Peter Naguib | Thin Film Dielectrics | Best Researcher Award

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Mr. Peter Naguib | Thin Film Dielectrics | Best Researcher Award

Munich University of Applied Sciences | Germany

Peter Naguib is an accomplished researcher specializing in RF semiconductor technologies, thin-film SAW (TFSAW) filters, and wafer-level device development. His research focuses on optimizing charge trapping layers and wafer stack architectures for 5G and 6G RF devices, targeting reduced insertion loss and enhanced material performance. Utilizing a combination of cleanroom fabrication, nanoindentation-based mechanical analysis, and advanced computational modeling with FEM, COMSOL, MATLAB, and Python, he bridges experimental and theoretical approaches to advance semiconductor device technology. Peter’s work encompasses the characterization of dielectric thin films, development of high-resistivity silicon substrates, and innovation in wafer-level process integration. His interdisciplinary expertise extends to machine learning applications for predictive data analysis, embedded systems, and smart metering technologies, highlighting a commitment to practical engineering solutions. He has contributed to peer-reviewed publications and international conference presentations, including studies on silicon nitride charge trapping layers and mechanical characterization of thin films. Through his research, Peter is advancing the design, fabrication, and analysis of next-generation RF devices, emphasizing high-performance, energy-efficient, and scalable semiconductor solutions for communication and sensing applications.

Profile : ORCID

Featured Publications

Naguib, P. G., Ye, J., Knapp, M., Mbopda, G., Walenta, C. A., & Feiertag, G. (2025). Sound velocity determination for silicon oxide thin films: A mechanical approach using nanoindentation. Next Research, 2(3), 100578.

 

Michele Greque De Morais | Hydrothermal Synthesis | Breakthrough Research Award

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Michele Greque De Morais | Hydrothermal Synthesis | Breakthrough Research Award

Research scholar at Federal University of Rio Grande |  Brazil

Prof. Dr. Michele Greque de Morais is a distinguished scholar at the Federal University of Rio Grande, recognized for her pioneering research in food engineering, biotechnology, and nanobiotechnology. She earned her degrees in Food Science and Engineering at FURG, complemented by international academic experiences at Philipps-Universität Marburg in Germany, the Scripps Institution of Oceanography, and the University of California, San Diego. Her scientific output is extensive, with over 150 peer-reviewed journal articles, 56 book chapters, 58 published books, and more than 200 conference papers. She has also contributed significantly to innovation with 27 patents and the development of 13 technological products. According to Scopus, she has authored 185 indexed works, accumulating 7246 citations with a robust h-index of 47, reflecting the global impact and recognition of her research contributions. Beyond academia, she has led 33 completed and 23 ongoing research projects, partnered with industries in 16 consultancy projects, and played key roles in national and international collaborations focused on sustainable development, microalgae-based bioproducts, and carbon biofixation technologies. Her editorial leadership includes serving as Associate Editor for Bioresource Technology. She has supervised numerous graduate and postgraduate students, shaping future generations of researchers, and has been recognized among the world’s most influential scientists by PLOS Biology. Through her dedication to advancing sustainable bioprocesses, food security, and biotechnology applications, Professor Michele Greque de Morais has established herself as a leading researcher with a profound impact on both scientific knowledge and societal development

Pofile: ScopusORCID | Google Scholar

Featured Publication

De Morais, M. G., & Costa, J. A. V. (2007). Biofixation of carbon dioxide by Spirulina sp. and Scenedesmus obliquus cultivated in a three-stage serial tubular photobioreactor. Journal of Biotechnology, 129(3), 439–445.

De Morais, M. G., Vaz, B. S., De Morais, E. G., & Costa, J. A. V. (2015). Biologically active metabolites synthesized by microalgae. BioMed Research International, 2015(1), 835761.

De Morais, M. G., & Costa, J. A. V. (2007). Isolation and selection of microalgae from coal-fired thermoelectric power plant for biofixation of carbon dioxide. Energy Conversion and Management, 48(7), 2169–2173.

De Morais, M. G., & Costa, J. A. V. (2007). Carbon dioxide fixation by Chlorella kessleri, C. vulgaris, Scenedesmus obliquus and Spirulina sp. cultivated in flasks and vertical tubular photobioreactors. Biotechnology Letters, 29(9), 1349–1352.

