Girum Girma Bizuneh | Experimental methods | Best Researcher Award

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Dr. Girum Girma Bizuneh | Experimental methods | Best Researcher Award

R&D project Manager at Hunan Hongyue New Energy Materials Co.Ltd. | China

Dr. Girum Girma Bizuneh is a seasoned researcher, academic, and R&D leader with specialized expertise in battery technology, electrochemistry, and materials recycling. With over 15 years of progressive experience in research and academia, he has contributed significantly to advancements in lithium-ion and lithium-sulfur batteries. He earned his Ph.D. and M.Sc. from Xiamen University, China, and held various positions in Arba Minch University (Ethiopia), Hunan University, and currently serves as R&D Manager at Hunan Hongyue New Energy Materials Recycling Co. Ltd. His work merges academic rigor with industry-driven innovation in sustainable energy storage.

👨‍🎓Profile

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ORCID

📘 Early Academic Pursuits

Dr. Bizuneh began his academic journey with a B.Sc. in Chemistry from Arba Minch University, Ethiopia, in 2007. His early interest in chemical processes and materials led him to pursue higher education in China, where he completed both M.Sc. (2013) and Ph.D. (2020) degrees at Xiamen University, renowned for its strong materials science and chemistry programs. During his studies, he developed a solid foundation in electrochemistry, particularly ion transfer across interfaces and battery chemistry, setting the stage for his future research in advanced battery systems and electrolyte engineering.

🧑‍🔬 Professional Endeavors 

Professionally, Dr. Bizuneh has held academic and industry roles that span both teaching and research. Starting as a Lab Technician and Lecturer at Arba Minch University, he later contributed to cutting-edge battery research at Hunan University as a University Research Assistant. Since 2022, he has served as R&D Manager at Hunan Hongyue, where he oversees project direction in battery materials recycling. His unique blend of academic insight and industrial R&D acumen positions him as a critical link between scientific discovery and real-world energy solutions, especially in the context of sustainable technologies and resource recovery.

🔋 Contributions and Research Focus

Dr. Bizuneh’s research is deeply focused on next-generation energy storage technologies, including Li-ion, Li-S batteries, electrochemical capacitors, and electrolyte additive engineering. His work on interface chemistry and solid auxiliary redox couples has contributed to enhancing battery performance and life span. A significant part of his research also emphasizes eco-friendly battery recycling strategies, targeting critical materials recovery and lifecycle sustainability. His peer-reviewed publications, including in top-tier journals, demonstrate his commitment to advancing practical and scalable solutions in the field of electrochemical energy storage and recycling science.

🌍 Impact and Influence

Dr. Bizuneh has established himself as an influential figure in the global battery research community, particularly through his work on high-voltage cathode design and recyclable battery technologies. His co-authored papers have been widely cited and have significantly influenced the direction of interface engineering in energy storage. Notably, he received the Top Cited Article Award (Wiley, 2025) for his publication on carbon materials for capacitors. Through academic and industrial collaboration across China and Ethiopia, he continues to bridge research innovation and societal energy needs, fostering cross-border knowledge transfer and technological adoption.

🧠 Research Skills and Tools

Dr. Bizuneh brings a rich skill set in both experimental and computational tools used in battery research. He is proficient in electrochemical techniques, materials synthesis, and battery performance evaluation. He has expertise in scientific software such as OriginPro, ZView, ChemOffice, and EndNote. In addition, he is skilled in data analysis, interface modeling, and photo editing tools like Adobe Photoshop and Lightroom for scientific visualization. His lab leadership and project management skills enable him to effectively design, execute, and evaluate R&D programs that deliver both academic knowledge and industrial utility.

👨‍🏫 Teaching Experience

With a decade of teaching experience at Arba Minch University, Dr. Bizuneh has taught a range of undergraduate chemistry courses and supervised laboratory sessions. From Graduate Assistant to Lecturer, he demonstrated a strong commitment to academic mentorship and student development. He designed and instructed classes in physical chemistry, analytical methods, and laboratory safety and operations. His teaching style blended theoretical depth with practical application, preparing students for careers in science and technology. His contributions to curriculum development and lab management were instrumental in strengthening the university’s chemistry program infrastructure.

🏆 Awards and Honors

Dr. Bizuneh’s contributions have been formally recognized through several prestigious awards:

  • 🏅 Top Cited Article Award (2025) from Wiley for impactful research on electrochemical capacitors

  • 🎓 Heguang Yangtze River Scholarship (2019) awarded by Xiamen University for academic excellence

  • 🌟 Xiamen University International Student Scholarship (2020)
    These honors underscore his scientific impact, academic performance, and leadership potential. They also highlight his dedication to advancing innovative and sustainable energy solutions. His work continues to influence both academic and industrial communities in the fields of battery science and material chemistry.

🚀 Legacy and Future Contributions

Dr. Bizuneh is poised to leave a lasting legacy in the field of electrochemical energy storage, especially through his efforts in battery recycling and sustainable materials development. His current R&D leadership role positions him to translate academic insights into industrial practices, particularly in addressing battery waste challenges. Looking forward, he aims to develop green recycling technologies, solid-state battery systems, and contribute to policy and innovation frameworks for clean energy. His cross-disciplinary and international background makes him a valuable contributor to global energy transformation, and a mentor for the next generation of scientists and innovators.

Top Noted Publications

High Performance Li||NMC622 Battery Enabled by Multi-Functional Electrolyte Additive Chemistry

  • Authors: Girum Girma Bizuneh, Amir Mahmoud Makin Adam, Chunlei Zhu, Junda Huang, Huaping Wang, Zhongsheng Wang, Daxiong Wu, Lei Guo, Maryam Chafiq, Young Gun Ko
    Journal: Electrochimica Acta
    Year: 2025

Promoting the Sulfur Conversion Kinetics via a Solid Auxiliary Redox Couple Embedded in the Cathode of Li–S Batteries

  • Authors: Girum Girma Bizuneh, Jingmin Fan, Pan Xu, Ruming Yuan, Lin Cao, Mingsen Zheng, Quan-Feng Dong
    Journal: Sustainable Energy & Fuels
    Year: 2020

LaLiO₂-Based Multi-Functional Interlayer for Enhanced Performance of Li–S Batteries

  • Authors: Girum Girma Bizuneh
    Journal: Journal of The Electrochemical Society
    Year: 2019

Solvation Effect Facilitates Ion Transfer across Water/1,2‐Dichloroethane Interface

  • Authors: Nsabimana, J.; Nestor, U.; Girma, G.; Pamphile, N.; Zhan, D.; Tian, Z.-Q.
    Journal: ChemElectroChem
    Year: 2016

Facilitated Li⁺ Ion Transfer across the Water/1,2-Dichloroethane Interface by the Solvation Effect

  • Authors: Girum Girma
    Journal: Chemical Communications (Chem. Commun.)
    Year: 2014

 

 

Marcilei Aparecida Guazzelli | Experimental methods | Women Researcher Award

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Prof. Dr. Marcilei Aparecida Guazzelli | Experimental methods | Women Researcher Award

Professor at Centro Universitário FEI | Brazil

Prof. Marcilei Aparecida Guazzelli is a Brazilian physicist and full professor at Centro Universitário FEI, renowned for her research in radiation physics, nuclear structure, and semiconductor devices. With a strong background in experimental nuclear physics and ionizing radiation effects, she has made impactful contributions to both academic science and applied engineering. Her research spans international collaborations, high-impact publications, and scientific leadership. As the head of multiple laboratories and coordinator of national and international projects, she has positioned herself as a leader in radiation tolerance studies and nuclear materials.

