Mr Sina Soltani | Computational Materials Science | Best Researcher Award

Published on 05/06/2025 by Material Scientist

Mr Sina Soltani | Computational Materials Science | Best Researcher Award

Sina Soltani is a skilled Instrumentation Engineer at Honeywell UOP, Rosemont, IL, USA, with a strong academic foundation in electrical and control engineering 🎓⚙️. He earned his B.S. and M.S. degrees from Shiraz University, Iran, in 2011 and 2013, respectively. His expertise spans estimation theory, nonlinear systems, adaptive control, signal processing, and intelligent data mining techniques 🧠📊🔧. With a deep interest in innovative industrial automation and smart system integration, he combines practical engineering with advanced control strategies to enhance system reliability and efficiency 🛠️💡📈. He continues to contribute to next-generation engineering solutions globally 🌍🔬.

Mr Sina Soltani, Honeywell UOP, United States

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🎓 Education

Sina Soltani earned his M.Sc. in Control and Power Engineering from Shiraz University in 2014 🎓⚡ and a B.Sc. in Electrical and Computer Engineering from Shiraz University of Technology in 2012 💡🔌. He also holds a High School Diploma from Naserian High School, completed in 2005 🏫📘. His academic path is further strengthened by a range of professional certifications in PLC programming (TIA Portal, S7-400H), industrial networks (Profibus, Modbus, Ethernet), and electrical safety (ATEX, ISO 9001) 🧠📈⚙️. This blend of formal education and applied training equips him with strong expertise in automation and instrumentation engineering 🔍🔧.

📏 Experience

Sina Soltani has over a decade of experience in instrumentation, automation, and control engineering ⚙️🔧. At Honeywell UOP 🇺🇸, he leads instrumentation system design and integration for industrial applications. Previously, he served as a senior engineer at Neyriz Ghadir Steel Complex 🇮🇷, focusing on fire & gas systems, PLC/DCS programming, and calibration 🎛️💡. At Piramoon Pardazesh Qeshm, he specialized in radioactive measurement systems and technical documentation 📊📐. He also held roles as a chief electrical engineer at PetroAzma and as a university lecturer 📚🧠. His expertise spans sensors, analyzers, motors, safety systems, and advanced process control 🌍🔍.

🛠️ Technical Skills

Sina Soltani possesses a robust technical skill set in Instrumentation Engineering, Control Systems, Automation, and Calibration 🧪⚙️📏. He is proficient in configuring and maintaining advanced industrial instruments, including flowmeters, analyzers, and control valves 🔄🔍. With deep knowledge of PLC/DCS systems, loop tuning, and process optimization, he excels at designing and integrating control strategies for complex operations 💻🔧. His expertise includes working with safety standards (NEC, IEC) and executing diagnostics and root-cause analysis for system failures 🚨🛠️. These capabilities make him a valuable asset in driving innovation and operational excellence across modern industrial environments 🌐🏭.

🏆 Achievement

On May 22, 2024, Sina Soltani was honored with the Top Researcher Award at Neyriz Ghadir Steel Complex, Shiraz, Iran, for his exceptional contributions to Instrumentation and Automation Engineering 🛠️📡. His innovative work in process control systems, real-time signal integration, calibration technologies, and automation reliability set a benchmark in industrial engineering ⚙️📊. This distinction reflects his impact on system accuracy, safety enhancements, and advanced control methodologies 📈🔍. Recognized for combining deep technical expertise with practical problem-solving, he continues to lead advancements in instrumentation for critical infrastructure and manufacturing environments 🌍🔬.

🔬 Research Focus

Sina Soltani’s research is centered on advanced control systems, signal processing, and intelligent estimation methods for industrial applications 🧠📉⚙️. His recent work includes the application of autoregressive Kalman filters for gamma level measurement and well-log data estimation 🔬📡, as well as the development of fuzzy logic and iterative learning-based control algorithms for instrument air units and harmonic mitigation ⚡🔁. He also explores high-efficiency modeling of electrical machines using subdomain techniques and smart controllers for distributed energy systems ⚙️🔋🌍. His interdisciplinary focus bridges control theory, automation, and real-time optimization in complex engineering systems 🛠️📊🤖.

📚 Publications

Advances in Gamma Level Measurement by Optimal Autoregressive Kalman Filter

Author: S. Soltani
Conference: 2024 20th CSI International Symposium on Artificial Intelligence and Signal Processing

Designing and Implementing an Algorithm Based on an Autoregressive Kalman Filter to Estimate Well-Log Data

Author: S. Soltani
Conference: 2023 9th International Conference on Control, Instrumentation and Automation (ICCIA)

Introducing an Improved Control Method for Instrument Air Unit Based on Fuzzy and Iterative Learning Control

Author: S. Soltani
Journal: ISA Transactions (2025)

An Analytic 2D Subdomain Model for Slotless Electrical Machines with Internal Arc/Cubic Shape Permanent Magnets

Authors: M. Pourahmadi-Nakhli, M.J.K. SeyedHassanDaryanavard, S. Soltani
Journal: Intelligence 1(1), 13–23 (2025)

Fast Subdomain Approximation of Brushless Electrical Machines with Spoke-Hub Permanent Magnets

Authors: M. Pourahmadi-Nakhli, S.H. Daryanavard, M. Jokar-Kohanjani, S. Soltani
Conference: 2024 32nd International Conference on Electrical Engineering (ICEE)

A Novel Fuzzy Type-2 PI Repetitive Control Methodology for Harmonic Elimination in Distributed Generation Sources

Authors: S. Soltani, M. Rayat
Conference: 2024 9th International Conference on Technology and Energy Management (ICTEM)

Prof. Dr Haigen Gao | Functional Materials | Best Researcher Award

Published on 04/06/2025 by Material Scientist

Prof. Dr Haigen Gao | Functional Materials | Best Researcher Award

Prof. Dr. Haigen Gao is a renowned materials scientist at Panzhihua University, China, specializing in computational materials science 🧠🧪. He earned his Ph.D. from Nanjing University and completed a postdoctoral fellowship at Tsinghua University 🎓🔬. His cutting-edge research uses density functional theory (DFT) to predict and design multiferroic and ferroelectric materials ⚛️📊. As a chief scientist for the NSFC 🇨🇳 and author of numerous high-impact publications and patents 📚📈, Prof. Gao combines theoretical depth with real-world application. His work plays a pivotal role in the development of advanced functional materials for next-generation technologies 🧲🧱.