Costa, J. A. V., & De Morais, M. G. (2011). The role of biochemical engineering in the production of biofuels from microalgae. Bioresource Technology, 102(1), 2–9.

da Silva Vaz, B., Moreira, J. B., De Morais, M. G., & Costa, J. A. V. (2016). Microalgae as a new source of bioactive compounds in food supplements. Current Opinion in Food Science, 7, 73–77.

Peng-Fei Wang | Materials Science | Best Researcher Award

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Assoc. Prof. Dr Peng-Fei Wang | Materials Science | Best Researcher Award

Full-time teacher at Northeastern University at Qinhuangdao, China

Peng-Fei Wang is a dedicated researcher in material science and engineering 🧪, specializing in high-energy batteries ⚡. Currently, he serves as an Associate Professor at Northeastern University at Qinhuangdao 🏫. His research covers solid-state batteries, lithium-sulfur batteries, and photo-thermal batteries 🔋☀️. With a strong academic background from Nanjing University and Anhui University of Technology, he has contributed significantly to the development of next-generation energy storage systems 🏆. His expertise spans material synthesis, electrochemical characterization, and battery performance optimization 🔍. Over the years, he has published numerous SCI papers, holds patents, and collaborates with leading scientists worldwide 🌍. Before academia, he worked in the battery industry 🏭, gaining hands-on experience in commercial battery development. Passionate about innovative energy solutions, Dr. Wang continues to drive cutting-edge research towards sustainable energy storage solutions ⚡🔬.

Professional Profiles📖

ORCID

Education 🎓

Peng-Fei Wang has an extensive academic background in materials science and chemistry 🏛️. He earned his Doctorate in Materials Science and Engineering from Nanjing University (2018-2021) 🎓, focusing on energy storage materials. Prior to that, he was a research assistant at Nanjing University (2017-2018), working on lithium-sulfur batteries and solid electrolytes 🔬. His Master’s and Bachelor’s degrees in Chemistry and Materials were jointly obtained from Anhui University of Technology and Ningbo University (2009-2016) 🏗️. During this time, he conducted research on lithium-ion battery electrodes, including polyanion-type phosphates and sodium lithium titanate anodes ⚡. His early research laid the foundation for his later breakthroughs in high-energy-density batteries 🚀. Throughout his educational journey, Wang has demonstrated a commitment to pioneering new materials and electrochemical systems that enhance battery performance and sustainability 🌱🔋.

Work Experience💼

Peng-Fei Wang has an extensive professional background spanning academia and industry 🏢📚. He currently serves as an Associate Professor at Northeastern University at Qinhuangdao (since 2024) and was a Lecturer there from 2022-2023 🎓. His research focuses on solid-state and lithium-sulfur batteries, exploring high-performance battery materials. Before transitioning into academia, he worked as an R&D Engineer at Chaowei Chuangyuan Industrial Co., Ltd. (2016-2017) 🔬⚡, where he developed pouch cells and aluminum shell batteries for commercial applications. Wang also gained research experience as a Research Assistant at Nanjing University (2017-2018), contributing to lithium-sulfur battery technology 🔋. His diverse experience, bridging both industrial and academic sectors, has allowed him to drive innovations in energy storage materials, leading to multiple high-impact publications and patents 🚀.

Research Focus

Peng-Fei Wang’s research primarily focuses on high-performance battery technologies ⚡🔋. His key areas of expertise include solid-state batteries, lithium-sulfur batteries, and photo-thermal energy conversion ☀️. He explores novel electrode materials, solid electrolytes, and interfacial engineering to enhance battery performance and longevity 🔬. His work on light-driven polymer-based all-solid-state lithium-sulfur batteries has paved the way for energy-efficient battery solutions 💡. Wang also investigates innovative strategies to suppress polysulfide shuttling and improve lithium-ion transport in solid-state systems 🚀. By integrating advanced material characterization techniques like XRD, XPS, and SEM 🏗️, he develops cutting-edge energy storage materials. His research is geared toward developing next-generation, sustainable, and high-energy-density batteries for real-world applications 🌱🔋.

Skills

Dr. Wang possesses expertise in several key areas of battery🔋 research and electrochemistry. His skills include the design and development of solid-state and lithium-sulfur batteries, as well as advanced electrochemical analysis techniques such as cyclic voltammetry and impedance spectroscopy🔬. He is proficient in material characterization methods, including X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), Fourier-transform infrared spectroscopy (FTIR), and Raman spectroscopy. Additionally, he is well-versed in using software tools such as Origin, Microsoft Office, Materials Studio, FullProf, and Diamond for data analysis and visualization. His hands-on experience in battery assembly includes working with coin cells, pouch cells, and solid-state electrolytes, making him a well-rounded expert in the field of energy storage🔬.