👨‍🎓Profile

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📘 Early Academic Pursuits

Prof. Guazzelli’s academic journey began at the Institute of Physics, USP, where she earned her undergraduate degree (1990–1994). She pursued a Master’s degree (1996–1999) focused on the atomic force microscopy of diamond films, and later completed her PhD (2002–2004) with work on the nuclear structure of ⁵⁸Co, an odd-odd nucleus. Her early exposure to experimental physics and critical thinking laid the foundation for her lifelong commitment to the study of ionizing radiation effects, semiconductors, and nuclear materials. Her rigorous academic training shaped her ability to merge fundamental science with technological application.

🧑‍🏫 Professional Endeavors

Prof. Guazzelli has held various academic ranks at Centro Universitário FEI, culminating in her promotion to Full Professor in 2017. Previously, she served at Universidade Metodista de São Paulo and played pivotal roles in research infrastructure, heading both LERI and LAFIR laboratories. Her professional contributions include coordinating major national projects such as INCT_Nuclear Physics and CITAR, and serving on several scientific committees and councils. She actively contributes to policy-making, event organization, and interdisciplinary research, often collaborating with institutions like INFN (Italy), USP, and ITA, while maintaining an active teaching role.

🔬 Contributions and Research Focus

Prof. Guazzelli’s research focuses on the effects of ionizing radiation on materials and semiconductor devices, a field critical to aerospace, nuclear safety, and microelectronics. Her work investigates total ionizing dose, single-event effects, and neutron interactions in materials like GaN HEMTs, SiC, and highly oriented pyrolytic graphite (HOPG). She also collaborates in the NUMEN project, aiming to understand neutrinoless double beta decay through nuclear matrix elements. With 184 peer-reviewed publications, her findings support both scientific understanding and technological innovation, particularly in developing radiation-hardened devices for extreme environments.

🌍 Impact and Influence 

Prof. Guazzelli has established a global impact through her collaborations with European institutions, such as INFN, CNA, and the Polytechnic University of Turin, as well as national partners including FAPESP, CNPq, and USP. Her research findings are widely cited and contribute to international advancements in nuclear physics and electronics. As editor, speaker, and scientific coordinator, she has influenced policies, research priorities, and educational standards. Her participation in projects with CERN, CUBESATS, and LHC demonstrates her integral role in the future of high-energy and applied physics.

📚 Academic Citations

Prof. Guazzelli boasts an H-index of 19, with 1,497 citations listed on Google Scholar—a testament to the influence and relevance of her scholarly output. With over 184 articles in peer-reviewed journals, 7 book chapters, and numerous conference proceedings, her academic presence is substantial. These works are referenced by scholars across nuclear physics, materials science, and radiation effects, indicating her interdisciplinary reach. Her most cited research includes studies on diamond films, GaN HEMTs, neutron interactions, and beta decay. She maintains active profiles on ORCID, ResearchGate, and Publons, making her work accessible and transparent.

🛠️ Research Skills

Prof. Guazzelli demonstrates expertise in nuclear instrumentation, radiation detection, materials testing under irradiation, and semiconductor failure analysis. She is highly proficient in coordinating complex, multi-institutional experimental campaigns, especially at international particle accelerator labs (INFN, GANIL, ALTO). Her skills extend to data analysis, microscopy, Monte Carlo simulations, and collaborative publication writing. She effectively integrates experimental results into both academic discourse and industry-relevant solutions, showcasing her versatility. Her leadership of multi-year grant-funded projects attests to her ability to manage research teams, secure funding, and contribute meaningful advances in applied nuclear physics and radiation engineering.

👩‍🏫 Teaching Experience 

A dedicated educator, Prof. Guazzelli has served as course coordinator for Physics and Modern Physics at Centro Universitário FEI for over a decade. She teaches at the undergraduate and graduate levels, notably in nano-microelectronics and radiation physics, mentoring students in both academic theory and experimental practice. She has supervised numerous master’s and doctoral theses, guided scientific initiation students, and contributed to curriculum development in Engineering and Applied Physics. Her teaching philosophy emphasizes real-world applications, interdisciplinary knowledge, and inclusive education, and she frequently promotes science communication, especially for young women in STEM.

🏆 Awards and Honors 

Prof. Guazzelli has received multiple awards recognizing her commitment to education, research, and gender equality in science. Notably, her students have won Best Presentation at SICFEI (2019, 2020, 2021) and Best Poster at SERESSA (2019, 2020). She has served as Communications Director of the Brazilian Physical Society and as chair/editor of key scientific events such as RTFNB. Her invited talks and public science appearances on TV SEN, Rede Globo, and Canaltech underscore her role in public outreach. Her involvement in events like “Women in Science” showcases her advocacy for inclusion and visibility of women researchers.

🔮 Legacy and Future Contributions

Prof. Guazzelli’s legacy lies in her dedication to scientific excellence, education, and gender equity in physics. She continues to push boundaries in radiation physics, training the next generation of scientists and engineers. Her role in international collaborations like NUMEN, SAFIIRA, and CERN-related projects ensures her influence will persist in shaping nuclear science policy and application. Through ongoing mentorship, leadership in interdisciplinary projects, and contributions to STEM outreach, she exemplifies the transformative potential of science. Her future work will likely focus on next-generation materials, sustainable nuclear technologies, and cross-border knowledge exchange.

Top Noted Publications

📄Effects of neutron radiation on the thermal conductivity of highly oriented pyrolytic graphite
  • Authors: Guazzelli, M. A.; Avanzi, L. H.; Aguiar, V. A. P.; Vilas-Boas, A. C.; Alberton, S. G.; Masunaga, S. H.; Chinaglia, E. F.; Araki, K.; Nakamura, M.; Toyama, M. M. et al.
    Journal: Diamond and Related Materials
    Year: 2025
📄 Single-Event Effects Induced by Monoenergetic Fast Neutrons in Silicon Power UMOSFETs
  • Authors: Saulo G. Alberton; Alexis C. Vilas-Bôas; Marcilei A. Guazzelli; Vitor A. P. Aguiar; Matheus S. Pereira; Nemitala Added; Claudio A. Federico; Tássio C. Cavalcante; Evaldo C. F. Pereira Júnior; Rafael G. Vaz et al.
    Journal: IEEE Transactions on Device and Materials Reliability
    Year: 2025
📄Ion-Induced Charge and Single-Event Burnout in Silicon Power UMOSFETs
  • Authors: Saulo G. Alberton; Vitor A. P. Aguiar; Nemitala Added; Alexis C. Vilas-Bôas; Marcilei A. Guazzelli; Jeffery Wyss; Luca Silvestrin; Serena Mattiazzo; Matheus S. Pereira; Saulo Finco et al.
    Journal: Electronics
    Year: 2025
📄 Evaluation of Funnel Models on Calculation of Ion-Induced Collected Charge
  • Authors: Vitor A. P. Aguiar; Nilberto H. Medina; Nemitala Added; Saulo G. Alberton; Eduardo L. A. Macchione; Marcilei A. Guazzelli; Marco A. A. Melo; Juliano A. Oliveira; Renato C. Giacomini; Fernando R. Aguirre et al.
    Journal: IEEE Transactions on Electron Devices
    Year: 2025
📄 Channel morphology as a key factor to hydrological and sedimentological patterns in the largest fluvial ria lake of Amazonia
  • Authors: João Paulo S. de Cortes; Marcilei A. Guazzelli; Jessica F. Curado; Eliane F. Chinaglia; Wagner Sciani; Fabiano N. Pupim; George Luiz Luvizotto
    Journal: Journal of South American Earth Sciences
    Year: 2023

