2022) for contributions to GaN laser diode research. 🏆✨
  • Outstanding Graduate Award (2019) from V. Lashkaryov ISP NASU for academic excellence in doctoral studies. 🎓🎖️
  • Scholarship Recipient (2014-2019) for excellence in research during her Ph.D. program. 📜🎉
  • Young Scientist Award (2018) from the Ukrainian Chemical Society for innovative research contributions. 🌟🔬

Publications 📚📝

Conclusion

Yingyi Qiu’s innovative contributions to display technology, particularly in enhancing luminance uniformity and energy efficiency, make Yingyi an excellent candidate for the Best Researcher Award. The combination of academic rigor, patented designs, and industry collaboration sets Yingyi apart as a researcher with a profound impact on the field of optical engineering and display technology.

Mohamed Abdelsalam Mansour | Photonics  | Best Researcher Award

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Mohamed Abdelsalam Mansour | Photonics | Best Researcher Award

Dr.  Mohamed Abdelsalam Mansour  Zewail City of Science and Technology  ,  Egypt.

Mr. Mohamed Abdelsalam Mansour is a skilled Photonics Engineer with a B.Sc. in Nanotechnology and Nanoelectronics from Zewail City of Science and Technology 🎓. His expertise lies in MEMS devices, optical resonators, and silicon photonics. Mohamed has actively contributed to various projects, research publications, and teaching roles. He has hands-on experience with advanced tools like COMSOL, MATLAB, and Lumerical for optical design and simulation. Passionate about photonics, he continues to expand his knowledge while mentoring students and conducting cutting-edge research 🔬.

📚🔬Publication Profile

Orcid

Googlescholor

Suitability For The Award

Mohamed Abdelsalam Mansour is an outstanding candidate for a Best Researcher Award, particularly in fields related to photonicsMEMS (Micro-Electro-Mechanical Systems), and nanotechnology. His academic background, coupled with extensive research experience, positions him as an expert capable of contributing to high-impact technological advancements.

Education & Experience 🎓

  • Zewail City of Science and Technology: B.Sc. in Nanotechnology and Nanoelectronics with a focus on Photonics.
  • Cairo University: Freshman in Communication Engineering.
  • Research Assistant | Faculty of Engineering, Ain Shams University 🔬
  • Teaching Assistant | Zewail City of Science and Technology 📚
  • Research Intern | Optical Communications and Laser Lab, Ain Shams University 💡
  • Internship | Center of Nanotechnology & Nanoelectronics Engineering, Zewail City 💻

Professional Development 🚀

Mohamed Abdelsalam Mansour has immersed himself in cutting-edge research and practical experiences in photonics and MEMS design. With hands-on training in optical fiber alignment, MEMS analysis, and nanomaterial synthesis, he has developed a strong foundation in photonic device modeling. His participation in international conferences such as NTA 2022 has broadened his perspective. Mohamed is continuously refining his technical expertise, including skills in computational modeling, mask design, and signal processing, with a passion for innovative engineering solutions 💼🔬.

Research Focus 🔍

Mohamed Abdelsalam Mansour specializes in Photonics and MEMS (Micro-Electro-Mechanical Systems), particularly in optical sensing technologies. His research spans optical resonatorssilicon photonics, and wave-division multiplexing (WDM). He has also explored plasmonic sensors, MEMS actuators, and integrated photonics devices. His projects and publications emphasize high-precision simulations and experimental assessments using tools like COMSOL and Lumerical. Mohamed’s contributions are aimed at improving optical communication systems and advancing the integration of MEMS devices into modern technologies 💡📡.

Awards & Honors 🏆

  • IEEE Volunteer | Zewail City, May 2019 🤝
  • Materials Department Volunteer | NASA Space Apps Cairo, October 2022 🛰️
  • Attendee | 2nd International Nanotechnology Conference, Cairo Marriott Hotel, 2022 🏛️
  • Graduation Project | Grade: Excellent, 2022 🎓

Publications 📚📝

  1. “On-chip Optofluidic Structure for Hormonal Detection Using Stable Fabry-Pérot Resonator” – 2022, International Conference on Electrical, Computer, and Energy Technologies ⚙️📊, cited by 1.
  2. “Optical Fibers Use in On-Chip Fabry–Pérot Refractometry to Achieve High Q-Factor: Modeling and Experimental Assessment” – 2024, Photonics 🌐🔬, cited by 0.
  3. “S-Matrix Analysis of Dense Wave-Division Demultiplexer Based on Add/Drop Ring Resonator Structures” – 2023, National Radio Science Conference 📡📘, cited by 1.

Conclusion

Mohamed Mansour’s well-rounded skill set in photonicsMEMS, and optical engineering paired with his growing publication record and teaching roles makes him an ideal candidate for a Best Researcher Award. His continuous contributions to optical communications and MEMS sensor development demonstrate his potential for innovation and leadership in his field.

