Dr. Yunsheng Wang | Materials | Best Researcher Award

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Dr. Yunsheng Wang | Materials | Best Researcher Award

Assistant Researcher | Tianjin University | China

Dr. Yunsheng Wang is an emerging scholar in the field of organic functional materials, with a strong focus on luminescent materials, room-temperature phosphorescence, and energy-related applications. Currently serving as an Assistant Researcher at Tianjin University, he has developed a reputation for innovative contributions to the design of organic phosphorescent systems and their applications in bioimaging and energy storage. His work has been published in leading international journals, including Advanced Materials, Advanced Functional Materials, and Matter, with several papers recognized as ESI Highly Cited Papers. He has collaborated with leading scientists such as Professors Li Zhen and Tang Benzhong, strengthening his expertise in photophysics and organic optoelectronics. With a foundation in applied and physical chemistry, Dr. Wang combines strong theoretical understanding with experimental innovation. His research aims to advance organic material science for multifunctional applications, positioning him as a promising researcher in chemistry and materials science.

Professional Profile

Google scholar

Education

Dr. Wang received his Ph.D. in Chemistry from Tianjin University under the supervision of Professors Li Zhen and Tang Benzhong. During his doctoral studies he specialized in organic luminescent materials, particularly room-temperature phosphorescence and thermoluminescence, making significant advancements in the field of photophysics. Prior to this, he earned his M.S. in Physical Chemistry from Qinghai Normal University, under Professor Chen Yuantao, where he built a solid background in chemical principles, molecular interactions, and material behavior. His early academic journey began with a B.S. in Applied Chemistry  at Qinghai Normal University, where he graduated among the of his cohort, reflecting his academic excellence and dedication to scientific research. Each stage of his education contributed to developing his expertise, from applied chemistry fundamentals to advanced photophysical mechanisms, equipping him with the skills to innovate in functional organic materials and interdisciplinary applications.

Experience

Dr. Wang has accumulated diverse research experience in chemistry and materials science across prestigious institutions. Since, he has been working as an Assistant Researcher at Tianjin University, focusing on organic luminescent materials and their applications. His role involves leading independent projects, mentoring students, and contributing to collaborative research within the group of Professor Li Zhen. Prior to this, he served as a Research Assistant at Tianjin University, where he gained valuable exposure to advanced laboratory methods and collaborative scientific problem-solving. Earlier in his career, he worked as a Research Assistant at Lanzhou University, further broadening his research scope in applied chemical systems. Across these experiences, Dr. Wang has combined practical laboratory work with theoretical insights, contributing to publications in high-impact journals. His progressive research trajectory highlights his capacity for innovation, problem-solving, and dedication to advancing knowledge in organic photophysics and energy materials.

Research Focus

Dr. Wang’s research lies at the intersection of organic photophysics, materials chemistry, and energy applications. He focuses on designing and synthesizing organic luminescent materials, with special emphasis on room-temperature phosphorescence (RTP), thermoluminescence, and persistent afterglow systems. His work has contributed to understanding the fundamental mechanisms of electron back transfer, molecular aggregation, and Förster resonance energy transfer (FRET) in organic materials. Beyond fundamental studies, Dr. Wang applies these principles to practical domains, including time-resolved bioimaging, visualization of electrical trees, and rechargeable organic cathodes. He also explores host–guest systems and molecular design strategies to achieve long-lived phosphorescence and tunable emission properties. By bridging fundamental photophysics with advanced applications, his research contributes to energy storage, optoelectronic devices, and bioimaging technologies. His interdisciplinary approach, blending chemistry, physics, and materials science, reflects his vision to expand the potential of organic functional materials in addressing energy and biomedical challenges.

Awards and Honors

Dr. Wang’s academic and research excellence has been recognized through multiple honors. As a doctoral researcher at Tianjin University, his work on organic phosphorescent materials received wide recognition, with two of his papers in Advanced Materials and Matter being highlighted as ESI Highly Cited Papers, a distinction reflecting significant global impact. His consistent academic excellence was evident from his undergraduate years, where he graduated of his class at Qinghai Normal University, earning merit-based distinctions. In addition, his selection to work under globally renowned scientists such as Professors Li Zhen and Tang Benzhong further demonstrates his credibility and academic promise. His contributions to high-impact publications and involvement in frontier research on luminescent materials underscore his growing influence in the field. These achievements reflect not only his technical expertise but also his ability to address complex challenges and drive innovation in chemistry and materials science.

