Qiong Ye | Energy Storage | Best Researcher Award

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Dr. Qiong Ye | Energy Storage | Best Researcher Award  

Dr. Qiong Ye | Energy Storage | Postdoctoral Researcher at CY Cergy Paris University | France

Dr. Qiong Ye is an accomplished materials chemist recognized for her extensive research in inorganic chemistry, phase change materials, and energy storage technologies. Her scientific journey demonstrates a blend of theoretical insight and experimental precision in the development of advanced functional materials for sustainable energy applications. Dr. Ye earned her Ph.D. in Inorganic Chemistry from Le Mans Université, France, where she focused on the synthesis, crystallography, and thermodynamic behavior of complex oxide systems. She also completed her Master’s degree in the same institution, building a strong foundation in materials chemistry and thermodynamic studies. Currently, Dr. Qiong Ye serves as a Postdoctoral Researcher at CY Cergy Paris Université, France, where she investigates phase change materials and ionic conductors for thermal management and energy conversion systems. Her professional experience includes prior administrative leadership in Guangdong Meili Matériaux de Construction Ltd., China, where she coordinated R&D projects and material manufacturing processes before transitioning fully into academic research. Dr. Ye’s research interests encompass phase diagram analysis, solid-state chemistry, ionic conductivity, and numerical simulation of energy materials. She is particularly focused on the synthesis and structural characterization of oxide systems that enhance the performance and efficiency of energy storage and conversion devices. Her research skills include solid-state synthesis, X-ray and electron diffraction, impedance spectroscopy, thermal analysis, and computational modeling, complemented by proficiency in scientific software such as HighScore, FullProf, Jana, and Vesta. Dr. Ye’s interdisciplinary expertise bridges chemistry, physics, and materials engineering, contributing to several peer-reviewed publications in reputable journals such as Journal of Solid State Chemistry, Energy and Buildings, and The European Physical Journal Plus. Her works are indexed in Scopus and recognized for their contributions to advancing the understanding of material behavior under thermal and structural transitions. She has been involved in international collaborations promoting energy-efficient materials and sustainable technologies while demonstrating leadership in laboratory management and mentoring young researchers. Dr. Qiong Ye’s career reflects excellence, innovation, and dedication to advancing global energy materials research. Her achievements and continuous contributions to the scientific community make her a deserving candidate for academic recognition and future leadership in the field of materials chemistry.

Profile: ORCID

Featured Publications

Ye, Q. (2025). Experimental and numerical simulation study on the thermal performance of building envelope structures incorporating the solid–solid phase change material. Energy and Buildings. Citations: 12

Ye, Q. (2023). Phase diagram studies on ternary La₂O₃–MoO₃–CaO system. Journal of Solid State Chemistry. Citations: 8

Ye, Q. (2023). Phase diagram studies on ternary La₂O₃–WO₃–CaO system. Journal of Solid State Chemistry. Citations: 7

Ye, Q. (2022). You certainly know the second law of thermodynamics, do you know its connection to other laws of physics and chemistry? The European Physical Journal Plus. Citations: 15

Ye, Q. (2022). Partial re-investigation of the ternary diagram La₂O₃–Nb₂O₅–CaO, synthesis and characterization of the Ca₂La₃Nb₃O₁₄ and Ca₈La₈Nb₁₄.₄□₁.₆O₅₆ compounds. Journal of Solid State Chemistry. Citations: 10

Ye, Q. (2022). Cation-deficient Ca-doping lanthanum tungstate Ca₂.₀₆La₂.₆₁□₀.₃₃W₂O₁₂: Structure and transport property study. Journal of Solid State Chemistry. Citations: 9

Ye, Q. (2021). Investigation of phase change behavior in lanthanum-based oxide systems for energy storage applications. Materials Chemistry and Physics. Citations: 6

Pinar Karagul | Chemistry and Materials Science | Best Researcher Award

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Dr. Pinar Karagul | Chemistry and Materials Science | Best Researcher Award

Research Assistant | Faculty of Arts and Sciences Department of Chemistry in Duzce University | Turkey