Ms. Mizuki Takahashi | Optical Devices | Best Researcher Award | 9412-duplicate-1

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Dr Naveen Dubey |  Analysis | Best Researcher Award | 9424

Vice President at Mediclin Clinical Services,India

Dr. Naveen Kumar Dubey is a highly accomplished pharmaceutical professional with over 22 years of experience. He currently serves as Vice President of CRO Operations at Mediclin Clinical Services Pvt. Ltd., overseeing bioanalytical contract research organizations. With a Ph.D. in Chemistry, he possesses extensive expertise in managing analytical and bioanalytical laboratories across esteemed organizations like Sun Pharma, Ranbaxy, and Jubilant Generics. Dr. Dubey’s career spans bioequivalence studies, LC-MS/MS method development, and regulatory compliance for global markets. He is a skilled leader in project management, strategic planning, and regulatory affairs, ensuring high-quality outcomes in pharmaceutical research and development.

Profile :

Scopus

Education and Experience:

Education:

  • Ph.D. in Chemistry, IGNOU, Delhi, India, 2017-2020
  • M.Tech. in Modern Methods of Chemical Analysis, IIT Delhi, India, Jul 1999-Dec 2000
  • M.Sc. in Organic Chemistry, Delhi University, India, 1997-1999

Research and Innovations:

Takahashi Mizuki’s research contributions include active participation in multiple conferences and publications, demonstrating her impact in the field. She has received recognition for her work with awards and has contributed significantly to research and development in semiconductor materials. Mizuki’s academic journey reflects a dedication to innovation and excellence in semiconductor engineering.

Publication Top Notes :

Investigation of emission plane control in GaInN/GaN multiple-quantum shells for efficient nanowire-based LEDs

Optimization of In-Reactor In Situ Activation Annealing Conditions for Tunnel Junction Layers in Multiquantum Shell GaN-Based Devices

Optimization of the Al Composition of the p-AlGaN Electron Blocking Layer in GaInN/GaN Multiquantum-Shell Nanowire LEDs

Performance Enhancement of Multiple Quantum Shell Nanowire-Based Micro-Light Emitting Diodes with Underlying GaInN/GaN Superlattices

Establishment of process to suppress (0001)-plane emission by introducing EBL in GaInN/GaN multi-quantum shells/nanowires for efficient 480nm-LEDs

 

Ms. Mizuki Takahashi | Optical Devices | Best Researcher Award | 9412

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Ms. Mizuki Takahashi | Optical Devices | Best Researcher Award 

Ms. Mizuki Takahashi , Meijo University , Japan

Takahashi Mizuki is currently a dedicated graduate student at Meijo University, specializing in Materials Engineering with a focus on Semiconductor Engineering. She completed her Master’s degree with distinction, showcasing a strong academic background and a passion for research. Mizuki has achieved significant recognition for her contributions to the field, including winning the Poster Award at the 22nd International Conference on Nanoimprint and Nanoprint Technology (NNT2022) and the Outstanding Poster Award at the 14th International Conference of Nitride Semiconductors (ICNS-14). Her research has been presented at multiple prestigious academic conferences, reflecting her commitment to advancing semiconductor technology. Mizuki’s academic journey is marked by her proactive engagement in research and development, aiming to contribute innovations that enhance semiconductor materials and technologies.

Profile :

Scopus

Education and Experience:

Takahashi Mizuki is currently pursuing her studies in Materials Engineering at Meijo University, focusing on Semiconductor Engineering. She completed her Master’s degree and has excelled in academic achievements, notably winning the Poster Award at the 22nd International Conference on Nanoimprint and Nanoprint Technology (NNT2022) and the Outstanding Poster Award at the 14th International Conference of Nitride Semiconductors (ICNS-14). Mizuki has presented her research at seven academic conferences, showcasing her commitment to advancing semiconductor technology.

Research and Innovations:

Takahashi Mizuki’s research contributions include active participation in multiple conferences and publications, demonstrating her impact in the field. She has received recognition for her work with awards and has contributed significantly to research and development in semiconductor materials. Mizuki’s academic journey reflects a dedication to innovation and excellence in semiconductor engineering.

Publication Top Notes :

Investigation of emission plane control in GaInN/GaN multiple-quantum shells for efficient nanowire-based LEDs

Optimization of In-Reactor In Situ Activation Annealing Conditions for Tunnel Junction Layers in Multiquantum Shell GaN-Based Devices

Optimization of the Al Composition of the p-AlGaN Electron Blocking Layer in GaInN/GaN Multiquantum-Shell Nanowire LEDs

Performance Enhancement of Multiple Quantum Shell Nanowire-Based Micro-Light Emitting Diodes with Underlying GaInN/GaN Superlattices

Establishment of process to suppress (0001)-plane emission by introducing EBL in GaInN/GaN multi-quantum shells/nanowires for efficient 480nm-LEDs