 

 

Tupan Das | Experimental methods | Best Researcher Award

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Mr. Tupan Das | Experimental methods | Best Researcher Award

Mr. Tupan Das is a Research Scholar and Senior Research Fellow (CSIR SRF) currently pursuing his Ph.D. in Physics at the Indian Institute of Technology (IIT) Patna. His research centers around flexible, multifunctional nanogenerator devices, with applications in self-powered sensors and sustainable energy systems. With a solid academic foundation, a trail of high-impact publications, and a growing patent portfolio, he is quickly establishing himself as a promising early-career scientist in nanotechnology and materials science.

👨‍🎓Profile

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📚 Early Academic Pursuits

Mr. Das laid his academic foundation at Jawahar Navodaya Vidyalayas, where he consistently performed at the top percentile. He completed his B.Sc. in Physics from Govt. Degree College Dharmanagar under Tripura University, followed by a Master’s in Physics from NIT Agartala with distinction (79%). His consistent academic success led him to IIT Patna, where he is pursuing a Ph.D. with a stellar 88.6% score, focusing on flexible polymer nanocomposites for energy harvesting.

🧪 Professional Endeavors

Throughout his doctoral journey, Mr. Das has been a recipient of the prestigious CSIR Junior and Senior Research Fellowships, awarded by the Council of Scientific & Industrial Research (CSIR), Government of India. His research spans piezoelectric, triboelectric, and hybrid nanogenerators, ferroelectric materials, and energy storage devices, with a hands-on approach in both experimental fabrication and device testing.

🔬 Research Focus and Contributions

His Ph.D. thesis titled “Flexible and Multifunctional Polymer Nanocomposite-based Nanogenerator Devices for the Self-powered Sensor Applications” reflects his cutting-edge work in energy harvesting and sensing technologies. With over 15 high-impact peer-reviewed publications, including in Nano Energy (IF: 16.8) and Chemical Engineering Journal (IF: 13.4), he has pioneered multifunctional nanogenerators that power devices without external batteries  a leap toward self-sustainable electronics. His interdisciplinary approach, combining magnetic, dielectric, and piezoelectric properties, has also led to research on self-charging supercapacitors, memristors, and optoelectronic devices, along with a submitted patent on radiation therapy films.

🌍 Impact and Influence

Mr. Das’s work has made a visible mark on the field of applied physics and materials engineering, particularly in the domains of wearable electronics, biomedical sensors, and sustainable energy. His research not only demonstrates academic rigor but also emphasizes real-world applications  evident through presentations at international conferences like ICONN, MRSI, and AC2MP, where he has received accolades including Best Oral Presentation and 1st Position in Research Communication.

📈 Academic Citations and Visibility

With publications in high-impact journals and ongoing collaborations with senior researchers, Mr. Das’s work is gaining increasing attention in the academic community. Journals such as Nano Energy, Applied Physics Letters, and Chemical Engineering Journal ensure global visibility and citation potential, cementing his status as a rising contributor in nanotechnology research.

🛠️ Research and Technical Skills

Mr. Tupan Das possesses comprehensive expertise in advanced experimental techniques, making him a highly skilled experimentalist in the field of materials science and applied physics. His technical proficiency includes X-ray Diffraction (XRD), Field Emission Scanning Electron Microscopy (FESEM), and Transmission Electron Microscopy (TEM) for structural analysis. He is adept in fabrication techniques like Spin Coating, Electrospinning, and Hydrothermal Synthesis. Additionally, he has hands-on experience with Impedance Analysis, Ferroelectric Loop Tracing, Cyclic Voltammetry, and Planetary Ball Milling. His core strength lies in energy storage and harvesting device fabrication, especially in self-charging supercapacitors and nanogenerators, showcasing his broad technical command.

👨‍🏫 Teaching Experience

As a teaching assistant, Mr. Das has contributed to B.Tech. 1st Year Physics Labs during 2022–2023 and 2023–2024 at IIT Patna. His ability to communicate complex concepts clearly, coupled with a passion for education, makes him an effective mentor and guide to undergraduate students.

🏅 Awards and Honors

Mr. Tupan Das has received multiple prestigious accolades that underscore his scientific excellence, communication skills, and research innovation. He qualified the CSIR-UGC NET JRF with an impressive AIR 323, along with clearing GATE (2021) and IIT JAM (2018) all national-level competitive exams. He earned the Best Oral Presentation Award at AC2MP-2024, IIT Patna, and secured 1st Position in the highly competitive “My Research in 3 Minutes” contest at RSD 2024. Demonstrating innovation, he has also filed a patent on magnetic nanofiber-based radiation therapy films, further solidifying his profile as a dynamic and impactful researcher.

🌐 International Exposure

Mr. Das is selected for the NSTC-IIPP Internship Programme at Ming-Chi University of Technology, Taipei, Taiwan (2024-2025). Here, he will explore hybrid piezo-triboelectric nanogenerators for gas sensing and water harvesting  a testament to his global research impact and collaboration.

🧭 Legacy and Future Contributions

Mr. Tupan Das is positioned to become a leading researcher in next-generation energy solutions. His integrated approach to multifunctional nanomaterials aligns with future industrial and healthcare demands, especially in the IoT, wearables, and sustainable technologies domains. With plans to continue in academic research and innovation, he is expected to contribute significantly to India’s scientific and technological self-reliance.

