Zhang Xuexue | Experimental methods | Best Researcher Award

Posted on by High Energy Physics

Ms. Zhang Xuexue | Experimental methods | Best Researcher Award

Student at Anhui University of Technology, China

Zhangxuexue is a dedicated graduate student at Anhui University of Technology, specializing in the field of absorbing materials. With a passion for materials science and nanotechnology, she has already made meaningful academic contributions during her academic journey. Her standout work involves the development of air/SiO₂@Fe/C yolk-shell nanospheres, which has been published in the prestigious Journal of Alloys and Compounds. Zhangxuexue demonstrates a strong foundation in research methodology and is positioning herself as a rising researcher in electromagnetic wave absorption materials.

Author Profile 

Scopus

Education

Zhangxuexue is currently pursuing her graduate studies at Anhui University of Technology, majoring in Materials Science and Engineering. Her coursework and academic training have provided her with a robust foundation in material synthesis, nanotechnology, and electromagnetic wave interaction. Throughout her studies, she has engaged in laboratory work and collaborative research projects, gaining hands-on experience in materials characterization techniques such as SEM, XRD, and VSM. The interdisciplinary curriculum at Anhui University of Technology has equipped her with both theoretical knowledge and practical skills in designing advanced functional materials. Her thesis work focuses on yolk-shell nanostructures for electromagnetic wave absorption, where she integrates material chemistry with electromagnetic theory.

Professional Experience

As a graduate researcher at Anhui University of Technology, Zhangxuexue has actively participated in experimental and theoretical research related to electromagnetic wave absorbing materials. Her most notable contribution is the successful design and fabrication of air/SiO₂@Fe/C yolk-shell nanospheres, which she co-developed and characterized using advanced techniques. This research resulted in a peer-reviewed publication, marking an early milestone in her academic career. She has also contributed to various lab-based projects involving the synthesis of hybrid materials, dielectric analysis, and the simulation of microwave absorption behavior. Through this work, she has developed a deep understanding of composite design, material interfaces, and the mechanisms behind wave attenuation.

Awards and Honors

While pursuing her graduate studies at Anhui University of Technology, Zhangxuexue has demonstrated academic excellence and research potential. She has received internal recognition from her department for outstanding performance in materials research and laboratory work. Her paper titled Construction of air/SiO₂@Fe/C yolk-shell nanospheres for boosted low-frequency electromagnetic wave absorption, published in the prestigious Journal of Alloys and Compounds, earned her commendation from faculty and peers alike.

Research Focus

Zhangxuexue’s research focus lies in the field of electromagnetic wave absorbing materials, with a specific interest in yolk-shell nanostructures and hybrid composites. Her work targets the development of lightweight, high-performance materials capable of attenuating low-frequency electromagnetic radiation. By manipulating composition, morphology, and interface properties, she aims to enhance the dielectric and magnetic losses of the absorbing materials. Her flagship study involves air/SiO₂@Fe/C yolk-shell nanospheres, designed to optimize internal scattering and impedance matching for efficient absorption. Beyond microwave absorption, she is also interested in the broader implications of these materials for stealth technology, electronic packaging, and electromagnetic interference (EMI) shielding.

Notable Publication

Construction of air/SiO₂@Fe/C yolk-shell nanospheres for boosted low-frequency electromagnetic wave absorption

Authors: Xuexue Zhang¹, Jing Wang¹, Weiwei Wang, Cao Wu, Chang Liu, Hailiang Deng, Liyan Wei, Weihua Gu, Wenbo Du, Yanning Chen, Hongwei Liu, Xun Cao

Journal: Journal of Alloys and Compounds

Year: 2025

Conclusion

Zhangxuexue is an emerging researcher in the field of electromagnetic wave absorbing materials, with a solid academic foundation and a growing record of scientific contribution. Her innovative work on yolk-shell nanostructures demonstrates both creativity and technical skill in material design. As a graduate student at Anhui University of Technology, she has shown strong potential for impactful research and future academic advancement. With a keen interest in nanomaterials and their real-world applications, Zhangxuexue aims to further explore advanced absorption mechanisms and scalable solutions for electromagnetic interference control. Her dedication and accomplishments position her as a promising talent in materials science.