Publication Top Notes

Conclusion

The researcher demonstrates a strong research profile, with a focus on materials science and organic chemistry. Their publication record and research impact demonstrate their expertise and commitment to their field. With further collaboration, interdisciplinary research, and technology transfer, they could become an even stronger candidate for the Best Researcher Award. Their contributions to the field of materials science, and their potential for future research, make them a strong contender for this award.

Albandari Alrowaily | Material Science | Best Researcher Award

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Assist. Prof. Dr Albandari Alrowaily | Infectious diseases | Best Researcher Award

Assist Prof at  Princess Nourah bint Abdulrahmman University, Saudi Arabia

🎓 Assist. Prof. Dr Albandari Alrowaily is an Assistant Professor of Physics at Princess Nourah Bint Abdurrahman University, Saudi Arabia. She specializes in theoretical nuclear and atomic physics with a Ph.D. from the University of North Texas. Starting her career as a high school physics teacher, she progressed through roles such as lecturer, committee member, and advisor. Passionate about education quality, she now serves as the Teaching and Learning Quality Manager. Assist. Prof. Dr Albandari Alrowaily is an advocate for empowering women in science, holding memberships in ISMWS and APS. Her contributions to academia include teaching a wide range of physics courses, mentoring students, and participating in critical departmental activities. Outside work, she actively supports cultural and environmental initiatives.

Professional Profiles:

Google scholar

Education 🎓

Ph.D. in Theoretical Nuclear and Atomic Physics (2021): University of North Texas, Denton, TX, USA. Master’s in Theoretical Nuclear Physics (2008): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Bachelor’s in Physics (1999): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Additional Certificates: Management, document organization, research ethics, teamwork, professional basics, and ESL.

Experience 👩‍🏫

High School Physics Teacher (1999–2000): Al-Jouf City. Teaching Assistant (2001–2007): Princess Nourah University. Committee Member: Grades Monitoring & Interviews (2001–2007). Lecturer (2008–2021): Princess Nourah University. Assistant Professor (2021–Present): Physics Department. Quality Manager (2022–Present): Teaching & Learning, College of Science. Additional Roles: Academic advisor, training supervisor, committee leader, and lab organizer.

Awards and Honors🏅

Ideal Student Awards (1992 & 1995): Al-Jouf Region. Distinguished Student (2000): Princess Nourah University. Travel Awards (2018–2019): DAMOP, UNT, and COS for research presentations. Recognized for exceptional contributions to academic excellence and community engagement.

Research Focus 🔬

Theoretical studies on nuclear and atomic physics, focusing on quantum mechanics, particle interactions, and advanced simulations. Proficient in computational methods using Matlab, Python, and Mathematica for modeling complex systems.  Research on nuclear reactions, atomic energy levels, and spectroscopic analysis. Advocates for interdisciplinary applications of physics to solve global challenges.

✍️Publications Top Note :

High-Performance Supercapacitors (ZnSe/MnSe)

Study: Development of ZnSe/MnSe composites for supercapacitor electrodes using hydrothermal techniques.

Publication: Journal of Physics and Chemistry of Solids, 2024, 49 citations.

Impact: Enhanced capacitive performance through novel material synthesis.

2. g-C3N4/NiIn2S4 for Supercapacitors

Study: Hydrothermal fabrication of g-C3N4/NiIn2S4 composite materials.

Publication: Ceramics International, 2024, 35 citations.

Impact: Promising electrode material with high efficiency.

3. Nonlinear Plasma Waves

Study: Interaction of solitons in pair-ion–electron plasmas using the Hirota method.

Publication: Physics of Fluids, 2023, 30 citations.

Impact: Advances theoretical understanding of electrostatic plasma dynamics.

4. SrCeO3/rGO for Oxygen Evolution Reaction

Study: Hydrothermal synthesis of SrCeO3 nanocomposites for electrocatalysis.

Publication: Fuel, 2024, 27 citations.

Impact: Enhanced catalytic efficiency for clean energy applications.

5. BiFeO3 Supercapacitor Applications

Study: Mn-doped BiFeO3 as an electrode material for supercapacitors.

Publication: Journal of Energy Storage, 2024, 20 citations.

Impact: Novel application of perovskite materials for energy storage.

6. Radiation Shielding Polymers

Study: Optical and mechanical improvements in polyvinyl alcohol composites.

Publication: Journal of Rare Earths, 2023, 18 citations.

Impact: Optimized materials for gamma-ray attenuation.

7. NiS2@SnS2 Nanohybrids

Study: Water-splitting applications of NiS2@SnS2 nanohybrids.

Publication: Materials Chemistry and Physics, 2024, 15 citations.