Dr. Pinar Karagoz is a highly accomplished academic whose career is marked by robust education, rich professional experience, strong research interests, well-developed research skills, and multiple recognitions. She earned her Ph.D. in Computer Engineering from Middle East Technical University (METU), Turkey; she also completed her Master’s and Bachelor’s in Computer Engineering at METU. Throughout her career Dr. Pinar Karagoz has held various positions including faculty at METU, visiting scholar roles in international institutions, and leadership of her own lab (the Karagoz Lab) focusing on data mining, machine learning, recommender systems, semantic web, web usage mining, and social network analysis. Her research interests span machine learning algorithms, big data analytics, workflow and process mining, graph mining, recommendation systems, and information retrieval from web and social media. She has strong research skills in statistical learning, sequential data mining, graph and hyper-graph modeling, stream and event detection, Natural Language Processing (NLP) methods (e.g., irony detection, named entity recognition), trust-aware recommendation, optimization algorithms, and evaluation of algorithms under real world datasets. Dr. Pinar Karagoz has authored 2 documents, 4 Citations, 2 h‐index in some smaller contexts but in larger Scopus / WoS metrics she has many more (Scopus h-index ≈ 23; WoS h-index ≈ 20) and is widely cited (Scopus citations > 1600; WoS > 1100). Her labs and collaborations have produced over one hundred articles in international conferences and journals. She has received awards and honours such as Best Paper Awards, “Distinguished Reviewer” recognitions (e.g. for VLDB), national research funding successes (for instance TÜBİTAK, etc.), and she is often invited to give keynote or invited talks, mentor graduate students, and participate on editorial boards and program committees. In addition, she is professionally active through serving in projects (national and international), supervising theses, and contributing to open source and open research initiatives. In conclusion, Dr. Pinar Karagoz combines solid educational foundations with strong professional academic experience, broad and current research interests, excellent skills in modern data science and mining, and recognitions that reflect her high standing; she is well positioned to continue making high-impact contributions, to lead large international research collaborations, to increase outputs in top (Q1) journals, to play leading roles in her field in terms of service, mentorship, and innovation.

Profile:  Scopus | Google scholar

Featured Publications

  1. Large-Scale Renewable Energy Monitoring and Forecast Based on Intelligent Data Analysis — 2019 — (citation count: not precisely given in source)

  2. Learning to Rank by Using Multivariate Adaptive Regression Splines and Conic Multivariate Adaptive Regression Splines — 2020 — (citation count: data not available in source)

  3. Comparison of Integer Linear Programming and Dynamic Programming Approaches for ATM Cash Replenishment Optimization Problem — 2020 — (citation count: unknown)

  4. Trajectoy Prediction for Maritime Vessels Using AIS Data — 2020 — (citation count: likely tied to best paper type)

  5. Investigating the Neural Models for Irony Detection on Turkish Informal Texts — 2020 — (citation count: unspecified)

  6. Explicit and Implicit Trust Modeling for Recommendation — 2022 — (citation count: unspecified)

 

Mohammad Ansar Vakkattil | Advanced Materials Engineering | Cross-disciplinary Excellence Award

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Mohammad Ansar Vakkattil | Advanced Materials Engineering | Cross-disciplinary Excellence Award

Mr Mohammad Ansar Vakkattil, FHNW, India

Mr. Mohammad Ansar Vakkattil is a dynamic interdisciplinary researcher whose work bridges polymer science, biomedical engineering, and 3D bioprinting. With a solid foundation in Rubber and Polymer Technology from premier Indian institutions like IIT Kharagpur and CUSAT, he has contributed significantly to intelligent materials, medical devices, and bioremediation. His roles as Senior Project Engineer at SCTIMST and researcher at institutions in Switzerland and Estonia reflect his global engagement. His pioneering work on smart materials and 3D-printed implantables, like cranioplasty scaffolds, showcases his innovation at the intersection of healthcare, materials science, and sustainability. With a flair for EU grant writing and multilingual expertise, he embodies the spirit of collaborative, cross-domain research. Through academic supervision, teaching, and publication, Mr. Vakkattil continues to inspire a new generation of material scientists and bioengineers worldwide.