Prof. Dr Haigen Gao, Panzhihua Univeristy, China

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🎓 Education

Prof. Haigen Gao holds a Ph.D. in Materials Science from Nanjing University, one of China’s premier institutions for scientific research 🧪🎓. Following his doctoral studies, he completed a prestigious postdoctoral fellowship at Tsinghua University, widely recognized as one of the top engineering universities in the world 🌏🏛️. His academic training provided him with a strong foundation in theoretical modeling and materials design 🧠📘. This high-level education equipped him to lead innovative research in computational materials science and physical property prediction 🔬📈. Prof. Gao’s scholarly path reflects a blend of academic excellence and scientific ambition 🌟🧑‍🔬

💼 Experience

Prof. Haigen Gao is an accomplished materials scientist at Panzhihua University, with a strong academic and research background 🏫🔬. He earned his Ph.D. from Nanjing University and completed a prestigious postdoctoral fellowship at Tsinghua University, one of China’s top institutions 🎓🇨🇳. Currently, he serves as Chief Scientist on projects funded by the National Natural Science Foundation of China, leading innovative efforts in materials research 🧪🌍. His expertise centers on theoretical prediction and design of new materials and exploring their physical properties through advanced computational methods 🧠📊. Prof. Gao blends theory with application, driving discovery in modern materials science ⚙️💡.

🧲 Scientific Contributions

He has made significant advancements in 2D multiferroic materials by using density functional theory (DFT) to design stable structures based on BaTiO₃ ⚛️💡. His work revealed that Ni substitution at Ti sites can effectively induce strong coupling between electric and spin orders, overcoming limitations from Ba site distortion and experimental challenges with Ti site replacements 🔬🌀. The resulting magnetoelectric coupling coefficient exceeds 10 V/cm·Oe, outperforming traditional composite systems 📈🔋. These insights offer a promising route for next-generation multifunctional materials used in sensors, memory devices, and spintronics 🧠💾🔧.

🔬 Research Focus

The research focus centers on multiferroic and ferroelectric materials, which exhibit unique combinations of electric, magnetic, and structural properties 🔋🧲🧪. These materials play a crucial role in the development of next-generation memory devices, sensors, actuators, and energy harvesters 💾🎯⚡. The work involves understanding domain dynamics, phase transitions, and structure-property relationships at both nano and macro scales 🔍🔬. By integrating experimental techniques and theoretical modeling, the aim is to design smart, tunable materials for applications in electronics, spintronics, and green technologies 🖥️🔄🌱. This research contributes to advancing miniaturization and multifunctionality in modern electronic systems 📱💡.

📘 Publication

First-principles study on influences of surface and thickness on magnetic and ferroelectric properties of quasi-two-dimensional BaTiO₃ (001) ultrathin film doped with Ni at Ti site

Authors:
H. Gao, Haigen
C. Hu, Chaofan

Journal:
Surfaces and Interfaces, 2025

Dr Huaming Li | Materials Science | Best Researcher Award

Published on 04/06/202504/06/2025 by Material Scientist

Dr Huaming Li | Materials Science | Best Researcher Award

Dr. Huaming Li is an Associate Professor at the College of Physics and Optoelectronics, Taiyuan University of Technology, China. He earned his Ph.D. in Physics from the Georgia Institute of Technology, USA, and has held academic positions at Taiyuan University since 2012. His research focuses on high-pressure thermodynamic behavior of liquid metals and solid solutions. Known for his discovery of linear isothermal regularities and his development of predictive equations of state, Dr. Li integrates fundamental physics with advanced materials science. His scholarly work bridges experimental insight and theoretical modeling in condensed matter and thermal physics.

Dr Huaming Li, Taiyuan University of Technology, China

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🎓 Education

Dr. Huaming Li has a strong academic foundation in physics, beginning with his B.S. (1995–1999) and M.S. (1999–2002) in Theoretical Physics from Lanzhou University, China 🇨🇳. He then earned his Ph.D. in Physics (2002–2009) from the prestigious Georgia Institute of Technology, USA 🇺🇸. His doctoral studies focused on thermodynamic behavior and phase transitions in materials, laying the groundwork for his future in high-pressure physics and condensed matter research. This educational journey equipped him with advanced skills in statistical mechanics, computational physics, and materials theory 📐🧠🔬—essential tools for his innovative work in materials science.

👨‍🏫 Experience

Dr. Huaming Li has rich academic and research experience spanning over a decade in the field of condensed matter and thermodynamic physics 🧪. After earning his Ph.D. from Georgia Tech, he completed a postdoctoral fellowship there, focusing on liquid metals under extreme conditions 🌡️🔬. Currently an Associate Professor at Taiyuan University of Technology, he leads studies on equations of state, entropy, and free volume evolution in high-pressure environments 🔍📊. Dr. Li regularly presents at global conferences like APS, CCMR, and CPS 🌍📢, contributing cutting-edge insights to energy materials, thermal modeling, and phase transition science 🔧⚙️.

🎤 Conference Presentation

Dr. Huaming Li has presented extensively on the thermodynamic behavior of liquid metals under high pressure at prestigious international conferences 🧪🌍. His talks explore linear isotherm regularities, equations of state, and entropy and free volume evolution in metals such as sodium, potassium, indium, and iron under extreme conditions 🔬🌡️. He has delivered findings at the APS March Meetings (USA), CCMR (South Korea), and CPS (China), showcasing his leadership in high-pressure materials research 🧠📊. His work aids in the predictive modeling of metallic liquids, contributing to energy materials design and the understanding of phase transitions ⚙️🧯📈.

⚙️ Research Excellence

Dr. Huaming Li has made groundbreaking contributions in the field of high-pressure thermodynamics by discovering linear isotherm regularities in liquid metals such as sodium, potassium, gallium, bismuth, and mercury 🧪🧊. His work enables predictive modeling of thermodynamic properties, supporting advanced material design. He also developed theoretical frameworks for polymorphic melting and amorphization in binary solid solutions 🔄🔬. His investigations into anomalous heat capacity behaviors of liquid metals bridge fundamental science and practical engineering applications 📘🔧. Published in top journals like AIP Advances and Physica B, his research is widely recognized and presented at international conferences 🌍📊.

🔬 Research Focus

Dr. Huaming Li’s research centers on the thermodynamics of liquid metals under high pressure ⚙️🌡️, focusing on developing equations of state that describe linear isotherm behaviors in elements such as sodium, potassium, bismuth, and mercury 🧪🔩. He investigates free volume evolution and entropy contributions in condensed matter, especially in glass-forming liquids and metallic alloys 🧊📈. His work explores the structure-property relationships critical to predicting material behavior under extreme conditions, contributing to advancements in energy materials, solid-state physics, and high-performance alloys 🚀🔬. This research bridges theoretical physics with practical materials engineering 🌍🛠️.