Top Noted Publications

Flexible Piezoelectric Nanogenerator as a Self-charging Piezo-supercapacitor for Energy Harvesting and Storage Application

  • Authors: T. Das, S. Tripathy, A. Kumar, and M. Kar
    Journal: Nano Energy
    Year: 2025

The MnAl-alloy nanoparticles incorporated PVDF-based piezoelectric nanogenerator as a self-powered real-time pedometer sensor

  • Authors: T. Das, S. N. Rout, A. Dev, and M. Kar
    Journal: Applied Physics Letters
    Year: 2024

Double perovskite-based wearable ternary nanocomposite piezoelectric nanogenerator for self-charging, human health monitoring and temperature sensor

  • Authors: T. Das, M. K. Yadav, A. Dev, and M. Kar
    Journal: Chemical Engineering Journal
    Year: 2024

Multi-functional piezoelectric nanogenerator based on relaxor ferroelectric materials (BSTO) and conductive fillers (MWCNTs) for self-powered memristor and optoelectronic devices

  • Authors: T. Das, P. Biswas, A. Dev, J. Mallick, and M. Kar
    Journal: Chemical Engineering Journal
    Year: 2024

Tuning of magnetic properties of Al-doped cobalt ferrite nanofiber prepared by electrospinning technique

  • Authors: T. Das, S. Noor, Kumari, J. Mallick, A. Shukla, S. Datta, M.K. Manglam, and M. Kar
    Journal: Physica Scripta
    Year: 2023

 

Yuhui Wang | Experimental methods | Best Researcher Award

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Prof. Yuhui Wang | Experimental methods | Best Researcher Award

Yanshan University | China

Professor Yuhui Wang is a distinguished academic and researcher in the field of Materials Science and Mechanical Engineering, currently serving as a Professor at the School of Mechanical Engineering, Yanshan University (YSU), China. With over two decades of research and academic experience, Professor Wang has made significant strides in understanding and innovating material microstructures for advanced industrial applications.

👨‍🎓Profile

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🎓 Early Academic Pursuits

Professor Wang embarked on his academic journey at Yanshan University, where he earned his Bachelor of Engineering in 2003, followed by a Master’s degree in 2006, and culminated in a PhD in 2012, all in Materials Science and Engineering. His solid academic foundation laid the groundwork for his lifelong pursuit of excellence in metallurgical research and materials design.

🧑‍🔬 Professional Endeavors

Professor Yuhui Wang has demonstrated a consistent trajectory of professional growth through pivotal roles in both academic and research domains. Currently a Professor (2020–Present) at the School of Mechanical Engineering, YSU, he previously served as a Senior Researcher (2012–2019) at the National Engineering Research Center for Equipment and Technology of C.S.R., YSU, and as a Research Associate (2006–2010) at the School of Materials Science and Engineering, YSU. These positions have established him as a leader in academic research, fostering industry collaboration and integrating theoretical innovation with practical engineering applications.

🔬 Contributions and Research Focus

Professor Wang’s research is centered on the microstructure-processing-property relationships in metallic materials, aiming to design advanced materials through microstructural engineering. Since 2021, he has led pioneering work in a novel deformation method titled “Dynamic Offsets and Shear Force Adjustment Rolling (DS Rolling)”. This technique has shown promising results in grain refinement and texture homogenization in pure metals like copper (Cu) and tantalum (Ta). He employs state-of-the-art experimental techniques such as electron microscopy and X-ray diffraction, underscoring his technical expertise and commitment to methodological rigor.

🌍 Impact and Influence

With 110 published papers, including 1 Hot Paper and 2 Highly Cited Papers, Professor Wang has made an undeniable impact on the field. His work has garnered 1,860 citations, reflecting strong academic reception and influence. His H-index of 21 confirms both the quality and consistency of his research contributions over time. Moreover, he holds 40 authorized patents, including 1 U.S. patent, a testament to the practical relevance and innovation of his work in both academic and industrial settings.

📚 Academic Cites

His research outputs have appeared in top-tier journals, with frequent citations reflecting his status as a reliable source of scientific knowledge. The presence of Highly Cited Papers signifies that his work is used as a foundation for ongoing research, showcasing his role in advancing scientific frontiers.

🛠️ Research Skills

Professor Wang is recognized for his exceptional skills in experimental design, data analysis, and advanced characterization techniques. His ability to translate microstructural insights into functional engineering solutions marks him as a leading innovator in material processing. His recent focus on DS Rolling exemplifies a forward-looking research mindset, integrating novel mechanical deformation methods with practical application potential.

👨‍🏫 Teaching Experience

Professor Wang has an extensive teaching and supervision portfolio. He is currently supervising 5 PhD students, 1 postdoctoral fellow, and 9 master’s students, while having mentored 2 PhD and 10 master’s graduates in the past. His role as a mentor and educator is deeply valued, and he consistently inspires young scholars to engage with cutting-edge materials research.

🌟 Legacy and Future Contributions

Professor Yuhui Wang’s legacy is built on a foundation of scientific excellence, innovation, and mentorship. His visionary research in material processing techniques like DS Rolling, combined with his strong academic influence, ensures that he will continue to shape the next generation of materials science. His ongoing work promises advancements in sustainable materials development, industrial processing techniques, and deeper insights into the structure-property-performance nexus in metals.

Top Noted Publications

Pure copper plate achieving high synergetic strength and electrical conductivity via a novel dynamic offsets and shear force adjustment cryorolling

  • Authors: Longfei Xu, Renhao Wu, Haiming Zhang, Xin Xue, Yan Peng, Yuhui Wang, Hyoung Seop Kim
    Journal: Materials Science and Engineering: A
    Year: 2025

The improvement and verification of fluid dynamics simulation on temperature uniformity during heat treatment of ring pieces

  • Authors: Mingzhe Xu, Jinfu Zhao, Li Wang, Tengxiang Zhao, Ling Kong, Zhipeng Li, Zhixin Huang, Yuhui Wang
    Journal: Heliyon
    Year: 2024

Microstructure and mechanical properties of pure copper plate processed by novel dynamic offsets and shear force adjustment rolling

  • Authors: Longfei Xu, Kai Yu, Li Wang, Shizhao Quan, Ling Kong, Haokun Yang, Xiaodan Zhang, Yan Peng, Yuhui Wang
    Journal: Journal of Materials Research and Technology
    Year: 2024

Cryogenic toughness in a low-cost austenitic steel

  • Authors: Y. Wang, Y. Zhang, A. Godfrey, J. Kang, Y. Peng, T. Wang, N. Hansen, X. Huang
    Journal: Communications Materials
    Year: 2021

Hot-Deformation Behavior and Processing Maps of a Low-Carbon Fe-2 wt% Nb Steel

  • Authors: Wentao Luo, Pengzhan Cai, Ziyong Hou, Yuhui Wang, Ling Zhang, G.L. Wu
    Journal: Metals
    Year: 2021

Achieving high ductility in the 1.7 GPa grade CoCrFeMnNi high-entropy alloy at 77 K

  • Authors: S.J. Sun, Y.Z. Tian, H.R. Lin, H.J. Yang, X.G. Dong, Y.H. Wang, Z.F. Zhang
    Journal: Materials Science and Engineering: A
    Year: 2019

 

 

Madeha Awad | Experimental methods | Best Researcher Award

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Assoc. Prof. Dr. Madeha Awad | Experimental methods | Best Researcher Award

Sohag university  | Egypt

Dr. Madeha Ahmed Aboelfadl Awad is an Associate Professor in the Physics Department at the Faculty of Science, Sohag University, Egypt. With a career spanning nearly two decades in materials science and nanotechnology, she has become a prominent figure in the synthesis and characterization of advanced nanostructured materials for industrial and environmental applications. Dr. Awad is recognized for her dedication to both scientific research and academic development, contributing significantly to the Egyptian scientific community.