 

 

Abdelmounaim Chetoui | Experimental methods | Academic Excellence in Applied Physics Award

Posted on by High Energy Physics

Dr. Abdelmounaim Chetoui | Experimental methods | Academic Excellence in Applied Physics Award

Research assistant, CRTSE, Algeria

Dr. Abdelmounaim Chetoui is a dedicated researcher in materials physics, specializing in semiconductors, thin films, and nanostructures. With over six years of research experience, he is currently affiliated with the Research Center in Semiconductor Technology for Energetics (CRTSE) in Algiers. He holds a Ph.D. in Materials Physics from USTHB, Algeria, and has pursued academic training in both Algeria and France. His expertise includes photoluminescence, spray pyrolysis, and nanomaterials for photovoltaics and gas sensors. Dr. Chetoui has an excellent grasp of interdisciplinary research and experimental design.

👨‍🎓Profile

Google scholar

Scopus

ORCID

🎓 Early Academic Pursuits

Dr. Chetoui began his academic journey with a Bachelor’s in Fundamental Physics from the University of Sétif, followed by a Maitrise and Master’s in Materials Engineering from the University of Strasbourg, France. His academic focus was on solid-state physics and materials science, laying a strong foundation for his research career. He culminated this phase with a Doctorate in Materials Physics from USTHB, where his doctoral work explored the optical and structural behavior of semiconductor thin films, especially in photovoltaics and gas sensing.

🏢 Professional Endeavors

Dr. Chetoui has held research positions at prestigious Algerian institutions including CDTA and CRTSE, contributing extensively to semiconductor research and device engineering. As a Research Engineer Advisor, he led multiple projects on metallic oxide synthesis, spray pyrolysis device design using SolidWorks, and thin film characterization. His current role at CRTSE involves cutting-edge material synthesis for energy applications. From 2013 to 2014, he also served as an Assistant Teacher at USTHB, mentoring students in electricity and mechanics, showcasing his dedication to both research and education.

🔬 Contributions and Research Focus

Dr. Chetoui’s research revolves around nanostructured semiconductors, luminescent materials, and thin-film deposition techniques. He has made significant contributions to the study of ZnS, ZrO₂, V₂O₅, NiO, and perovskite-based materials through both experimental and DFT (density functional theory) studies. His work integrates photoluminescence, photocatalysis, and nanocomposites for energy conversion and environmental remediation. A key focus of his work is the use of spray pyrolysis, a cost-effective technique for fabricating high-performance thin films for solar energy and sensing applications.

🌍 Impact and Influence

Dr. Chetoui’s research has contributed to the development of nanomaterials with enhanced optical and photocatalytic properties, impacting fields such as renewable energy, environmental cleanup, and nanoelectronics. His collaborative studies on Zn1−xMgxS, SiNx, and rGO-based nanostructures offer valuable insights into material optimization for visible-light-driven photocatalysis. His role in cross-disciplinary teams and international publication record helps bridge theoretical understanding with practical applications. These contributions make him a valuable asset in advancing sustainable nanotechnology in the MENA region and beyond.

📚 Academic Cites

Dr. Chetoui has co-authored over 20 international publications in reputable journals like Applied Physics A, Physica B, Solid State Sciences, and Diamond & Related Materials. His work on photocatalytic nanocomposites, luminescent thin films, and solid-state phosphors has attracted attention in the materials science and semiconductor communities. Notable studies include his 2024 research on ZrV₂O₇ nanoparticles, Eu³⁺-doped phosphors, and graphene-based heterojunctions, contributing to an increasing citation index and strengthening his global scientific footprint.

🧪 Research Skills

Dr. Chetoui has hands-on expertise in spray pyrolysis, solvothermal synthesis, and solid-state reactions. His technical arsenal includes XRD, SEM, AFM, FTIR, and photoluminescence spectroscopy. Adept in software like SolidWorks, he has designed customized deposition systems and analyzed complex materials using optical and structural simulation tools. His research merges materials chemistry, device engineering, and physics, demonstrating analytical precision, instrumental knowledge, and problem-solving ability critical for experimental physics and nanotechnology development.