📚 Publications

On Heat Capacity of Liquid Mercury Under Pressure
Authors: Huaming Li, Chaochao Bao, Xiaojuan Wang, Yanting Tian, Lin Feng, Ying Zhang, Yongli Sun, Mo Li
Journal: Physica B: Condensed Matter, 2025

Thermodynamic Properties of Liquid Bismuth Under Pressure: New Regularities and an Equation of State
Authors: Huaming Li, Lin Feng, Ying Zhang, Yanting Tian, Yongli Sun, Mo Li
Journal: AIP Advances, 2022

Linear Isotherm Regularities of Liquid Gallium Under Pressure
Authors: Huaming Li, Hao Ding, Yanting Tian, Yongli Sun, Mo Li
Journal: AIP Advances, 2021

Linear Isotherm Regularities of Solid Sodium Under Pressure
Authors: Huaming Li, Hao Ding, Yanting Tian, Yongli Sun, Shiwei Fang
Journal: AIP Advances, 2020

Regularities of Liquid Potassium at Different Temperatures
Authors: Huaming Li, Hao Ding, Yanting Tian, Yong Li Sun, Mo Li
Journal: AIP Advances, 2019

Nonlinearity Acoustic Parameters from Equation of State of Liquid Sodium Under Pressure
Authors: Huaming Li, Xiaoxiao Zhang, Yongli Sun, Mo Li
Journal: AIP Advances, 2017

Thermodynamic Properties of Liquid Sodium Under High Pressure
Authors: Huaming Li, Xiaoxiao Zhang, Yongli Sun, Mo Li
Journal: AIP Advances, 2017

Assist. Prof. Dr Tikaram Neupane | Materials Science | Best Researcher Award

Published on 28/05/2025 by Material Scientist

Assist. Prof. Dr Tikaram Neupane | Materials Science | Best Researcher Award

Assist. Prof. Dr. Tikaram Neupane is a physicist specializing in nonlinear optics and nanomaterials, focusing on tungsten and molybdenum disulfide atomic layers. 🔬✨ He holds a Ph.D. in Condensed Matter and Optical Physics and has secured research grants from NASA, DoD, and academic institutions. 💼📚 Dr. Neupane excels in advanced laser techniques, spectroscopy, microscopy, and computational modeling (DFT). 💻🔭 He actively leads scientific fairs, organizes conferences, and serves on editorial boards. 🏆📊 With numerous publications and awards, including a UNESCO fellowship, he combines research excellence with strong community engagement and mentorship. 🌟👨‍🏫

Assist. Prof. Dr Tikaram Neupane, University of North Carolina at Pembroke, United States

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Education 🎓

Dr. Tikaram Neupane earned his Ph.D. in Condensed Matter and Optical Physics from Hampton University (2016–2020), focusing on third-order optical nonlinearity of tungsten and molybdenum disulfide atomic layers. 🎓🔬 Prior to that, he completed an MS in Condensed Matter Physics at the University of Wyoming (2014–2015), deepening his expertise in advanced physics topics. 📚⚛️ He also holds a Postgraduate Diploma in Earth System Physics from the International Center for Theoretical Physics, Trieste, Italy (2010–2011), where he worked on 2D modeling of mantle convection, exploring viscosity effects and multi-scale processes. 🌍🌀

Experience

Dr. Tikaram Neupane completed his Ph.D. at Hampton University (2016–2020), studying nonlinear absorption/refraction, quantum dots, and all-optical switching in nanomaterials. 🔬✨ During his graduate work at the University of Wyoming, he assisted in solar cell efficiency characterization and perovskite optical simulations. ☀️💻 Since 2021, he has been Assistant Professor of Physics at UNC Pembroke, coordinating Applied Physics and recruiting students through regional science fairs. 🎓📚 He was a Postdoctoral Research Associate at the University of Southern Mississippi (2020–2021), focusing on ocean optics, color, and remote sensing with NASA’s Stennis Space Center. 🌊🚀

Grants and Awards 🏅

Assist. Prof. Dr. Tikaram Neupane is an award-winning physicist specializing in nonlinear optics and nanomaterials. 🏅🔬 He secured prestigious research grants including the Dean’s Research Fund (2021), NC Collaboratory HMSI Award (2022), and PURC Center funding (2023–2025). 💼📊 His honors include the Best Presentation Award at ICNST 2019, NASA & DoD-funded research assistantships (2016–2020), and a UNESCO Fellowship at ICTP, Italy (2010–2011). 🌍🎓 Supported early by Tribhuvan University free-ship (2006–2008), he also held a Graduate Assistantship at the University of Wyoming (2014–2015). His work reflects sustained excellence in physics research and innovation. ✨🔭

Book Chapter 📖

Assist. Prof. Dr. Tikaram Neupane is a co-author of the 2024 book chapter in “Advanced Graphene and Graphene Oxide Materials,” published by MDPI. 📖🧑‍🔬 His expertise lies in condensed matter physics and nonlinear optics of nanomaterials like tungsten and molybdenum disulfide. ⚛️✨ Dr. Neupane combines advanced laser techniques, spectroscopy, and computational modeling to explore cutting-edge material properties. 💡🔬 His scholarly contributions extend beyond research articles to impactful academic publishing, reflecting his leadership in nanomaterials science. 🌍📚 He is dedicated to advancing knowledge in 2D materials and their innovative applications. 🚀🔗

Technical Skills 🖥️

Expert in advanced laser systems including pico- and nano-second lasers (Shunami, Spectra-Physics, Continuum) and CW lasers (Diode, Ar, He-Ne, He-Cd). ⚡🔆 Skilled in nonlinear optics techniques like Z-scan, I-scan, spatial self-phase modulation, and four-wave mixing. 🌀✨ Proficient in Density Functional Theory (DFT) for electronic and optical property calculations of nanomaterials. 💻📊 Experienced in spectroscopy (Raman, UV-Vis, photoluminescence) and microscopy (optical, XRD, AFM, TEM). 🔍📈 Adept with data acquisition tools and optics instrumentation. Software skills include MATLAB, Origin, VASP, and Quantum Espresso. 💾🖥️