Impact: Low-cost, efficient electrocatalysts for sustainable energy.

8. Ce-doped SnFe2O4 Supercapacitors

Study: Hydrothermal synthesis enhancing electrochemical performance.

Publication: Electrochimica Acta, 2024, 13 citations.

Impact: Improved energy storage capabilities of supercapacitors.

Conclusion

The candidate has a robust academic background, extensive teaching experience, and proven leadership capabilities, making them a strong contender for the Research for Best Researcher Award. Strengthening the portfolio with focused research publications and demonstrating broader impacts of their work will further enhance their prospects for this prestigious recognition.

Noha Aboqara | Magneto-optics | Best Researcher Award

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Ms. Noha Aboqara | Magneto-optics | Best Researcher Award

Engineerat Zewail City for Science and Technology, Egypt

Noha Aboqara, an exceptional young scholar from Egypt, has combined her passion for electronics and communication engineering with a deep curiosity about photonics and physics. 🌟 With a Master’s degree from Ain Shams University and a double-major undergraduate degree from AUC with the highest honors, Noha’s work spans diverse fields, from drug delivery innovations to AI applications in communication systems. 📚 She’s held teaching roles, completed numerous internships, and actively contributes to community outreach programs. 🌱 A dedicated researcher and award-winning student, she exemplifies academic excellence and a commitment to using technology for societal betterment.

Publication Profile

scopus

Education🎓 

Master’s in Science and Engineering, Ain Shams University, Dec 2024  Bachelor of Science and Engineering, AUC, May 2021  Double major in Electronics and Communication Engineering and Physics; GPA 3.9/4.0, Highest Honors High School: Maadi STEM School for Girls, GPA 4.0/4.0, June 2016  Key academic projects include groundbreaking research on photonics for drug delivery, novel near-field techniques for biomedical applications, and GaN laser studies, leading to multiple publications and a book. Proficient in MATLAB, Lumerical, and C++, Noha integrates engineering theory with practical skills, making her an outstanding STEM achiever.

Experience👩‍🏫 

Teaching Assistant, Zewail City of Science and Technology, 2022-present Work-Study Program, Electronics and Communications, AUC, 2020 Technical Intern at Vodafone, EgyptAir, BARQ Systems, and CIOMP Lab, specializing in SDN, network security, RF amplifiers, and perovskite materials research. Research Assistant, AUC, 2019; conducted machine learning research for A2A routing, simulated on NS3.  Extracurriculars include roles as Public Relations Head of the Physics Association, Founder of STEM Emergency Team, and Community Outreach member of the Serenity Club, showcasing leadership and dedication to societal impact.

Awards and Honors🏅

Published 7 papers by graduation, including a book on photonics for drug delivery.Honor Recognition, AUC Sciences and Engineering, 2020 First place in Maadi STEM for math and revolutionary desalination system project; Egyptian Math Olympiad 2nd place winner, 2016 Silver Tamecom Necklace for excellence in math; National Honor List inclusion for top researchers worldwide, 2015Top prizes in science fairs for projects in environmental engineering, biogas, and industrial drift.

Research Focus🔬

Noha’s research bridges photonics and biomedical engineering, with a notable publication on drug delivery innovations using photonics. she is deeply involved in semiconductor laser studies, stress analysis in GaN lasers, and upconverting materials synthesis for advanced biomedical applications.  She’s developed models in MATLAB for communication diversity schemes (MIMO/SIMO) and simulation projects, contributing valuable insights to communication engineering.  With a keen interest in network virtualization, she applied machine learning in A2A routing, showcasing interdisciplinary skills in modern networked systems and smart materials applications.

Publication  Top Notes

  • Establishment of Theoretically Guided Understanding for Magneto-Optical Interactions through Ferromagnetic Fluids in Uniform, Static Magnetic Field
    • Authors: N.S. Aboqara, A.H.E. Morshed, Y.M. Sabry
    • Journal: Physica Status Solidi (A) Applications and Materials Science, 2024
  • Comprehensive Modelling for Time-Dependent Magneto-Optical Transmission Spectrum of Hematite Ferrofluid
    • Authors: N.S. Aboqara, A.H.E. Morshed, Y.M. Sabry
    • Journal: Advanced Theory and Simulations, 2024

Conclusion

Noha Aboqara is a highly qualified and promising candidate for the Best Researcher Award, given her strong academic background, extensive technical skills, and impressive research output. Her diverse project experience, leadership roles, and commitment to impactful scientific research make her a standout candidate. While focusing on specific research areas and seeking international collaborations may further elevate her profile, her current achievements already reflect excellence and innovation. She is well-positioned to contribute significantly to scientific advancements, making her deserving of recognition through this award.

