Dr Zhang Jiayang | Electrical Properties of Materials | Best Researcher Award

Dr Zhang Jiayang | Electrical Properties of Materials | Best Researcher Award

Dr. Jiayang Zhang (Student Member, IEEE) is a dedicated young researcher born in 2000 in Liaoning Province, China πŸ‡¨πŸ‡³. He earned his B.S. in Electrical Engineering from Liaoning Institute of Technology in 2022 πŸŽ“ and is currently pursuing his Ph.D. at Northeast Electric Power University, Jilin πŸ”ŒπŸ“˜. His research focuses on power conversion and control, electronic converter modeling, and renewable energy regulation ⚑🌱. With a growing publication record and technical engagement in smart grid systems, Jiayang aims to contribute to the development of sustainable and intelligent power infrastructure worldwide πŸŒπŸ’‘.

Dr Zhang Jiayang, Northeast Electric Power University, China

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ORCID

Education πŸŽ“

Dr. Jiayang Zhang began his academic journey in Electrical Engineering at Liaoning Institute of Technology, where he earned his B.S. degree in 2022 πŸŽ“πŸ”Œ. He is currently pursuing his Ph.D. in Electrical Engineering at Northeast Electric Power University in Jilin, China (2024–2027) 🏫⚑. His doctoral studies are focused on advanced topics such as power conversion, converter control modeling, and renewable energy regulation πŸŒΏπŸ’‘. Through rigorous academic training and active research engagement, Jiayang is building a strong foundation to contribute meaningfully to the development of smarter and more sustainable power systems globally πŸŒπŸ“˜.

Experience πŸ”Œ

Dr. Jiayang Zhang is currently pursuing his Ph.D. in Electrical Engineering at Northeast Electric Power University, Jilin, China πŸŽ“πŸ”Œ. As a doctoral researcher, he is deeply involved in cutting-edge work on power electronic converter control, renewable energy integration, and grid stability ⚑🧠. He has contributed to multiple scholarly projects and technical publications, showcasing skills in data analysis, model development, simulation, and system validation πŸ§ͺπŸ’». His growing experience reflects a strong commitment to addressing global energy challenges through intelligent and sustainable engineering solutions 🌱🌐.

Research Focus πŸ”‹

Dr. Jiayang Zhang’s research focuses on advancing technologies in power electronics and renewable energy systems βš‘πŸ”Œ. His primary interests include power conversion and control technology, aiming to optimize the performance of converters in dynamic power environments πŸ”„. He also specializes in control modeling of power electronic converters, which is crucial for improving grid stability and operational efficiency βš™οΈπŸ“ˆ. Additionally, his work on renewable energy regulation technology addresses the integration of wind and solar energy into modern power systems πŸŒ¬οΈβ˜€οΈ. His research contributes to the development of sustainable, efficient, and intelligent power gridsΒ for the future πŸŒπŸ”‹.

Publications πŸ“š

ESVG Adaptive Control Method for Fast Frequency Support of Wind Farm
✍️ Authors: Yong Sun, Haifeng Zhang, Xiaozhe Song, Yifu Zhang, Song Gao, Jiayang Zhang
πŸ“š Journal: Energy Engineering, 2025
⚑ Theme: Adaptive control, wind energy, frequency support, renewable power systems

High Frequency Oscillation Energy Propagation in MMC-HVDC Receiving-End Converter Station
✍️ Authors: Jikai Chen, Jiayang Zhang, Li Yang, Chongbo Sun, Yinghong Hu
πŸ“š Conference: 2023 IEEE 2nd International Power Electronics and Application Symposium (PEAS)
πŸ”Œ Theme: HVDC systems, energy propagation, converter station stability

Β Analysis and Optimization of Active Power-Frequency Support Capability of Static Synchronous Compensator in Wind Farm
✍️ Authors: Jikai Chen, Jiayang Zhang, Haoru Li, Zhuang Chu, Liwei Zhang, Hongpeng Liu
πŸ“š Journal: Automation of Electric Power Systems
πŸŒ€ Theme: Wind energy integration, STATCOM, power-frequency optimization