Research Focus 🔍

Dr. Tikaram Neupane’s research focuses on nonlinear optical properties of 2D nanomaterials such as graphene oxide, CdSe quantum dots, and hexagonal boron nitride. 📈🧪 His work explores third-order nonlinearity, self-phase modulation, and spin-resolved optical behavior using cutting-edge techniques like Z-scan and DFT simulations. 🔍💡 He investigates quantum optical effects for photonics and optoelectronics, pushing frontiers in nanophotonics, quantum materials, and ultrafast spectroscopy. ⚛️📡 Dr. Neupane’s contributions offer critical insights into the development of next-gen devices for optical communication, sensing, and quantum information technologies. 🚀📱🌐

Publications 📚

Size-dependent fluorescence properties of CdSe quantum dots
👥 Authors: Uma Poudyal, Chandra Mani Adhikari, Nisha H. Makani, Bhoj Raj Gautam, Tikaram Neupane
📘 Journal: Solid State Communications (2025)

Third-Order Optical Nonlinearity of Hexagonal Boron Nitride Atomic Layer
👥 Authors: Tikaram Neupane, Uma Poudyal, Bagher Tabibi, Felix Jaetae Seo
📘 Preprint: Preprints.org (2024)

Cubic Nonlinearity of Graphene-Oxide Monolayer
👥 Authors: Tikaram Neupane, Uma Poudyal, Bagher Tabibi, Wan-Joong Kim, Felix Jaetae Seo
📘 Journal: Materials (2023)

Dispersion in Single-Wall Carbon Nanotube Film: An Application of Bogoliubov–Valatin Transformation for Hamiltonian Diagonalization
👥 Authors: Chandra M. Adhikari, Da’Shawn M. Morris, Thomas W. Noonan, Tikaram Neupane, Basu R. Lamichhane, Bhoj R. Gautam
📘 Journal: Condensed Matter (2023)

Spatial Self-Phase Modulation in Graphene-Oxide Monolayer
👥 Authors: Tikaram Neupane, Bagher Tabibi, Wan-Joong Kim, Felix Jaetae Seo
📘 Journal: Crystals (2023)

Spin-Resolved Visible Optical Spectra and Electronic Characteristics of Defect-Mediated Hexagonal Boron Nitride Monolayer
👥 Authors: Sheng Yu, Tikaram Neupane, Bagher Tabibi, Qiliang Li, Felix Seo
📘 Journal: Crystals (2022)

Lata Kumari Pandey | Smart Materials | Best Researcher Award

Published on 27/05/2025 by Material Scientist

Lata Kumari Pandey | Smart Materials | Best Researcher Award

Ms. Lata Kumari Pandey is a passionate Ph.D. research scholar at IIIT Allahabad specializing in behavioral finance, fintech, and digital payment systems 📊💻. She has qualified JRF (99.98 percentile), NET (twice), and WBSET (Rank 4), showcasing her academic brilliance 🎓📚. Lata has published in SSCI and SCOPUS Q1 journals and holds both a design and a utility patent related to fintech innovation 🔬📑. She actively presents at global conferences and co-authors interdisciplinary book chapters 🌐✍️. With a growing academic footprint and innovation-driven mindset, she exemplifies a future leader in finance research and technology integration 🚀📈.

Ms Lata Kumari Pandey, Indian Institute of Information Technology, Allahabad, India

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🎓 Education

Ms. Lata Kumari Pandey has maintained a strong academic record throughout her educational journey 🏆📚. She completed her 10th and 12th under the ICSE and ISC boards in Delhi with first-class distinction, scoring 79% and 82.66% respectively 📝🏫. She earned her B.Com (Hons) from Burdwan University with 68.99% and an M.Com from Kazi Nazrul Islam University with 78.81%, both in first class 📊🎓. Currently, she is pursuing her Ph.D. in Management Studies at the prestigious Indian Institute of Information Technology Allahabad, focusing on digital finance and behavioral economics 🔍💼.

📚 Book Chapter

Ms. Lata Kumari Pandey has co-authored impactful book chapters that reflect her expertise in data analytics, behavioral finance, and financial technology 📈🔍. Her work includes a data mining-based analysis of customer reviews on payment apps published in a Springer Nature conference proceeding 💬📊, and a credit card fraud detection study using discriminant analysis presented at the K.J. Somaiya Business Analytics Conference 💳🧠. She also contributed to a BLOOMSBURY publication examining heuristics and herding behavior in millennial investment decisions 🧑‍💼💡. These interdisciplinary contributions highlight her academic versatility and real-world relevance in finance and technology 📘🌐.

🎤 Conference Presentations

Ms. Lata Kumari Pandey has presented eight impactful research papers at prominent national and international conferences 🧠🌍. Her presentations span topics such as credit card fraud detection, digital payment adoption, influence of YouTube on investments, and WhatsApp Pay awareness 💳📱. These include conferences hosted by IIIT Allahabad, IIT Guwahati, Manipur University, and Pacific University, and publications through IEEE Xplore and Springer 🎓📊. Her work highlights innovation in behavioral finance and fintech, reflecting her strong communication skills and scholarly engagement with cutting-edge themes in finance and digital technology 🔍💡.

🛡️ Innovation and Patent

Ms. Lata Kumari Pandey has demonstrated strong innovative capabilities through her contributions to two cutting-edge patents in the fintech domain 🧠💳. She is a co-inventor of a Design Patent titled Social Media Payment Platform Integration Device (2025), aimed at seamless financial transactions via social media platforms 📲🔗. She also co-authored a Utility Patent, Multi-Platform Social Media and Payment Integration Hub with Advanced Security Features and AI-Driven Fraud Detection (2025, Application No. 202411077943 A) 🤖🔐. These patents highlight her applied research excellence and vision for secure, tech-integrated financial ecosystems 🚀💼.

🔬 Research Focus

Ms. Lata Kumari Pandey’s research centers on behavioral finance, fintech adoption, and digital payment technologies 📱💹. Her work explores how individuals perceive risk in cryptocurrency, adopt social media payment platforms, and respond to fintech innovations like e-gold and influencer-driven investments 💡📈. She uses both qualitative and quantitative approaches, including social network analysis and systematic literature reviews, to study user behavior and digital finance ecosystems 🔍🧠. Publishing in top-tier SSCI and SCOPUS Q1 journals, her research contributes to understanding modern financial behaviors, digital trust, and the evolving relationship between technology and financial decision-making 🌐💳.