👨‍🏫 Teaching Experience

As an Assistant Teacher at USTHB, Dr. Chetoui taught physics tutorials in electricity and mechanics, demonstrating strong pedagogical skills. His teaching involved hands-on lab supervision, conceptual instruction, and assessment design, providing foundational physics knowledge to undergraduate students. His bilingual fluency in French and English further enhances his communication in diverse academic settings. He is well-prepared to deliver graduate-level lectures on semiconductors, thin film physics, and optical materials, making him a valuable educator and mentor in higher education.

🏅 Awards and Honors

While explicit awards are not listed, Dr. Chetoui’s academic journey through international institutions, his research output, and consistent participation in scientific events demonstrate high merit and recognition in his field. Presenting at over 10 national and international conferences, including ICASE, EMS, and ICMS, he has contributed valuable insights on ZnS-based nanomaterials, luminescent oxides, and environmental applications of nanotechnology. His selection to present at these forums reflects peer acknowledgment and research credibility in applied materials science.

🌟 Legacy and Future Contributions

Dr. Chetoui’s work positions him to make impactful contributions to next-generation nanomaterials for energy harvesting, environmental monitoring, and photonics. He is expected to lead collaborative research, initiate international projects, and expand into emerging materials platforms like 2D materials and hybrid perovskites. With a commitment to sustainable innovation and scientific mentorship, he is poised to leave a lasting legacy in applied physics and nanotechnology. His future efforts will likely strengthen the scientific community’s ability to tackle climate, energy, and material efficiency challenges.

Publications Top Notes


Band Structure Engineering in InVO₄/g-C₃N₄/V₂O₅ Heterojunctions for Enhanced Type II and Z-Scheme Charge Transfer

  • Authors: Abdelmounaim Chetoui, Ilyas Belkhettab, Amal Elfiad, Ismail Bencherifa, Messai Youcef
    Journal: Vacuum
    Year: 2025

Effect of Li⁺ Co-doping on Structural, Morphological and Photoluminescence Spectroscopy of ZnO: Eu³⁺ Nanocrystal Powders

  • Authors: Wafia Zermane, Lakhdar Guerbous, Widad Bekhti, Ahmed Rafik Touil, Mohamed Taibeche, Abdelmounaim Chetoui, Lyes Benharrat, Nadjib Baadji, Mustapha Lasmi, Abdelmadjid Bouhemadou
    Journal: Ceramics International
    Year: 2025

An In-Depth Photoluminescence Investigation of Charge Carrier Transport in ZrO₂|V₂O₅ Type I Junction: Probing the Production of Hydroxyl Radicals

  • Authors: Abdelmounaim Chetoui, Ilyas Belkhettab, Amal Elfiad, Youcef Messai, Aicha Ziouche, Meftah Tablaoui
    Journal: Applied Surface Science
    Year: 2024

Elaboration and Characterization of Amorphous Silicon Carbide Thin Films (a-SiC) by Sputtering Magnetron Technique for Photoelectrochemical CO₂ Conversion

  • Authors: Abdelmounaim Chetoui
    Journal: Silicon
    Year: 2022

Physicochemical Investigation of Pure Cadmium Hydroxide Cd(OH)₂ and Cd(OH)₂–CdO Composite Material Deposited by Pneumatic Spray Pyrolysis Technique

  • Authors: Abdelmounaim Chetoui
    Journal: Applied Physics A
    Year: 2022

 

Wang Hay Kan | Data Analysis Techniques | Best Researcher Award

Posted on by High Energy Physics

Prof. Wang Hay Kan | Data Analysis Techniques | Best Researcher Award

Associate Researcher at China Spallation Neutron Source | China

Dr. Wang Hay (Jack) Kan is an accomplished Associate Professor at the China Spallation Neutron Source (CSNS), Institute of High Energy Physics, Chinese Academy of Sciences. With a research portfolio spanning solid-state chemistry, neutron scattering, and energy materials, he is recognized for advancing the field of energy storage and conversion. Holding a PhD from the University of Calgary, Dr. Kan combines academic rigor with real-world innovation, reflected in over 90 peer-reviewed publications, numerous patents, and extensive international collaborations. His research integrates in-situ neutron/X-ray techniques with advanced material design, making him a vital figure in next-gen energy solutions.