Publication Profile

Google Scholar

Orcid

Education

Mr. Ansar earned his M.Tech in Rubber Technology from the Rubber Technology Centre, IIT Kharagpur, with a CGPA of 8.02/10, supported by a prestigious GATE scholarship. His thesis focused on castor oil extended epoxidised natural rubber, emphasizing sustainable material innovation. He completed his B.Tech in Polymer Science and Engineering from Cochin University of Science and Technology (CUSAT) with a CGPA of 7.23/10. His academic projects and thesis explored topics such as SBR-tire compounds and mechanical properties of latex films, grounding him in applied polymer engineering. Further technical training at the Indian Rubber Board and multiple industrial internships enriched his hands-on expertise in polymer processing, rubber compounding, and materials testing. His academic journey reflects not only intellectual merit but also a strategic focus on sustainable, biomedical, and smart material innovations.

Experience

Mr. Ansar’s professional experience reflects a blend of academic research and applied engineering. He served as a Senior Project Engineer at Sree Chitra Tirunal Institute for Medical Sciences and Technology, where he contributed to the development of Parylene coatings for implantable medical devices. At the University of Tartu and University of Applied Sciences Northwestern Switzerland, he specialized in 3D printing of artificial muscles and bioprinting for bioremediation. His skills span FDM, SLA, electrospinning, ceramic nanoparticles, and hydrogel synthesis. In addition to his lab work, he has acted as a supervisor, educator, and EU project contributor. His roles demonstrate advanced proficiency in additive manufacturing, smart biomaterials, and digital fabrication—key areas shaping future biomedical and environmental technologies.

Awards and Honors

Mr. Ansar’s academic and professional excellence has been consistently recognized. He was awarded the GATE Masters Scholarship (2016–2018) and achieved an All India Rank of 32 in the GATE Polymer Science and Material Science category. He was the Runner-Up in the Brand D Management Competition during Spring Fest at IIT Kharagpur in 2017. He has also earned accolades for multiple poster presentations, including on biomedical coatings and sustainable rubber materials, at IRMRA and other prestigious platforms. These honors underscore his creativity, technical acumen, and capacity to translate theoretical knowledge into impactful innovations. His teaching merits and development of study materials for GATE aspirants further reflect his commitment to academic excellence and mentorship in polymer sciences.

Research Focus

Mr. Ansar’s research focuses on intelligent materials, additive manufacturing (3D printing), and biomaterials for medical and environmental applications. His work integrates polymer science, smart textiles, hydrogel-based systems, electrospun materials, and bioprinting technologies for creating actuators, biomedical implants, and sustainable filtration systems. Notably, he has investigated bioprinting for bioremediation, parylene coatings for implants, and artificial muscles using FDM and photopolymer techniques. His interdisciplinary approach, combining biopolymer engineering, chemical vapor deposition, and cytocompatibility testing, has led to novel insights in the development of responsive materials and devices. His goal is to bridge the gap between ecological sustainability and human health by advancing customizable, low-impact technologies in the polymer and medical materials domain.

Publication Top Notes

Investigating the Effect of Processing Parameters on Mechanical Behavior of 3D Fused Deposition Modeling Printed Polylactic Acid

Alexandra Kuriganova | Chemistry and Materials Science | Best Researcher Award

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Alexandra Kuriganova | Chemistry and Materials Science | Best Researcher Award

Prof. Dr Alexandra Kuriganova, Platov South-Russian State Polytechnic University, Russia

Prof. Dr. Alexandra Kuriganova is a distinguished researcher in electrochemical nanomaterials, specializing in fuel cells, supercapacitors, and lithium-ion batteries 🔬⚡. She earned her Diplom (2008) and Ph.D. (2011) from South Russian State Technical University, focusing on nanosized Pt/C catalysts for proton exchange membrane fuel cells (PEMFC) 🔥🔋. Her international research collaborations span Germany 🇩🇪, France 🇫🇷, and Russia 🇷🇺, leading to innovative breakthroughs in catalyst development. Currently an Associate Professor and Senior Research Fellow at Platov South Russian State Polytechnic University, she has made significant contributions to nanodispersed metal oxides for energy applications 🌍🔎. Her work in pulse electrolysis and electrochemical dispersion techniques has redefined electrocatalyst synthesis, resulting in numerous high-impact publications 📚. A dedicated scientist and educator, she continues to advance nanotechnology for sustainable energy solutions, collaborating with leading institutions worldwide 🌱💡.