📘 Publications

Factor Affecting the Risk Perception of Cryptocurrency Investor
Authors: Bhattacharjee Jayshree, Pandey Lata Kumari, Singh Ranjit, Baker H. Kent
Journal: Journal of Behavioral Finance (SSCI, ABDC ‘A’, SCOPUS Q1, IF-1.7)

Measuring Awareness about Mutual Funds: A Study on Bank Employees in Tripura
Authors: Deb Sujit, Singh Ranjit, Pandey Lata Kumari, Yadav Vibha, Deb Sankha Subhra
Journal: International Journal of Accounting & Finance Review (ABDC ‘C’ Category)

Unravelling the Determinants of Social Media Payment Platform (SMPP) Usage: A Qualitative Study on User Intention and Adoption
Authors: Pandey Lata Kumari, Bhattacharjee Jayshree, Singh Ranjit, Singh Ambrish
Journal: Bangladesh Journal of Multidisciplinary Scientific Research (SCOPUS Q3)
📱🔍👥

Beyond the Screen: How YouTube Influencers Shape Equity Investment Decisions
Authors: Pandey Lata Kumari, Singh Ranjit, Baker H. Kent, Rahman Habibur Laskar
Journal: Journal of Theoretical and Applied Electronic Commerce Research (SSCI, ABDC ‘B’, SCOPUS Q1, IF-5.6)
📺📈🎯

Adopting Social Media Payment Platforms: A Systematic Literature Review and Future Research Agenda
Authors: Pandey Lata Kumari, Singh Ranjit, Singh Ambrish
Journal: Academy of Marketing Studies Journal (ABDC ‘B’)
📖💳🧾

Factor Affecting Social Media Payment Platforms: A Social Network Analysis Approach
Authors: Pandey Lata Kumari, Singh Ranjit, Baker H. Kent, Singh Ambrish
Journal: Journal of Service Theory and Practice (ABDC ‘A’, SSCI, SCOPUS Q1, IF-4.9)
🔗📡📊

Fintech Adoption and Dispositional Innovativeness in E-Gold Investment: Evidence from India
Authors: Pandey Lata Kumari, Bhattacharjee Jayshree, Singh Ranjit, Baker H. Kent, Rohit Kumar Sharma
Journal: Journal of Theoretical and Applied Electronic Commerce Research (SSCI, ABDC ‘B’, SCOPUS Q1, IF-5.6)
🪙💡📉

Prof Hsi-Chao Chen | Composite Materials | Best Researcher Award

Published on 19/05/2025 by Material Scientist

Prof Hsi-Chao Chen | Composite Materials | Best Researcher Award

Prof. Hsi-Chao Chen is a leading researcher in optoelectronics, currently serving as a professor at National Yunlin University of Science and Technology, Taiwan 🎓🔬. He holds BS and MS degrees in Mechanical Engineering and a Ph.D. in Optical Sciences 📘⚙️. His research focuses on LEDs, optical thin films, stress simulation, and flexible substrates 💡📏. He has authored 35 SCI papers, 26 SPIE proceedings, 132 conference papers, and holds 22 patents 📄🔍. A senior member of SPIE (2017) and OSA (2018), Prof. Chen is known for advancing carbon-based transparent conductive films and porous separation technologies 🧪🌐.

Prof Hsi-Chao Chen, National Yunlin University of Science and Technology, Taiwan

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🎓 Education

Prof. Hsi-Chao Chen holds a Ph.D. in Optoelectronic Science from National Central University, Taiwan 🎓🔬. He previously earned his B.S. in Mechanical Engineering from National Cheng-Kung University in 1993 and an M.S. from National Taiwan University in 1995 ⚙️📘. His academic training spans both mechanical and optical sciences, forming a strong interdisciplinary foundation for his pioneering research in optoelectronics and material science 📡🧪. His diverse education empowered him to explore innovative technologies in flexible electronics, nano-materials, and energy devices 🌍💡. This solid academic background underpins his reputation as a globally respected educator and scientist 📚🌟.

🏫 Experience

Dr. Hsi-Chao Chen is a distinguished professor at National Yunlin University of Science and Technology, Taiwan 🏫📚. With a Ph.D. in Optoelectronic Science, he has built a remarkable career in electronic engineering and material science 🔬⚙️. His work spans flexible electronic coatings, nano-materials, organic solar cells, electrochromics, and biosensors 💡🧪. He has been honored as an Excellent Teaching and Academic Teacher, reflecting his dual commitment to innovation and education 🎓📖. With 32 invention patents and 26 international awards in five years, he has significantly impacted academic research and industrial innovation 🏆🔍.

🔬 Research Focus

Prof. Hsi-Chao Chen’s research is focused on the development and application of advanced materials in flexible electronics and optoelectronic systems 🧪📡. His expertise includes flexible electronic coatings, nano-films, organic solar cells, electrochromic devices, and biosensors 🔋🌱. He explores the integration of functional nanomaterials into flexible substrates to create high-performance, energy-efficient, and environmentally friendly devices 💡🌍. His work also extends to the use of carbon materials for transparent conductive films and innovative porous membranes 🔬📈. Through experimental research and simulation, Prof. Chen contributes to the advancement of smart, flexible, and wearable electronic technologies 🤖📱.

🏅 Contributions

Prof. Hsi-Chao Chen is a distinguished professor at National Yunlin University of Science and Technology, recognized for his groundbreaking work in flexible electronics and optoelectronic materials 🧪📡. He has published 95 scholarly articles, including 35 SCI and 29 EI papers, along with 31 conference publications 📘📊. His portfolio features 15 high-impact SCI papers and 32 invention patents, reflecting both innovation and academic excellence 🧠🔬. As a senior member of OSA and SPIE, a member of IEEE, and a program committee member for OSA OIC and OPTIC, he actively shapes the global optoelectronics research community 🌐💡.

📚 Publications

Gold nanoparticles modified Cu₂O/ZnO nanorod arrays synthesized with anodic aluminum oxide template for high performance non-enzymatic glucose sensor
Authors: Hsi-Chao Chen, Ying-Sheng Lin, Ming-Hsien Yen, Jia-Yu Lin
Journal: Materials Chemistry and Physics

Localized Surface Plasmon Resonance Increases Pulse Voltammetry Detection of Nitrite by Noble-Metal Modified Zirconium-Based Metal–Organic Frameworks: Fabrication and Mechanism
Authors: Hsi-Chao Chen, Ying-Sheng Lin, Jia-Yu Lin, Wen-Wei Huang
Journal: ACS Applied Electronic Materials

Optical and stress properties of ZrO₂/SiO₂ and TiO₂/SiO₂ anti-reflective coatings deposited by ion-beam-assisted deposition on a flexible substrate
Authors: Hsi-Chao Chen, Chun-Hao Chang, Kun-Hong Chen
Journal: Applied Optics

Stress mechanism analysis by finite element method for different dielectric films deposited with ion-beam assisted deposition on flexible substrates
Authors: Hsi-Chao Chen, Yu-Ru Lu, Chun-Hao Chang
Journal: Thin Solid Films