👨‍🎓Profile

Google scholar

Scopus

ORCID

🎓 Early Academic Pursuits

Dr. Kan’s academic path began with a First-Class Honors B.Sc. in Chemistry from HKUST, where he studied metal-organic frameworks under Prof. Ian D. Williams. He then pursued a Master’s at the University of Waterloo under the guidance of Prof. Linda Nazar, focusing on LiMPO₄ cathode materials. His academic excellence continued with a PhD in Chemistry from the University of Calgary, where he developed mixed conductors for SOFCs under Prof. V. Thangadurai. These formative years established his foundation in solid-state electrochemistry, crystallography, and materials engineering—skills critical for his later breakthroughs in energy storage research.

👨‍💼 Professional Endeavors

Dr. Kan has served as an Associate Professor at CSNS since 2015 and held visiting scientist positions at prestigious institutions like Lawrence Berkeley National Lab, ANSTO, and HKUST. He also served as Guest Professor at Beijing Jiaotong University and Tianjin University, contributing to both research and graduate mentorship. His professional journey blends academic research, national lab collaboration, and industry partnerships with leaders like CATL. His leadership extends to graduate advising, technical committee service, and international conference organization, showcasing a comprehensive contribution to both scientific advancement and institutional development.

🔬 Contributions and Research Focus

Dr. Kan’s research centers on energy materials, including lithium/sodium-ion batteries, solid oxide fuel cells (SOFCs), and neutron diffraction techniques. He is an expert in in-situ structural characterization, focusing on meta-stable phases, oxygen redox reactions, and high-capacity cathode design. He pioneered novel composite materials such as Li-rich rock-salt oxides and dual-polyanion cathodes, contributing significantly to electrochemical innovation. Through his patents and publications, he has developed advanced electrolytes, neutron scattering hardware, and regeneration strategies for aged batteries, positioning himself as a leading materials chemist bridging basic science and application.

🌍 Impact and Influence

With an h-index of 35 and over 4400 citations, Dr. Kan’s work has shaped the fields of battery chemistry and neutron-based materials analysis. His leadership in establishing the Platform for Electrochemical and Neutron Studies (PANs) at CSNS has enabled transformative research infrastructure in China. His lectures across institutions in the USA, Australia, Korea, and China, and collaborations with SSRL and ANSTO, demonstrate global recognition. He has significantly influenced graduate education, national science policy, and industry research directions through his funding projects, reviews, and committee roles. Dr. Kan is considered a bridge between fundamental discovery and industrial impact.

📚 Academic Cites

Dr. Kan has authored over 90 peer-reviewed articles in high-impact journals including JACS, Angewandte Chemie, RSC Advances, and J. Mater. Chem. A. His Google Scholar profile (h-index: 35, 4449 citations) reflects a growing influence, particularly in solid-state ionics and battery materials. His most cited works span from early contributions on LiFePO₄ morphology to recent innovations in Li-rich and dual-polyanion cathodes. He has also contributed chapters and conference abstracts to major symposia, cementing his role as a thought leader in electrochemical energy storage and neutron scattering applications.

🛠️ Research Skills

Dr. Kan excels in neutron diffraction, synchrotron X-ray scattering, electrochemistry, solid-state synthesis, and Rietveld refinement. He has developed novel in-situ cells for high-temperature and hydrothermal neutron scattering. His work involves crystal structure elucidation, electrical conductivity measurement, and catalytic performance evaluation under operando conditions. His facility with advanced instrumentation allows him to bridge microscopic structure with macroscopic performance in materials. Equally skilled in computational modeling, spectroscopy, and thermochemistry, Dr. Kan’s methodological versatility underpins his ability to innovate across disciplines.

🧑‍🏫 Teaching Experience

Dr. Kan has taught both undergraduate and graduate courses on energy storage and conversion systems at Beijing Jiaotong, Tianjin, and Foshan Universities. Earlier, he served as a teaching assistant at the University of Calgary and University of Waterloo, covering general, transition metal, and main group chemistry, as well as nanotechnology. His mentorship extends to graduate supervision, lab-based research training, and international collaboration guidance. He’s an active advisor and student chapter chair at CSNS, nurturing the next generation of electrochemists and materials scientists through an integrative and research-oriented pedagogy.