Dr AlaaMohamed Adam | Materials science | Excellence in Research

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Dr Alaa Mohamed Adam: Leading Researcher in Materials science
Dr Alaa Mohamed Adam,   Department of physics, Faculty of Science, Sohag University, Sohag, Egypt.    

Dr. Alaa Mohamed Adam, associated with Sohag University, is a distinguished researcher making significant strides in the realm of material science. His leadership in research underscores a commitment to advancing our understanding of materials and their applications. Dr. Adam’s work contributes to the forefront of scientific knowledge, with a focus on innovative approaches within material science. Through his research endeavors, he plays a vital role in elevating Sohag University’s profile as a hub for cutting-edge scientific inquiry, fostering advancements that hold the potential to impact various industries and technologies.

 

Professional Profiles:

 

 

Education:

 

1 – PhD Degree (Doctoral) Department of physics, University of Chemical Technology and Metallurgy, Sofia, Bulgaria. Grant agreement no. 2011-4051/002-001-EMA2 supported by the European Commission (Mediterranean Area for Science, Technology and Research, 2013). Thesis Title: Thermoelectrical Bi2Se3-Bi2Te3 Thin Films. Date of Graduation: 2016.

2- master’s degree, Major: Natural Science (Physics). Department of physics, Faculty of Science, Sohag University, Sohag, Egypt. Thesis Title: Studies on Some Physical Properties of Bismuth Selenide Compound Doped with Antimony Element, Date of Graduation: 2011.

3- bachelor’s degree, Major: Natural Science, Physics.

 

Work Experience:

 

1 – Assistant professor and Senior lecturer at National University of Science and Technology, Moscow, Russia, 2016-2018.

2 – Lecturer of Physics at Physics Department, Faculty of Science, Sohag university, Egypt, 2018-2020.

3- Associate professor, Faculty of Engineering, King Salman International University, South Sinai, Egypt, 2020 – present

 

Research Experience:

 

1. Lecturer of Physics at Department of physics, Faculty of Science, University of Sohag, Egypt, 2018-present.

2. Assistant professor and Senior lecturer at the National University of Science and Technology, Moscow, Russia, 2016-2018.

3. Researcher at Department of physics, University of Chemical Technology and Metallurgy, Sofia, Bulgaria 2013-2016.

4. Assistant Lecturer and researcher at Department of physics, Faculty of Science, University of Sohag, Sohag, Egypt 2011-2013.

5. Demonstrator of physics and researcher assistant at Department of physics, Faculty of Science, Sohag University, Sohag, Egypt 2007-2011.

 

Publications and Tops Notes  ;

 

1- Structural and magnetic properties of Dy doped SrFe12O19 ferrites, Materials Today Communications, 2023, 35, 105884. Adam, A.M. , Elshafaie, A., Ibrahim, E.M.M. https://doi.org/10.1016/j.mtcomm.2023.105884

2- Annealing effect on the thermoelectric properties of multiwall carbon nanotubes, Physica E: Low-dimensional Systems and Nanostructures 146 (2023) 115566 A.M. Adam, et al. https://doi.org/10.1016/j.physe.2022.115566

3- Structure, Thermal, and Physic-Chemical Properties of some Chalcogenide Alloys Thermal Science, 2023, 27(1), pp. 397–404. Adam, A.M., Abdel-Rehim, W.M.F., Petkov, P., Ataalla, M. https://doi.org/10.2298/TSCI221001195A

4- Electrical and thermoelectrical properties of Bi2−xNaxTe3 alloys, Journal of Alloys and Compounds 920 (2022) 165952 A.M. Adam, A.K. Diab, Medhat A. El-Hadek, Ahmed O. Sayed, E.M.M. Ibrahim. https://doi.org/10.1016/j.jallcom.2022.165952

5- Heat treatment effects on the structural and optical properties of thin Bi2(Se1-xTex)3 films, Ceramics International, 2022, 48(21), pp. 31148–31156. El-Qahtani, Z.M.H. , El-Hadek, M.A. , Alotaibi, M.F. , Petkov, P. , Adam, A.M,. https://doi.org/10.1016/j.ceramint.2022.06.189

6- Outstanding optical properties of thermally grown (Bi2Se3)1-x (Bi2Te3)x thin films, Materials Science in Semiconductor Processing 143, (2022) 106557, A.M. Adam et al. https://doi.org/10.1016/j.mssp.2022.106557