Anisotropic stress mechanisms for different dielectric multi-layer films deposited by ion-beam assisted deposition on flexible substrates
Authors: Hsi-Chao Chen, Yu-Ru Lu, Sheng-Bin Chen
Journal: Thin Solid Films

Economy and colors based on solution-process rGO-TiO₂ dye-sensitized solar cells modulated with organic Fabry-Perot cavity for indoor photovoltaic
Authors: Hsi-Chao Chen, Jhong-Yu Li, Tan-Fu Liu
Journal: Optical Materials

Mr Andrzej Raźniak | Composite Materials | Best Researcher Award

Published on 17/05/2025 by Material Scientist

Mr Andrzej Raźniak | Composite Materials | Best Researcher Award

Mr. Andrzej Raźniak is a highly experienced researcher in hybrid energy systems, specializing in hydrogen fuel cells and sustainable propulsion technologies. He holds both M.Sc. Eng. and Ph.D. Eng. degrees from the AGH University of Krakow, where he has worked since 2005. His work bridges fuel science, clean energy, and mobile robotics through the development of innovative energy management algorithms and fuel cell integration 🧠🔧. Actively involved in international collaborations and award-winning projects, his research contributes to the advancement of low-emission energy solutions for both defense and civil applications 🚀🔋🏆.

Mr Andrzej Raźniak, AGH University of Krakow, Poland

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🎓 Education

Mr. Andrzej Raźniak is a distinguished graduate of the AGH University of Science and Technology in Krakow, Poland 🏫🇵🇱. He earned his Ph.D. in Engineering from the Faculty of Energy and Fuels (2005–2013) with research focused on hybrid and hydrogen-based energy systems ⚡🔋. Prior to that, he completed his M.Sc. in Engineering at the Faculty of Fuel and Energy (1999–2004), laying the foundation for his expertise in sustainable energy and fuel technologies 🛠️🌿. His academic path demonstrates a consistent dedication to advancing clean energy solutions through scientific excellence and technical innovation 🎓🌍.

🏫 Experience

Dr. Andrzej Raźniak has been serving as a Research Scientist and Assistant at the Faculty of Energy and Fuels, AGH University of Science and Technology, Krakow, since December 15, 2005. With nearly two decades of academic experience, he has conducted cutting-edge research in hybrid energy systems, hydrogen fuel technologies, and alternative propulsion units 🧠🚗💨. He is actively involved in both teaching and collaborative research, contributing to multiple industrial innovation projects, including those for mobile robotics and clean energy. His long-term academic engagement reflects strong technical leadership, research excellence, and a commitment to sustainable engineering solutions 🌱🔧📚.

🔋 Research Contributions

Mr. Andrzej Raźniak is currently developing advanced algorithms for energy management systems tailored for hybrid propulsion drives powered by alternative fuels 🔧⚡. His work focuses on the integration and control of hydrogen fuel cell stacks, utilizing hydrogen stored in composite cylinders for enhanced energy efficiency and performance 🔋🧪. These contributions are central to building next-generation low-emission mobility platforms, particularly in sectors like defense, robotics, and renewable energy systems 🚙🛡️🌍. His interdisciplinary approach connects fuel science, system optimization, and real-world applications, driving progress in sustainable energy technologies 💡🔬.

🔍 Research Focus

Mr. Andrzej Raźniak’s research is centered on the development and application of hybrid energy systems, particularly the integration of fuel cells for both mobile platforms (such as unmanned vehicles) and stationary power units ⚡🚙. His work explores alternative fuel solutions, emphasizing hydrogen-based energy storage and smart energy distribution algorithms 🔋🧠. By combining robust engineering with innovative system design, his research addresses challenges in sustainable power generation, energy efficiency, and real-time system optimization 🛠️🌱. His contributions support the transition to clean, reliable, and high-performance energy solutions across industrial and defense sectors 🌍🔧.

📚 Publications

Development of Criteria for the Selection and Investigation of PEMFC Stacks as Components of Hybrid Energy Sources for UGVs

Authors: Magdalena Dudek, Andrzej Raźniak, Mikołaj Zarzycki, Rafał Czupryniak, Andrzej Masłowski, Arkadiusz Perski
Published in: MMAR 2024 – 28th International Conference on Methods and Models in Automation and Robotics

Reformed Methanol Fuel Cells Act as a Recharging Unit for an Electric Traction Battery

Authors: Magdalena Dudek, Andrzej Raźniak, Piotr Dudek, Jaroslaw Markowski, Bartosz Adamczyk, Mikołaj Zarzycki
Published in: Energy Transition Holistic Impact Challenge (ETHIC): A New Environmental and Climatic Era – Book Chapter

Technical Assessment of Green Hydrogen Production in Anion Exchange Membrane Electrolyzers Integrated with Off-grid Renewable Energy Systems at Different Scales

Authors: Magdalena Dudek, Andrzej Raźniak, Jaroslaw Markowski, Iliya Iliev, Umar Majeed Sada
Published in: CIEES 2024 – 5th International Conference on Communications, Information, Electronic and Energy Systems

The Energy Efficiency of an Extended Range Unit Involving a Polymer Exchange Membrane Fuel Cell Stack

Authors: Magdalena Dudek, Andrzej Raźniak, Piotr Dudek, Jaroslaw Markowski, Lesia Danchak
Published in: E3S Web of Conferences

Analysis of the Possibilities of Using a Hybrid Drive System with a Methanol-fueled Fuel Cell Dedicated to the Operational Conditions of the Vehicle

Authors: Magdalena Dudek, Andrzej Raźniak, Jaroslaw Markowski, Paweł Imilkowski, Grzegorz Slaski, Iliya Iliev
Published in: CIEES 2023 – 4th International Conference on Communications, Information, Electronic and Energy Systems

Applying a 2 kW Polymer Membrane Fuel-Cell Stack to Building Hybrid Power Sources for Unmanned Ground Vehicles

Authors: Magdalena Dudek, Mikołaj Zarzycki, Andrzej Raźniak, Maciej Rosół
Published in: Energies

Zagospodarowanie Materiałów Odpadowych z Przemysłu Spożywczego jako Paliw do Zasilania Stałotlenkowych Ogniw Paliwowych

Authors: Magdalena Dudek, Andrzej Raźniak, Bartosz Adamczyk
Published in: Przemysł Chemiczny

Mr Mikołaj Zarzycki | Materials for Energy Applications | Best Researcher Award

Published on 15/05/202516/05/2025 by Material Scientist

Mr Mikołaj Zarzycki | Materials for Energy Applications | Best Researcher Award

Mr. Mikołaj Zarzycki is a multidisciplinary researcher and engineer specializing in mobile robotics 🤖, hybrid energy systems ⚡, and autonomous platforms for defense and security 🛡️. He holds a Master’s degree in Engineering (2010) and is completing his PhD under the “Implementation Doctorate” programme at AGH University of Science and Technology 🏛️. Affiliated with Łukasiewicz – PIAP 🏢, he has authored 7+ peer-reviewed publications 📚, co-authored a scientific book 📘, and led several industry-linked R&D projects 🧪. His research blends real-world application and technological innovation, making him a standout figure in smart energy and robotics solutions 🌍.