Conclusion✅

Peng-Fei Wang is a strong candidate for the Best Researcher Award🎓 due to his extensive contributions to battery research🔋, high publication count, and expertise in material science. His work has significant potential for real-world impact in the energy sector. Strengthening his international collaborations and involvement in securing research grants could further bolster his case for such prestigious recognition. Overall, he is a highly deserving candidate for the award⚡.

📚Publications to Noted

 

Heterogeneous interface engineering to enhance oxygen electrocatalytic activity for rechargeable zinc–air batteries

Authors: Tao-Tao Li, Yu-Rui Ji, Yi-Meng Wu, Peng-Fei Wang, Zong-Lin Liu, Jie Shu, Ting-Feng Yi

Year: 2025

Journal: Inorganic Chemistry Frontiers

Design of high-performance proton batteries by reducing interstitial water molecules in copper-iron Prussian analogues

Authors: Yu-Hao Chen, Hao-Tian Guo, Bing-Chen Liu, Jing Li, Zong-Lin Liu, Peng-Fei Wang, Yan-Rong Zhu, Ting-Feng Yi

Year: 2025-07

Journal: Journal of Colloid and Interface Science

Synergistic regulation of different coordination shells of iron centers by sulfur and phosphorus enables efficient oxygen reduction in zinc-air batteries

Authors: Yi-Han Zhao, Yu-Rui Ji, Xing-Qi Chen, Jing Li, Peng-Fei Wang, Zong-Lin Liu, Jie Shu, Ting-Feng Yi

Year: 2025-06

Journal: Journal of Colloid and Interface Science

Structure stability modulation of P2-type layered oxide cathodes through the synergetic effect of co-doping strategy

Authors: Lu-Lu Zhao, Jun-Wei Yin, Bing-Chen Liu, Peng-Fei Wang, Zong-Lin Liu, Qian-Yu Zhang, Jie Shu, Ting-Feng Yi

Year: 2025-04

Journal: Applied Surface Science

Constructing stable cathode by g-C3N4 nanosheets for high-energy all-solid-state lithium-sulfur batteries

Authors: Ying Li, Ze-Chen Lv, Peng-Fei Wang, Jie Shu, Ping He, Ting-Feng Yi

Year: 2025-03

Journal: Chinese Chemical Letters

Construction of high-voltage aqueous Zn-MnO2 batteries based on polar small-molecule organic acid-induced MnO2/Mn2+ reactions

Authors: Ying Li, Nan Zhang, Jing-Yu Wang, Pengfei Wang, Zonglin Liu, Yan-Rong Zhu, Jie Shu, Ting-Feng Yi

Year: 2025-03

Journal: Chemical Engineering Journal

Unveiling the mysteries of anode-free Zn metal batteries: From key challenges to viable solutions

Authors: Ying Li, Jing-Yu Wang, Jun-Wei Yin, Peng-Fei Wang, Zong-Lin Liu, Jie Shu, Ting-Feng Yi

Year: 2025-02

Journal: Energy Storage Materials

Unlocking the electrochemical ammonium storage performance of copper intercalated hexacyanoferrate

Authors: Ying Li, Jin-Peng Qu, Jing-Yu Wang, Pengfei Wang, Zonglin Liu, Jie Shu, Ting-Feng Yi

Year: 2025-01

Journal: Chemical Engineering Journal

Unraveling the Function Mechanism of N-Doped Carbon-Encapsulated Na3V2(PO4)3 Cathode toward High-Performance Sodium-Ion Battery with Ultrahigh Cycling Stability

Authors: Ying Li, Xue-Qi Lai, Shao-Jie Yang, Peng-Fei Wang, Zong-Lin Liu, Jie Shu, Ting-Feng Yi

Year: 2025-01-15

Journal: ACS Applied Materials & Interfaces

Advanced design strategies for Fe-based metal–organic framework-derived electrocatalysts toward high-performance Zn–air batteries

Authors: Ya-Fei Guo, Shan Zhao, Nan Zhang, Zong-Lin Liu, Peng-Fei Wang, Jun-Hong Zhang, Ying Xie, Ting-Feng Yi

Year: 2024

Journal: Energy & Environmental Science