👨‍🎓Profile

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🎓 Early Academic Pursuits

Dr. Awad began her academic journey with a B.Sc. in Physics from Sohag University in 2003, graduating with a very good grade. She went on to earn an M.Sc. in Solid State Physics in 2008, where she investigated chalcogenide systems a foundation that set the stage for her specialization in material sciences. Her academic excellence continued with a Ph.D. in Nanomaterials Physics in 2015, focusing on the growth and characterization of ZnO-based nanomaterials, a vital material in modern optoelectronic and energy applications.

🧪 Professional Endeavors

Since joining the Sohag University faculty in 2004 as a demonstrator, Dr. Awad has steadily progressed through academic ranks, becoming an Assistant Lecturer (2013), Lecturer (2015), and finally Associate Professor (2020). Her career reflects a sustained commitment to both academic excellence and institutional service. In addition to her teaching and research, she has held leadership roles, including Director of the Credibility and Intellectual Property Unit, playing a vital part in raising awareness about intellectual property rights and research ethics.

🔬 Contributions and Research Focus

Dr. Awad’s primary research is rooted in the synthesis of nanomaterials across various dimensions 0D, 1D, 2D, and 3D using advanced techniques like sputtering, physical vapor deposition (PVD), chemical vapor deposition (CVD), and electron beam evaporation. Her work emphasizes characterization using state-of-the-art tools such as XRD, XPS, SEM, TEM, AFM, DSC, and TGA, making her a versatile experimental physicist. Her research outcomes are directly applied to real-world challenges in solar energy, water purification, and biomedicine.

🌍 Impact and Influence

Dr. Awad’s contributions are particularly relevant to sustainable development and clean energy. Her research on photocatalytic materials, metal oxides, and optoelectronic devices supports the transition to greener technologies. As a result, her work has an evident impact on addressing climate change, environmental pollution, and public health challenges.

📚 Academic Publications

She has authored multiple peer-reviewed publications in international scientific journals, including Physica Scripta and the Journal of Sustainable Food, Water, Energy and Environment. Her recent works in 2025 reflect continued scholarly productivity and a commitment to interdisciplinary research. These publications highlight the practical application of her materials in pollution degradation, photodetectors, and biological growth studies.

🧠 Research Skills

Dr. Awad demonstrates exceptional skills in materials characterization, experimental design, and project management. She is adept at conducting analytical tests using complex laboratory equipment and integrates findings across multiple techniques to evaluate material performance. Her ability to write and manage research projects related to energy and water positions her as a key contributor in applied research arenas.

👩‍🏫 Teaching Experience

Beyond the lab, Dr. Awad is a dedicated educator, delivering theoretical physics courses to undergraduate students and supervising graduate theses and senior projects. She also plays an instrumental role in developing laboratory infrastructure, guiding demonstrators, and innovating undergraduate experiments, reflecting her strong commitment to academic excellence and mentorship.

🏆 Awards and Honors

Dr. Awad has earned respect not only through research but also through her administrative and academic service. She was appointed to the Scientific Committee of the Faculty of Science, where she helped establish a scientific journal for the Physics Department an initiative considered pioneering within her institution. While specific awards are not listed, her appointments and leadership roles signify a high level of institutional trust and recognition.

🚀 Legacy and Future Contributions

As a leader in nanomaterials research in Upper Egypt, Dr. Awad is shaping the future of industrially relevant and sustainable materials. Her contributions to intellectual property awareness, research capacity-building, and student mentorship lay a strong foundation for future generations of scientists. With continued focus on international collaboration, patentable innovations, and expanded research funding, her work is poised to achieve greater global impact in the years ahead.

Top Noted Publications

Photocatalytic characteristics of indium oxide, copper oxide and indium oxide/copper oxide thin films on plastic waste substrates for organic pollutants degradation

  • Authors: M. Mohery, S. H. Mohamed, K. A. Hamam, A. Mindil, S. Landsberger, M. A. Awad
    Journal: Physica Scripta
    Year: 2025

Influence of oxygen flow rates on the optoelectronic properties SnO₂ thin films

  • Authors: M. A. Awad, Eman R. Abaza, Essam R. Shaaban
    Journal: Sohag Journal of Science
    Year: 2025

A comparison between the effect of zinc oxide and zinc oxide nanoparticles on the growth and some metabolic processes of Cosmarium sp

  • Authors: Asmaa Bakr, M. A. Awad
    Journal: Journal of Sustainable Food, Water, Energy and Environment
    Year: 2025

Highly sensitive TiO₂ based photodetector for environmental sensing applications

  • Authors: S. H. Mohamed, Mohamed Rabia, M. A. Awad, Mohamed Asran Hassan
    Journal: Journal of Sustainable Food, Water, Energy and Environment
    Year: 2025

Optoelectronic characteristics of In₂O₃/CuO thin films for enhanced vis‑light photodetector

  • Authors: A. M. Abd El‑Rahman, S. H. Mohamed, A. Ibrahim, Ali A. Alhazime, M. A. Awad
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2024

 

Bin Lu | Experimental methods | Best Researcher Award

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Assoc. Prof. Dr. Bin Lu | Experimental methods | Best Researcher Award

Associate Professor at Ningbo University | China

Dr. Bin Lu is a distinguished Associate Professor at the School of Materials Science and Chemical Engineering, Ningbo University, China. With a research trajectory that spans over a decade, Dr. Lu has emerged as a leading expert in optical ceramics and luminescent materials. His work is recognized not only nationally but also internationally, thanks to his extensive publication record, innovation in materials design, and pioneering research efforts in the field of functional ceramics.

👨‍🎓Profile

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🎓 Early Academic Pursuits

Dr. Lu began his academic journey with a Master’s degree from Northeastern University, China, where he built a strong foundation in materials science. He further honed his expertise by pursuing a Ph.D. in Materials Science and Engineering at the prestigious University of Tsukuba, Japan, graduating in 2015. This international academic exposure enabled him to bridge research methodologies across China and Japan, setting the stage for a high-impact career.

🧑‍🔬 Professional Endeavors

In 2016, Dr. Lu joined Ningbo University as a backbone researcher, reflecting the university’s confidence in his potential to contribute at a high level. Currently serving as an Associate Professor, he is a core member of the Key Laboratory of Photoelectric Materials and Devices of Zhejiang Province. Over the years, he has led or participated in 10 significant research projects, showcasing strong leadership in both academic and applied research initiatives.

🔬 Contributions and Research Focus

Dr. Lu’s research is centered on Optical Functional Ceramics, including transparent ceramics, semiconductor ceramics, ceramic scintillators, and magneto-optical ceramics. His secondary but equally impactful focus lies in luminescent materials and gas-sensing ceramics. His published work reflects deep engagement in ceramic microstructure manipulation, sintering behavior optimization, and photoluminescence tuning—addressing challenges in material transparency, magneto-optical performance, and color conversion.

🌍 Impact and Influence

With more than 50 peer-reviewed articles published in high-impact international journals such as Acta Materialia, Journal of the American Ceramic Society, Journal of Materials Chemistry C, and Optics Express, Dr. Lu’s work is widely referenced and respected in the global materials science community. His research contributes to key advancements in photonics, sensors, and energy-efficient devices, directly influencing both academic research and industrial applications.