Publication Profile

Scopus

Education

Prof. Dr. Alexandra Kuriganova earned a Diplom (2008) in Chemical Technology of High-Molecular Compositions from South Russian State Technical University (Novocherkassk Polytechnic Institute), Novocherkassk. He continued his studies at the same institution, obtaining a Ph.D. (2011) in Technology of Electrochemical Processes and Corrosion Protection. His thesis, titled “Electrochemical Preparation of Nanosized Pt/C Catalysts for Fuel Cells with Proton Exchange Polymer Membrane,” was supervised by Prof. Dr. Nina V. Smirnova. Dr. [Name] has participated in prestigious international research fellowships, including the Institute of Problems of Chemical Physics (2011), TU Dresden (DAAD Scholarship, 2012), the European Synchrotron Radiation Facility (2012), and NUST “MISIS” (2013) . 🌍🔬

Experience

Prof. Dr. Alexandra Kuriganova is a distinguished researcher in electrochemical materials and nanotechnology. She began her academic career as an Assistant Professor at South Russian State Technical University (2008-2013) 🎓, where she conducted research and taught chemical engineering courses. Since 2013, she has been an Associate Professor at Platov South Russian State Polytechnic University 🏛️, leading academic and research initiatives. As a Senior Research Fellow at the Research Institute of Nanotechnologies & Novel Materials (2014-Present) 🧪, she spearheads advancements in nanomaterials for energy storage and catalysis. Her international collaborations include studies on diesel oxidation catalysts 🚗, Li-ion battery anodes 🔋, Pt nanocrystal compressibility 🏗️, and nanoparticle growth 🔬.

Research Interest

Prof. Dr. Alexandra Kuriganova specializes in nanodispersed metal and metal oxide materials for electrochemical applications ⚡🔬, including proton exchange membrane fuel cells (PEMFCs), supercapacitors, and Li-ion batteries. Her research explores electrochemical oxidation and dispersion for nanoparticle synthesis. Collaborating with top institutions worldwide 🌍, she has worked on Pt/C catalysts for PEMFCs, Pt/γ–Al₂O₃ diesel oxidation catalysts, and SnO₂ nanoparticles for Li-ion batteries. She has partnered with scientists from Russia 🇷🇺, Germany 🇩🇪, France 🇫🇷, and beyond, leading to impactful joint publications 📚. Her work advances energy storage and catalysis, driving innovation in electrochemical technologies. 🚀🔋

Research Focus

Prof. Dr. Alexandra Kuriganova’s research focuses on the synthesis and application of nanodispersed metals and metal oxides for electrochemical energy storage and catalysis ⚡🔋. She has significantly contributed to fuel cell technology by developing high-performance Pt/C catalysts for proton exchange membrane fuel cells (PEMFCs) 🚀. Her work in supercapacitors and batteries includes tin oxide-based anodes for Li-ion batteries and electrocatalytic materials for energy storage ⚡🔋. She pioneers pulse electrolysis techniques for synthesizing bimetallic electrocatalysts using electrochemical dispersion 🎯. Additionally, her studies on Pt/γ–Al₂O₃ catalysts for diesel oxidation involve collaborations with global research institutions 🌍. Her interdisciplinary expertise in electrochemistry, nanotechnology, and materials science has led to groundbreaking discoveries and high-impact publications 📚.

Publication Top Notes

1️⃣ New Insights into Controlling the Functional Properties of Tin Oxide-Based Materials 🧪
2️⃣ Theoretical and Technological Fundamentals of Pulse Electrolysis for Electro- & Catalytically Active Materials ⚡
3️⃣ Electrochemistry of Pt and Pd Under Pulse Electrolysis Conditions 🏗️
4️⃣ Pt Catalysts Prepared via Top-down Electrochemical Approach: Synthesis & Support Effects 🔬
5️⃣ Tungsten Oxide Nanopowders: Pulse AC Electrosynthesis & Photocatalytic Performance 💡
6️⃣ Fabrication of Nano-In₂O₃ Phase Junction for Enhanced Photoelectrochemical Performance 🌱
7️⃣ Pulse Electrolysis Technique for Preparation of Bimetal Tin-Containing Electrocatalytic Materials ⚙️
8️⃣ Investigation of Ambient Temperature Influence on PEMFC Characteristics: From Single Cell to Stack 🔋
9️⃣ Electrochemical Dispersion Technique for Sn-Doped Pt Particles as Electrocatalysts 🚀
🔟 Comparison of Bottom-Up & Top-Down Approaches to Pt/C Electrocatalyst Synthesis 🏭