Mr Mikołaj Zarzycki, Łukasiewicz Research Network – Industrial Research Institute for Automation and Measurements PIAP, Poland

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🎓 Education

Mr. Mikołaj Zarzycki holds a strong and diverse academic foundation in engineering and applied sciences. He earned his Master of Science in Engineering (M.Sc.) from Poznań University of Technology (2004–2010) 🏗️📘. He then pursued specialized studies at the Military University of Technology in Warsaw, focusing on Optoelectronics (2011–2015) 🔬🔦. Currently, he is a PhD candidate at AGH University of Science and Technology in Kraków (2021–2025), enrolled in the Faculty of Energy and Fuels, where his research centers on hybrid energy systems and fuel cells for unmanned platforms ⚡🔋🤖. His educational path blends engineering, optics, and energy science for next-gen technologies.

💼 Experience

Mikołaj Zarzycki has over a decade of experience in advanced engineering roles focused on automation, robotics, and optoelectronics. Since April 2017, he has been serving as Chief Engineer at the Łukasiewicz Research Network – Industrial Research Institute for Automation and Measurements (PIAP) in Warsaw, where he leads R&D in unmanned ground vehicles and hybrid energy systems 🤖🔋. Previously, from 2010 to 2016, he worked as a Senior Engineer at the Institute of Optoelectronics, Military University of Technology, specializing in imaging technologies and laser-based systems 🔬📡. His experience bridges applied research, system integration, and defense-related technologies 🛡️⚙️.

🔬 Research Contributions

Mr. Mikołaj Zarzycki is actively engaged in developing advanced algorithms for energy management systems tailored for hybrid propulsion units powered by alternative fuels 🔋⚙️. His current focus includes the integration and control of fuel cell stacks using data fusion from multiple interdisciplinary sources 📡📊. He is also designing a Digital Twin for simulation and optimization purposes, as well as developing a complete hardware system for an Unmanned Ground Vehicle (UGV) 🤖🛠️. His work contributes to smart energy utilization, system efficiency, and the deployment of autonomous mobile platforms in demanding environments 🚙🌍.

🎯 Research Focus

Mr. Mikołaj Zarzycki’s research focuses on hybrid energy systems, fuel cell integration, and autonomous mobility for Unmanned Ground Vehicles (UGVs) 🔋🤖. He explores polymer membrane fuel-cell stacks, developing algorithms for energy management systems that ensure efficient, sustainable power supply ⚙️📊. His work also encompasses the design of Digital Twins, enabling virtual testing and optimization of physical UGV systems 💻🚙. Earlier research includes laser imaging in limited visibility and augmented reality for vision systems, combining optical physics and robotics 📷🌫️🧠. His interdisciplinary focus bridges automation, defense applications, and sustainable propulsion technologies across challenging environments 🌍🛡️.

📘 Publications

Applying a 2 kW Polymer Membrane Fuel-Cell Stack to Building Hybrid Power Sources for Unmanned Ground Vehicles

Authors: Magdalena Dudek, Mikołaj Zarzycki, Andrzej Raźniak, Maciej Rosół
Journal: Energies

Support for Perimeter Border Protection Using Unmanned Ground Vehicle (UGV)

Authors: Jakub Kowaliński, Tomasz Krakówka, Rafał Więckowski, Mikołaj Zarzycki
Journal: Pomiary Automatyka Robotyka

Imaging with Laser Photography Camera During Limited Visibility

Author: Mikołaj Zarzycki
Journal: Photonics Letters of Poland

Laser Photography Device – Spatial Parameters of Imaging

Author: Mikołaj Zarzycki
Journal: Acta Physica Polonica A

Elements of Augmented Reality for Vision Systems

Author: Mikołaj Zarzycki
Journal: Acta Physica Polonica A

Mrs Charoula Iliaskou | Materials Science | Best Researcher Award

Published on 13/05/2025 by Material Scientist

Mrs Charoula Iliaskou | Materials Science | Best Researcher Award

Mrs. Charoula Iliaskou is a medical physicist and researcher at the University Medical Center Freiburg 🇩🇪, specializing in intraoperative electron beam radiation therapy (IOERT) ⚡🏥. She holds an MSc in Medical Physics from the National and Kapodistrian University of Athens 🇬🇷, graduating top of her class 🎓. Her research explores targeted dosimetry, radiation planning, and magnetic nanoparticles for hyperthermia therapy 🧲🧪. Skilled in Monte Carlo simulations, clinical software, and nanomaterials analysis, she integrates theory with real-world clinical application 🔬💻. Charoula’s work contributes to more precise, effective cancer therapies and positions her as a promising figure in radiation oncology research 🌍📈.

Mrs Charoula Iliaskou, University Medical Center Freiburg, Germany

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Education 🎓

Mrs. Charoula Iliaskou holds an MSc in Medical Physics – Radiation Physics from the National and Kapodistrian University of Athens (2020), where she graduated top of her class (Rank 1/19, Grade 9.14/10) 🎓🏅. She earned her BSc in Physics from Aristotle University of Thessaloniki in 2018 (Rank 2/23, Grade 8.18/10) 📘🔬. In 2017, she participated in the Erasmus+ program at the University of Duisburg-Essen, Germany, gaining international academic experience 🌍📖. Her academic journey began with an excellent high school diploma from Xanthi, Greece (Grade 18.9/20) 🏫📐, demonstrating consistent excellence in science and education.

Experience 👩‍🔬

Mrs. Charoula Iliaskou is currently a Physicist in the Division of Medical Physics at the University Medical Center Freiburg 🇩🇪, where she develops image-guided planning and verification workflows for IOERT (Intraoperative Electron Beam Radiation Therapy) 🏥⚡. Her MSc research focused on in vivo dosimetry for breast cancer using EBT3 Gafchromic films 🎯🧪. She has hands-on training in radiation treatment planning and quality assurance from AHEPA Hospital and early research experience in nanoparticle hyperthermia and magnetometry 🧲🔬. Her work combines clinical physics with nanoscale science, showing deep engagement from student researcher to applied medical physicist 👩‍🔬📈.