🏆 Awards and Honors

Dr. Kan has received over 30 awards, including the Ludo Frevel Crystallography Award, Young Research Fellowship (Asia-Oceania Neutron Scattering Association), and the Innovation Achievement Award from the Industrial Research Society of China. Notably, he received the Best Thesis Award at the 9th National Neutron Scattering Conference in 2023. He has been funded by NSFC, MOST, and provincial talent programs, highlighting his national recognition. His consistent award record from 2006 to 2025 reflects both academic excellence and sustained research impact, supported by international travel grants, fellowships, and scholarships.

🧭 Legacy and Future Contributions

Dr. Kan’s legacy is rooted in pioneering work at the interface of energy materials and neutron science. By establishing platforms like PANs, advancing in-situ techniques, and mentoring future scientists, he is shaping the next era of electrochemical research. His upcoming projects on hard carbon anodes and sodium-ion batteries will deepen understanding of ion transport and storage mechanisms. Through ongoing collaborations with industry leaders like CATL and national labs, Dr. Kan will continue driving innovation in energy sustainability. His trajectory promises enduring contributions to science, technology, and environmental resilience.

Publications Top Notes

High-Entropy V-Based Null Matrix Alloys─Short/Long-Range Structural Features, Chemical Stabilities, and Mechanical Properties

  • Authors: Man He, Chen Wang, Hua Yang, Dong-Ying Wu, Jey-Jau Lee, Xuan Huang, Hao Shen, Fangwei Wang, Maxim Avdeev, Wang Hay Kan
    Journal: ACS Applied Materials & Interfaces
    Year: 2025

A prismatic alkali-ion environment suppresses plateau hysteresis in lattice oxygen redox reactions

  • Authors: Hao Yu, Ang Gao, Xiaohui Rong, Shipeng Shen, Xinqi Zheng, Liqin Yan, Haibo Wang, Dan Su, Zilin Hu, Wang Hay Kan et al.
    Journal: Energy & Environmental Science
    Year: 2024

A Family of V-Based Null Matrix Alloys with Atomic and Mesoscopic Homogeneity

  • Authors: Man He, Chen Wang, Hua Yang, Dong-Ying Wu, Jey-Jau Lee, Fangwei Wang, Maxim Avdeev, Wang Hay Kan
    Journal: ACS Applied Engineering Materials
    Year: 2024

Author Correction: Stabilization of layered lithium-rich manganese oxide for anion exchange membrane fuel cells and water electrolysers

  • Authors: Xuepeng Zhong, Lijun Sui, Menghao Yang, Toshinari Koketsu, Malte Klingenhof, Sören Selve, Kyle G. Reeves, Chuangxin Ge, Lin Zhuang, Wang Hay Kan et al.
    Journal: Nature Catalysis
    Year: 2024

Stabilization of layered lithium-rich manganese oxide for anion exchange membrane fuel cells and water electrolysers

  • Authors: Xuepeng Zhong, Lijun Sui, Menghao Yang, Toshinari Koketsu, Malte Klingenhof, Sören Selve, Kyle G. Reeves, Chuangxin Ge, Lin Zhuang, Wang Hay Kan et al.
    Journal: Nature Catalysis
    Year: 2024

 

Suparna Kar Chowdhury | Experimental methods | Women Researcher Award

Posted on by High Energy Physics

Prof. Suparna Kar Chowdhury | Experimental methods | Women Researcher Award

Jadavpur University | India

Dr. Suparna Kar Chowdhury is a distinguished Professor in the Electrical Engineering Department at Jadavpur University, Kolkata, India. With a career spanning over three decades, she has earned recognition for her deep expertise in machine analysis and design. As a senior IEEE member and an active volunteer, Dr. Chowdhury is a leading figure in both academic and professional circles in Electrical Engineering.

👨‍🎓Profile

Scopus

ORCID

Early Academic Pursuits 🎓

Dr. Chowdhury’s journey in Electrical Engineering began when she graduated in 1987 from Jadavpur University, Kolkata. She continued to excel academically, earning her M.Tech degree in Electrical Engineering from the prestigious Indian Institute of Technology (IIT), Kharagpur, in 1989. Her commitment to learning and her strong academic foundation led her to pursue a Ph.D. in Electrical Engineering from Jadavpur University in 2000, where she expanded her knowledge in advanced topics within the field.