📊 Academic Citations

While specific citation metrics are not included here, Dr. Lu’s consistent presence in top-tier journals and frequent role as first or corresponding author indicates strong citation potential and academic influence. His contributions have helped shape ongoing research trends in transparent ceramics and rare-earth luminescent materials.

🧪 Research Skills

Dr. Lu exhibits exceptional skills in materials synthesis, vacuum sintering, optical spectroscopy, crystal structure analysis, and dopant optimization. He is also proficient in up/down-conversion photoluminescence studies and magneto-optical property characterization, allowing for in-depth exploration of advanced ceramic functionalities. His research approach is a balance of experimental precision and innovative design, backed by a clear understanding of materials chemistry and solid-state physics.

👨‍🏫 Teaching Experience

As an Associate Professor, Dr. Lu is actively involved in undergraduate and postgraduate teaching, mentoring students in both theoretical and experimental aspects of materials science. While specific teaching accolades are not listed, his role in student supervision, project guidance, and laboratory training underscores a solid teaching foundation.

🏆 Awards and Honors

One of Dr. Lu’s notable recognitions is the “Zhejiang Provincial Qianjiang Talent” award (2017), which is a prestigious acknowledgment granted to emerging academic leaders with high potential in scientific research and innovation. This award confirms Dr. Lu’s status as a recognized talent at the provincial level and highlights his contributions to science and technology development in China.

🔮 Legacy and Future Contributions

Dr. Bin Lu’s legacy is being shaped through his multi-faceted contributions to optical ceramics, his innovation-driven patents (11 granted), and his leadership in multi-disciplinary research projects. Moving forward, he is well-positioned to expand into interdisciplinary applications such as biomedical imaging, quantum materials, and environmental monitoring, building upon his core expertise. His future work will likely enhance next-generation optoelectronic devices, smart sensors, and sustainable ceramic technologies.

Top Noted Publications

First highly transparent Gd₂Sn₂O₇ pyrochlore ceramics with high refractive index: Al₂O₃ additive roles on structural features, sintering behaviors, and optical performances

  • Authors: Ruijie Pei, Bin Lu*, Youren Dong, Bo You
    Journal: Acta Materialia
    Year: 2024

Optical grade (Gd₀.₉₅₋ₓLuₓEu₀.₀₅)₃Al₅O₁₂ ceramics with near-zero optical loss: Effects of Lu³⁺ doping on structural feature, microstructure evolution, and far-red luminescence

  • Authors: Zhigang Sun, Ji-Guang Li, Huiyu Qian, Yoshio Sakka, Tohru S. Suzuki, Bin Lu*
    Journal: Journal of Advanced Ceramics
    Year: 2024

Insights into the roles of the MgO additive in crystal structures, sintering behaviors, and optical properties of transparent In₂O₃ semiconductor ceramics

  • Authors: Bo You, Bin Lu*, Dazhen Wu, Ruijie Pei
    Journal: Journal of Materials Chemistry C
    Year: 2024

Crystal structural effects on up/down-conversion luminescence properties of GdInO₃:Tm,Yb perovskite phosphors for effective dual-mode anti-counterfeit applications

  • Authors: Xiao-min Wang, Kai Feng, Liang Shan, Jie Zou, Bin Lu*
    Journal: Optics Express
    Year: 2024

Production and characterization of highly transparent novel magneto-optical Ho₂Zr₂O₇ ceramics with anion-deficient fluorite structures

  • Authors: Liangbin Hu, Bin Lu*, Bowen Xue, Shixun Dai
    Journal: Journal of Materials Science & Technology
    Year: 2023

 

Prof. Wang Fengyun | Experimental methods | Best Researcher Award

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Prof. Wang Fengyun | Experimental methods | Best Researcher Award

Professor at Qingdao university | China

Fengyun Wang is an accomplished scientist whose interdisciplinary research bridges chemistry, physics, materials science, and various engineering disciplines. With a focus on cutting-edge materials such as low-dimensional metal oxide semiconductors, perovskites, and Mxenes, Wang has contributed significantly to the development of next-generation bioelectronics, photonics, and energy storage devices.

👨‍🎓Profile

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🎓 Early Academic Pursuits

Dr. Wang’s academic journey began with a strong foundation in the fundamental sciences. Through early exposure to materials synthesis and characterization, Wang developed a passion for understanding the physical and chemical behavior of novel semiconductor materials. This passion laid the groundwork for a research path centered on innovative material solutions for high-tech applications.

🧑‍🔬 Professional Endeavors

Wang has presided over eight national and provincial research projects, playing a pivotal role in exploring topics ranging from quantum dot/metal oxide heterojunctions for photovoltaic transistors to the controllable preparation of III–V semiconductor nanowires. These projects are backed by prestigious institutions like the National Natural Science Foundation of China and the Shandong Province Key R&D Program.

🔬 Contributions and Research Focus

Dr. Wang’s research contributions lie primarily in the synthesis and application of low-dimensional semiconductor materials. By integrating disciplines, Wang has developed metal oxide nanofibers, indium phosphide nanowires, and multifaceted nanostructures for use in field-effect transistors, UV detectors, and flexible solar cells. These innovations address critical challenges in energy harvesting, optoelectronics, and next-gen computing.

🌍 Impact and Influence

Fengyun Wang’s work has earned widespread recognition. With over 80 SCI-indexed publications in esteemed journals such as Advanced Materials, Advanced Functional Materials, IEEE Electron Device Letters, and Nano Research, Wang’s findings have been cited more than 2400 times, showcasing global academic impact. The research has pushed boundaries in device efficiency and material integration across multiple application areas.

📚 Academic Publications & Citations

  • 80+ SCI papers published internationally

  • Journals include Adv. Mater., Adv. Funct. Mater., IEEE Electron Device Lett., and Nano Res.

  • Total citations: 2400+, underscoring the relevance and reliability of the research

  • Invited author of the monograph Semiconducting Metal Oxide Thin-Film Transistors, published by the British Physical Society

🧪 Research Skills

Dr. Fengyun Wang possesses advanced expertise in the synthesis of low-dimensional materials, including 1D and 2D structures, and the fabrication of nanofibers and nanowires. His skills extend to quantum dot integration, heterojunction construction, and the design and optimization of thin-film transistors. Additionally, he excels in engineering optoelectronic and photovoltaic devices. These capabilities enable him to lead and execute highly complex, interdisciplinary projects at the forefront of materials science and electronic device innovation.

👨‍🏫 Teaching Experience

Though specifics on teaching are not provided, Wang’s leadership in multiple national-level projects and publication of an academic monograph suggests active involvement in mentoring graduate students, postdocs, and likely contributing to advanced university-level courses in semiconductor physics, nanomaterials, and optoelectronics.

🏅 Awards and Honors

Dr. Fengyun Wang holds 5 authorized national invention patents, showcasing his originality and the practical impact of his innovations. He has been selected for key provincial talent programs, including the prestigious Shandong Excellent Youth, recognizing his potential and contributions to scientific advancement. Additionally, he is a recognized author by international scientific societies, reflecting his scholarly excellence and influence in the global research community.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Fengyun Wang is poised to continue leading transformative research in material innovation, particularly in the realm of flexible and high-efficiency electronics. With a growing body of influential work, patented technologies, and academic outreach, Wang’s future contributions will likely shape the next generation of green energy solutions and bio-integrated electronics.