Honors and Awards 🏅

Mrs. Charoula Iliaskou was honored with the “Best Undergraduate Student Internship of the Physics Department for the year 2017–2018” 🏅 by the Aristotle University of Thessaloniki, Greece 🇬🇷. This award recognized her outstanding performance, commitment, and research initiative during her clinical internship in radiation oncology and medical physics 🏥🔬. It reflects her early dedication to academic and professional excellence, as well as her ability to integrate theoretical knowledge into practical medical applications 🎓⚙️. This recognition served as a launching point for her future achievements in medical physics, marking her as an emerging talent in the field 🌟.

Skills

Mrs. Charoula Iliaskou brings a powerful set of scientific and technical skills to her research in medical physics 🧪. Her expertise includes radiation dosimetry, magnetic nanoparticle characterization (VSM, SQUID), X-ray diffraction, SEM-TEM imaging, and Monte Carlo simulations 🔬📊. She is proficient in tools such as MATLAB, SPSS, EGSnrc, ImageJ, and clinical planning systems like ECLIPSE and RADIANCE 💻🧠. Charoula is multilingual—fluent in Greek, English, Spanish, and German 🗣️—and excels in teamwork, leadership, communication, and project management 🤝📅. Her skillset bridges computational analysis, clinical application, and experimental research, making her a highly versatile scientist.

Research Focus 🔬

Mrs. Charoula Iliaskou focuses her research on medical and radiation physics, particularly on intraoperative electron beam radiation therapy (IOERT) and targeted dosimetry techniques for cancer treatment ⚛️🏥. Her interests span the development of image-guided planning workflows, Monte Carlo simulations, and nanoparticle-based hyperthermia therapies 🧲🔬. She combines advanced analytical tools like radiation dosimetry, X-ray diffraction, and SEM-TEM imaging with clinical software such as ECLIPSE and RADIANCE 💻📊. With interdisciplinary expertise bridging nanotechnology, oncology, and statistical modeling, her research aims to improve precision and outcomes in radiation oncology and cancer therapy 🌍📈.

Publications 📚

Minimum and optimal requirements for a safe clinical implementation of ultra-high dose rate radiotherapy: A focus on patient’s safety and radiation protection
✍️ Authors: C. Garibaldi, S. Beddar, N. Bizzocchi, T.T. Böhlen, C. Iliaskou, R. Moeckli, …
📚 Journal: Radiotherapy and Oncology, Vol. 196, 110291 (2024)
🛡️ Theme: Radiation safety, FLASH radiotherapy, clinical implementation

Ex-vivo evaluation of magnetite magnetic nanoparticles as magnetic hyperthermia carriers
✍️ Authors: N. Maniotis, E. Myrovali, Z. Kalpaxidou, C. Iliaskou, M. Angelakeris, …
📚 Conference: 2018 EMF-Med 1st World Conference on Biomedical Applications of Electromagnetic Fields
🧲 Theme: Magnetic nanoparticles, hyperthermia therapy, biomedical applications

Evaluation of RADIANCE Monte Carlo algorithm for treatment planning in electron based Intraoperative Radiotherapy (IOERT)
✍️ Authors: C. Iliaskou, G. Rossi, I. Sachpazidis, V. Boronikolas, M. Gainey, D. Baltas
📚 Journal: Zeitschrift für Medizinische Physik, 2024
🧮 Theme: Monte Carlo simulation, IOERT, treatment planning systems

Development of a TLD-100 based setup for in vivo dosimetry in Intraoperative Electron Beam Radiation Therapy (IOERT): An experimental and clinical evaluation
✍️ Authors: C. Iliaskou, M. Gainey, B. Thomann, M. Kollefrath, R. Saum, E. Gkika, …
📚 Journal: Zeitschrift für Medizinische Physik, 2025
📏 Theme: In vivo dosimetry, TLD-100, intraoperative radiation

PS02.29 Clinical Evaluation of a TLD-Based In-Vivo Dosimetry Workflow in Pancreatic Intraoperative Electron Beam Radiation Therapy (IOERT): One Case Report Study
✍️ Authors: C. Iliaskou, M. Gainey, M. Kollefrath, E. Gkika, U. Wittel, D. Ruess, A.L. Grosu, …
📚 Conference/Journal: Case study presentation, clinical physics context
🩺 Theme: Clinical evaluation, pancreatic cancer, IOERT workflow

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

Published on 13/05/202513/05/2025 by Material Scientist

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 🇨🇳. He earned his B.S. in Electrical Engineering from Liaoning Institute of Technology in 2022 🎓 and is currently pursuing his Ph.D. at Northeast Electric Power University, Jilin 🔌📘. 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 🌍💡.

Dr Zhang Jiayang, Northeast Electric Power University, China

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Education 🎓

Dr. Jiayang Zhang began his academic journey in Electrical Engineering at Liaoning Institute of Technology, where he earned his B.S. degree in 2022 🎓🔌. 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 🌿💡. 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 🌍📘.

Experience 🔌

Dr. Jiayang Zhang is currently pursuing his Ph.D. in Electrical Engineering at Northeast Electric Power University, Jilin, China 🎓🔌. 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 🧪💻. His growing experience reflects a strong commitment to addressing global energy challenges through intelligent and sustainable engineering solutions 🌱🌐.

Research Focus 🔋

Dr. Jiayang Zhang’s research focuses on advancing technologies in power electronics and renewable energy systems ⚡🔌. His primary interests include power conversion and control technology, aiming to optimize the performance of converters in dynamic power environments 🔄. He also specializes in control modeling of power electronic converters, which is crucial for improving grid stability and operational efficiency ⚙️📈. Additionally, his work on renewable energy regulation technology addresses the integration of wind and solar energy into modern power systems 🌬️☀️. His research contributes to the development of sustainable, efficient, and intelligent power grids for the future 🌍🔋.

Publications 📚

ESVG Adaptive Control Method for Fast Frequency Support of Wind Farm
✍️ Authors: Yong Sun, Haifeng Zhang, Xiaozhe Song, Yifu Zhang, Song Gao, Jiayang Zhang
📚 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
📚 Conference: 2023 IEEE 2nd International Power Electronics and Application Symposium (PEAS)
🔌 Theme: HVDC systems, energy propagation, converter station stability

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
📚 Journal: Automation of Electric Power Systems
🌀 Theme: Wind energy integration, STATCOM, power-frequency optimization