Dr Lila Meziane | Conductive Polymers | Best Researcher Award

Dr Lila Meziane | Conductive Polymers | Best Researcher Award

Dr. Lila Meziane is a distinguished researcher specializing in environmental engineering, supercapacitor technology, and nanomaterials. She holds a Doctorate from Ecole Nationale Polytechniques (2020) and a Master’s in Energy and Sustainable Development from France. Currently serving as a Senior Researcher at CDTA, she leads pioneering studies on high-capacity energy storage, thin-film coatings, and metal oxide electrodes. With numerous high-impact publications, international conference presentations, and awards for sustainability research, she continues to advance green energy solutions and nanotechnology applications. Her dedication to innovation and sustainability makes her a key figure in energy-efficient technologies. πŸ†βš‘

Dr Lila Meziane, Center for development of advanced technologies, Algeria

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Scopus

Education πŸŽ“

Dr. Lila Meziane has an outstanding academic background in environmental engineering, energy sustainability, and chemical engineering. She earned her Doctorate in Environmental Engineering (2020) from Ecole Nationale Polytechniques, specializing in green energy solutions and nanomaterials. She also holds a Master’s degree in Energy and Sustainable Development (2012) from Ecole Nationale SupΓ©rieure des Mines de Nantes, France, and a Magister Degree in Energy Project Management (2011) from UniversitΓ© M’Hamed Bougara Boumerdes. Her academic journey began with a State Engineer Degree in Chemical Engineering (2002) from UniversitΓ© des Sciences et Technologies Houari BoumediΓ¨ne, showcasing her expertise in sustainable materials and energy innovations. πŸŒβš‘πŸ“š

Experience 🏭

Dr. Lila Meziane has been contributing to advanced technologies and energy storage research for nearly two decades. Since 2020, she has served as a Maitre de Recherche A at the Center for the Development of Advanced Technologies (CDTA), leading the “SUPER CAPS” project focused on high-capacity structures and supercapacitor technology. She specializes in fabricating metal oxide-based electrodes and process engineering for microfabrication. Previously, as a Research Associate (2015-2020), she worked on thin-layer deposition using Physical Vapor Deposition (PVD) and wet etching processes. Earlier, as a Study Officer (2005-2012), she contributed to CMOS microfabrication and semiconductor technology. βš‘πŸ› οΈ

Research Focus πŸ”¬βš‘

Dr. Lila Meziane’s research primarily focuses on energy storage, supercapacitor materials, and thin-film coatings. Her work involves the electrochemical deposition of conductive polymers like PANI/PEDOT:PSS for high-performance supercapacitors. She also explores metal oxide-based electrodes, atmospheric corrosion resistance, and advanced thin-film fabrication using Physical Vapor Deposition (PVD). Her contributions extend to TiOβ‚‚ and Ag-doped thin films, crucial for optical, electronic, and renewable energy applications. Her expertise in microfabrication, nanomaterials, and corrosion-resistant coatings enhances material durability in industrial applications. With a strong emphasis on sustainability and green energy solutions, her research is shaping the future of environmental engineering. πŸŒπŸ”¬βš™οΈ

Publications πŸ“š

Electrochemical Deposition of PANI/PEDOT:PSS Composite Polymer for Supercapacitors Application
πŸ“Œ Authors: Seiad, M.L., Meziane, L., Boudieb, N., Ratni, I., Benammane, I.
πŸ“Œ Journal: Russian Journal of General Chemistry (2024, 94(10), pp. 2700–2709)
πŸ§ͺ Focus: Conductive polymer composites for high-performance supercapacitors ⚑

Structural and Optical Properties of Highly Ag-Doped TiOβ‚‚ Thin Films Prepared by Flash Thermal Evaporation
πŸ“Œ Authors: Amrani, R., Lekoui, F., Garoudja, E., Oussalah, S., Hassani, S.
πŸ“Œ Journal: Physica Scripta (2024, 99(6), 065914)
πŸ§ͺ Focus: Metal-doped TiOβ‚‚ thin films for enhanced optical and electronic properties πŸ”¬

Effect of Atmospheric Corrosion on Al and Ti Thin Films Deposited on Steel Surface in Urban Region
πŸ“Œ Authors: Meziane, L., Demri, B.
πŸ“Œ Journal: Materials Research Express (2019, 6(4), 046509)
πŸ§ͺ Focus: Corrosion resistance of thin-film coatings for industrial applications πŸŒβš™οΈ