Publications Top Notes

Integrated Sensing-Memory-Computing Artificial Tactile System for Physiological Signal Processing Based on ITO Nanowire Synaptic Transistors

  • Authors: Y. Zhang, J. Xu, M. Wei, S.A. Ramakrishna, F. Wang (Fengyun Wang)
    Journal: ACS Applied Nano Materials
    Year: 2025

Negative Photoconductivity in Nanowires/QDs Heterojunction Network for Neuromorphic Visual Perception

  • Authors: S. Xin, T. Wang, K. Dou, Y. Zhou, F. Wang (Fengyun Wang)
    Journal: Advanced Functional Materials
    Year: 2025

Bionic Gustatory Receptor for pH Identification Based on ZnSnO Nanofiber Synaptic Transistor

  • Authors: P. Xu, W. Zhang, F. Wang (Fengyun Wang)
    Journal: IEEE Electron Device Letters
    Year: 2025

Flexible Electrolyte-Gated Transistor Based on InZnSnO Nanowires for Self-Adaptive Applications

  • Authors: L. Zheng, Z. Liu, S. Xin, R. Seeram, F. Wang (Fengyun Wang)
    Journal: Applied Materials Today
    Year: 2024

Fast Ultraviolet Detection Response Achieved in High-Quality Cs₃Bi₂Br₉ Single Crystals Grown by an Improved Anti-Solvent Method

  • Authors: T. Wang, S. Xin, Y. Liu, B. Teng, S. Ji
    Journal: Journal of Materials Chemistry C
    Year: 2024

 

 

Aleksandra Wierzbicka | Experimental methods | Women Researcher Award

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Dr. Aleksandra Wierzbicka | Experimental methods | Women Researcher Award

Institute of Physics, Polish Academy of Sciences | Poland

Dr. Aleksandra Wierzbicka is a highly accomplished physicist and materials science researcher, currently serving as an Assistant Professor at the Institute of Physics of the Polish Academy of Sciences (IFPAN) in Warsaw. With over a decade of expertise in X-ray diffraction, epitaxy techniques, and nanostructure analysis, she is recognized for her contributions to both scientific research and education. Her work bridges fundamental physics and practical applications in nanoelectronics, optoelectronics, and photonics.

👨‍🎓Profile

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🎓 Early Academic Pursuits

Aleksandra began her academic journey at the University of Warsaw, earning her undergraduate degree in Physics, specializing in Material Physics and Optics. She continued with a Master’s degree in X-ray Structural Research, where she explored mixed semiconductor crystals. Her deep interest in structural studies of materials led her to pursue a PhD at the Institute of Physics (PAS), where she conducted pioneering research on epitaxial lateral overgrowth structures, focusing on stress and defects in semiconductors using X-ray diffraction and topography techniques.

🧪 Professional Endeavors

Since 2010, she has held the position of Assistant Professor at IFPAN, where her role spans scientific research, grant writing, student supervision, and international collaborations. In parallel, she has also contributed to physics education at the Jan Nowak-Jeziorański Community Primary School No. 1 STO, demonstrating her dedication to science communication and youth development.

🔬 Contributions and Research Focus

Dr. Wierzbicka has been at the forefront of innovative epitaxial growth techniques, particularly molecular beam epitaxy (MBE) and liquid-phase epitaxy (LPE). Her work emphasizes the structural characterization of GaN nanowires, core-shell structures, and low-dimensional semiconductor heterostructures. She is also an expert in high-resolution X-ray diffraction and synchrotron-based techniques, contributing to the understanding of lattice disorder, defect distribution, and internal electric fields in complex materials.

🌍 Impact and Influence

Her research has been instrumental in numerous European Union-funded projects, including COST actions, OPUS, SONATA, and NanoBiom, positioning her as a key player in collaborative science. As a project manager and contractor in various high-impact studies, her work has enabled breakthroughs in semiconductor device engineering, sensor technology, and photonics. Her invited talks—such as at CMD 31 in Braga, Portugal further reflect her international recognition.

📊 Academic Citations

Dr. Wierzbicka is the author of 63 peer-reviewed scientific publications, with a citation count exceeding 550 (as per Web of Science). Her ResearcherID (C-8880-2016) and ORCID (0000-0003-1379-5941) profiles showcase her scholarly contributions and visibility in the field of solid-state physics and nanomaterials.

🧠 Research Skills

Aleksandra possesses specialized expertise in:

  • High-resolution X-ray diffraction

  • Synchrotron radiation techniques

  • MBE growth methods

  • Defect and stress analysis

  • Scientific software such as Origin, Panalytical Epitaxy, VESTA, and WinWulff

Her skills are supported by strong computational abilities and analytical rigor, critical for interpreting complex material behavior.

🧑‍🏫 Teaching Experience

In addition to her research, Dr. Wierzbicka is a committed educator, engaging both university students and school-aged learners. Her ability to translate complex physical concepts into understandable content makes her an asset in promoting STEM education. She is actively involved in mentoring and curriculum development in physics.

🏆 Awards and Honors

Dr. Wierzbicka received her PhD with honors, and her continuous involvement in competitive grant programs like Opus, Sonata, and PBS demonstrates the trust placed in her by the scientific community. Being selected as manager and principal investigator in prestigious international projects (e.g., ANKA Synchrotron Facility at KIT) is a strong indicator of her recognized scientific leadership.

🌱 Legacy and Future Contributions

Aleksandra Wierzbicka’s career reflects an ongoing commitment to scientific excellence, education, and international cooperation. She is poised to contribute further to the advancement of nanoscale materials for use in next-generation electronics and optics. Her potential lies not only in her scientific output but also in her ability to inspire and mentor future generations of physicists especially young women in STEM. Looking forward, her trajectory is aligned with leading and shaping global research initiatives in epitaxy and semiconductor technology.

Publications Top Notes

📄Structural and optical properties of in situ Eu-doped ZnCdO/ZnMgO superlattices grown by plasma-assisted molecular beam epitaxy

  • Authors: Anastasiia Lysak, Aleksandra Wierzbicka, Sergio Magalhaes, Piotr Dłużewski, Rafał Jakieła, Michał Szot, Zeinab Khosravizadeh, Abinash Adhikari, Adrian Kozanecki, Ewa Przeździecka

  • Journal: Nanoscale

  • Year: 2025

📄Strain distribution in GaN/AlN superlattices grown on AlN/sapphire templates: comparison of X-ray diffraction and photoluminescence studies

  • Authors: Aleksandra Wierzbicka, Agata Kaminska, Kamil Sobczak, Dawid Jankowski, Kamil Koronski, Pawel Strak, Marta Sobanska, Zbigniew R. Zytkiewicz

  • Journal: Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials

  • Year: 2025

📄Influence of the Annealing Temperature on the Properties of {ZnO/CdO}30 Superlattices Deposited on c-Plane Al₂O₃ Substrate by MBE