Professional Endeavors 💼

After her graduation, Dr. Chowdhury briefly worked as an engineer at M/S M N Dastur & Co., gaining practical industry experience. In 1990, she began her academic career as an Assistant Professor at Jadavpur University and quickly gained recognition for her contributions to the academic community. Over the years, she has climbed the ranks, ultimately achieving the position of Professor in the Electrical Engineering Department, where she continues to inspire future engineers.

Contributions and Research Focus 🔬

Dr. Chowdhury’s research focus lies in machine analysis and design. She has made significant contributions to the advancement of these fields, publishing around 40 papers in National and International conferences and journals. Her research is aimed at improving the design and efficiency of electrical machines, and she has played a key role in shaping the landscape of machine engineering through her innovative studies.

Impact and Influence 🌍

As a senior member of IEEE (USA) and a leader in the IEEE Kolkata Section, Dr. Chowdhury has had a substantial impact on the global engineering community. Her leadership roles, including serving as section secretary, treasurer, and chair of the Power & Energy chapter, have allowed her to influence the growth and development of the IEEE Kolkata Section. Through these leadership positions, Dr. Chowdhury has contributed to expanding the reach of IEEE’s initiatives in India and globally.

Academic Cites 📑

With a vast publication record and extensive involvement in academic circles, Dr. Chowdhury has contributed to numerous research endeavors, producing impactful work that has shaped the current understanding of machine design and analysis. Her publications have garnered attention within the academic community, and her research insights continue to influence future studies in the field.

Research Skills 🔧

Dr. Chowdhury’s research skills encompass advanced machine design, electrical system modeling, and optimization techniques. She has worked on complex analytical methods to solve engineering challenges, contributing to her reputation as an expert in the field of electrical machine analysis. Her ability to bridge theoretical knowledge with practical application has made her research highly valuable to both academia and industry.

Teaching Experience 🏫

As an Assistant Professor and later as a Professor, Dr. Chowdhury has been an influential educator, guiding students in the Electrical Engineering Department at Jadavpur University. With over three decades of teaching experience, she has mentored numerous students and has successfully supervised five Ph.D. theses and sixteen M.E. theses. Her commitment to education and student development remains a key part of her legacy.

Awards and Honors 🏅

Dr. Chowdhury has received multiple accolades for her academic and professional contributions. Notably, her status as a senior member of IEEE and her leadership roles within the IEEE Kolkata Section underscore her commitment to advancing electrical engineering. These honors reflect her dedication and passion for the field, as well as her ability to inspire others.

Legacy and Future Contributions 🌱

Dr. Suparna Kar Chowdhury’s legacy lies in her remarkable impact on machine analysis and design in Electrical Engineering, as well as her leadership within the IEEE community. She has left a lasting mark on both her students and colleagues through her innovative research, mentorship, and service. Looking forward, Dr. Chowdhury is expected to continue advancing research in machine analysis, contributing to sustainable technologies, and inspiring the next generation of engineers. Her continued commitment to academia and research excellence will undoubtedly shape the future of Electrical Engineering.

Publications Top Notes

  • Estimation of Induction Motor Equivalent Circuit Parameters and Losses from Transient Measurement
    Authors: Diptarshi Bhowmick, Suparna Kar Chowdhury
    Year: Dec 2024

  • A New Nonisolated Bidirectional DC-DC Converter with High Voltage Conversion Ratio
    Authors: Supratik Sikder, Debashis Chatterjee, Suparna Kar Chowdhury
    Year: Dec 2023

  • Performance analysis of different rotor configuration of LSPMSM for Electric Vehicles
    Authors: Mousumi Jana Bala, Chandan Jana, Suparna Kar Chowdhury, Nirmal Kumar Deb
    Year: Dec 2022

  • Sensor Less Performance Estimation of Induction Motor
    Authors: Diptarshi Bhowmick, Suparna Kar Chowdhury
    Year: Dec 2022

  • Performance and Temperature Estimation of Induction Motor from Transient Measurement
    Authors: Diptarshi Bhowmick, Suparna Kar Chowdhury
    Year: Dec 2020