  • Authors: Anastasiia Lysak, Aleksandra Wierzbicka, Piotr Dłużewski, Marcin Stachowicz, Jacek Sajkowski, Ewa Przezdziecka

  • Journal: Crystals

  • Year: 2025

📄 Enhancing GaN Nanowires Performance Through Partial Coverage with Oxide Shells

  • Authors: Radoslaw Szymon, Eunika Zielony, Marta Sobanska, Tomasz Stachurski, Anna Reszka, Aleksandra Wierzbicka, Sylwia Gieraltowska, Zbigniew R. Zytkiewicz

  • Journal: Small

  • Year: 2024

📄 Effect of repeating hydrothermal growth processes and rapid thermal annealing on CuO thin film properties

  • Authors: Monika Ozga, Eunika Zielony, Aleksandra Wierzbicka, Anna Wolska, Marcin Klepka, Marek Godlewski, Bogdan J. Kowalski, Bartłomiej S. Witkowski

  • Journal: Beilstein Journal of Nanotechnology

  • Year: 2024

 

 

 

Ahmed A. Aboud | Experimental methods | Best Researcher Award

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Assoc. Prof. Dr. Ahmed A. Aboud | Experimental methods | Best Researcher Award

Lecturer in department of Physics, Faculty of Sicence, BSU, Egypt

Dr. Ahmed Abdel-Nagy Aboud Moustafa is a dedicated Lecturer in the Department of Physics at the Faculty of Science, Beni-Suef University (BSU), Egypt. He holds a PhD in Physics, specializing in Surface Antireflection and Protection for Photovoltaic (PV) Systems, from Yerevan State University, Armenia, earned through a full scholarship. His academic journey has been marked by excellence and a strong commitment to advancing physics and material science.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Dr. Aboud’s academic career began with exceptional achievements. He graduated top of his class with a B.Sc. in Physics from Cairo University, Beni-Suef branch, in 2000. He continued to excel in his studies, securing a M.Sc. in Physical Physics in 2008. During his early years, Dr. Aboud’s interest was sparked by thin film deposition and its applications in materials science, which later influenced his research direction.

Professional Endeavors 💼

Dr. Aboud’s professional career includes extensive research experience in thin film deposition, nano-material preparation, and solar energy applications. He has worked on various cutting-edge projects involving spray pyrolysis, chemical vapor deposition, and aerosol-assisted techniques. His work has spanned across several international collaborations, including SolarNex Co. in Pakistan and EMONIX in the USA. His participation in various projects, such as the 10kW rooftop grid-connected PV system, showcases his contribution to sustainable energy technologies.

Contributions and Research Focus 🔬

Dr. Aboud has made substantial contributions to the field of material science and physics, particularly in thin film technologies and nanomaterials. His primary research focus lies in the preparation of high-quality thin films using cost-effective chemical-based techniques like spray pyrolysis, chemical bath deposition, and aerosol-assisted chemical vapor deposition. His work aims to enhance the performance of solar cells and develop novel nano-structured materials for energy applications.

Additionally, his research interests extend to green chemistry, where he explores eco-friendly capping agents for nanomaterial synthesis and the development of dual metal sulfide precursors for solar absorber applications.

Impact and Influence 🌍

Dr. Aboud’s research impact is evident through his numerous publications in renowned journals and his collaborations with international institutions. His work on doped ZnO thin films and photoelectrochemical activity is highly regarded in the field of solar energy and nano-materials. He has also contributed to functional food development, as seen in his work on fortified biscuits with iron nanoparticles. Through his research, Dr. Aboud is influencing sustainable technologies and renewable energy solutions on a global scale.

Academic Citations 📚

With numerous research papers published in prominent journals like Physica Scripta, Journal of Materials Science, and Materials Research Express, Dr. Aboud has achieved significant academic recognition. His work on Ni doping in ZnO films and Cu-doped CdS solar absorbers is widely cited by researchers in the fields of semiconductors and photovoltaics. This high citation count reflects his contributions to advancing material science and energy-efficient technologies.

Research Skills 🧪

Dr. Aboud is proficient in various research methodologies, including:

  • Thin film deposition techniques (spray pyrolysis, chemical bath deposition)
  • Nano-material preparation (chemical bath, microwave techniques, and hot injection)
  • Characterization of materials using state-of-the-art techniques such as:
    • X-ray diffraction (XRD)
    • Atomic force microscopy (AFM)
    • Scanning electron microscopy (SEM)
    • Transmission electron microscopy (TEM)
    • Optical properties, DC conductivity
    • X-ray photoelectron spectroscopy (XPS)
    • Fourier-transform infrared spectroscopy (FT-IR)

These skills have been critical in his ability to contribute to innovative solar technologies, functional food applications, and advanced material development.

Teaching Experience 🏫

As an educator, Dr. Aboud has delivered comprehensive courses to undergraduate and postgraduate students at BSU. His teaching portfolio includes General Physics, Semiconductor Devices, Modern Physics, and Thin Film Physics, among others. Dr. Aboud’s courses emphasize practical knowledge and hands-on experience, aligning with his passion for scientific discovery and education. His graduate-level courses, including Energy Harvesting and Thin Film Technology, inspire the next generation of physicists.

Awards and Honors 🏆

Throughout his career, Dr. Aboud has been recognized with multiple awards and honors. His research excellence has earned him funding from the Egyptian Academy of Science and international collaborations with institutions like Ohio State University. His academic achievements are testament to his commitment to advancing the field of material science and renewable energy technologies.

Legacy and Future Contributions 🔮

Looking forward, Dr. Aboud aims to continue his research on cost-effective thin film techniques for solar energy applications. He also plans to further develop green nanomaterials for sustainable technologies. His future projects will focus on innovating dual-metal sulfide precursors, improving photoelectrochemical systems, and enhancing energy efficiency. Dr. Aboud’s legacy will be one of dedication to science, advancing renewable energy solutions, and fostering scientific education.

Publications Top Notes

Effect of different metallic doping elements on the physical properties of iron oxide thin films

  • Authors: Ahmed A. Aboud, Zinab S. Matar, Mona Mohaseb
    Journal: Physica Scripta
    Year: 2024

Physical properties of La:ZnO thin films prepared at different thicknesses using spray pyrolysis technique

  • Authors: Norah A. Alsaiari, Abanoub A. Awad, Motaz F. Ismail, Ahmed A. Aboud
    Journal: Physica Scripta
    Year: 2024

Tailoring physical properties and electrochemical performance of polyaniline thin films via chemical bath deposition

  • Authors: Mohamed S. Gadallah, Ahmed A. Aboud, H.M. Abd El-Salam
    Journal: Optical Materials
    Year: 2024

Properties of spray pyrolysis deposited Zr-doped ZnO thin films and their UV sensing properties

  • Authors: Aeshah Alasmari, Ramy A. Abd-Elraheem, Ahmed A. Aboud, Motaz Ismail
    Journal: Physica Scripta
    Year: 2024

Investigating the influence of yttrium doping on physical properties of ZnO thin films deposited via spray pyrolysis

  • Authors: Aeshah Alasmari, Abanoub A. Awad, Ahmed A. Aboud
    Journal: Optical Materials
    Year: 2024