Stanisław Pietrzyk | Chemistry and Materials Science | Innovative Research Award

Innovative Research Award

Stanisław Pietrzyk
AGH-University of Krakow, Poland

Stanisław Pietrzyk
Affiliation AGH-University of Krakow
Country Poland
Scopus ID 25628481600
Documents 65
Citations 1,703
h-index 14
Subject Area Chemistry and Materials Science
Event International Forensic Scientist Awards
Google Scholar ID TIVlB8sAAAAJ

The Innovative Research Award recognizes sustained scholarly achievement and impactful scientific contributions within chemistry and materials science. Stanisław Pietrzyk of AGH-University of Krakow has established a research profile focused on extractive metallurgy, electrochemistry, plasma electrolytic oxidation, sustainable resource recovery, and advanced materials processing. His publications have contributed to understanding metal extraction technologies, oxide coating formation, and recycling strategies for valuable industrial materials, while supporting environmentally responsible engineering practices.[1]

Abstract

Stanisław Pietrzyk has contributed to interdisciplinary research spanning metallurgy, electrochemical engineering, oxide coating technologies, and recycling of strategic materials. His work demonstrates practical relevance for industrial manufacturing and sustainable resource utilization while advancing scientific understanding of metal processing systems.[2]

Keywords

  • Electrochemistry
  • Metallurgy
  • Copper Mining
  • Plasma Electrolytic Oxidation
  • Materials Science

Introduction

Research in chemistry and materials science increasingly emphasizes sustainable technologies, efficient metal production, and environmentally responsible recycling. Pietrzyk’s publications address these priorities through investigations of electrochemical deposition, oxide layer formation, mining trends, and recovery of rare-earth materials from electronic waste.[3]

Research Profile

With 65 indexed publications, over 1,703 citations, and an h-index of 14, Pietrzyk has maintained an active publication record in internationally recognized journals and conference proceedings. His collaborative research integrates chemical engineering principles with industrial metallurgy and advanced materials development.[1]

Research Contributions

  • Reviewed global trends in copper mining and resource development.
  • Investigated plasma electrolytic oxidation coatings on aluminium.
  • Studied electrodeposition of iron from molten chloride-fluoride electrolytes.
  • Advanced recycling methods for Nd-Fe-B permanent magnets from electronic waste.

Publications

  • Trends in Global Copper Mining – A Review (2018).
  • Influence of the Cathodic Pulse on Oxide Coatings on Aluminium (2013).
  • Electrodeposition of Iron from Molten Mixed Chloride/Fluoride Electrolytes (2007).
  • Growth Characteristics of the Oxide Layer on Aluminium (2014).
  • Thermal Hydrogen Decrepitation for Recycling Nd-Fe-B Magnets (2020).

Research Impact

The citation performance of Pietrzyk’s publications reflects continuing scholarly interest in metallurgy, electrochemical processing, and recycling technologies. His studies have informed both academic investigations and industrial applications concerning advanced coatings, sustainable extraction processes, and strategic material recovery.[4]

Award Suitability

Based on documented publication output, interdisciplinary collaboration, and measurable research influence, Stanisław Pietrzyk demonstrates attributes commonly considered in evaluating candidates for the Innovative Research Award. His work combines scientific rigor with industrial relevance and supports sustainable technological advancement across chemistry and materials science.[5]

Conclusion

Stanisław Pietrzyk’s scholarly record illustrates consistent engagement with applied materials science and metallurgical innovation. Through contributions to electrochemistry, plasma oxidation, mining research, and recycling technologies, his research has expanded scientific understanding while supporting practical engineering solutions. These achievements provide a strong foundation for recognition within international academic award programs.

References

  1. Elsevier. Scopus author details: Stanisław Pietrzyk, Author ID 25628481600.
    https://www.scopus.com/authid/detail.uri?authorId=25628481600
  2. Pietrzyk S., Tora B. (2018). Trends in Global Copper Mining – A Review.
    DOI: https://doi.org/10.1088/1757-899X/427/1/012002
  3. Gębarowski W., Pietrzyk S. (2013). Influence of the Cathodic Pulse on Oxide Coatings on Aluminium Produced by Plasma Electrolytic Oxidation.
  4. Piotrowicz A., Pietrzyk S., et al. (2020). The Use of Thermal Hydrogen Decrepitation to Recycle Nd-Fe-B Magnets from Electronic Waste.
  5. International Forensic Scientist Awards. Innovative Research Award.
    forensicscientist.org

Baojuan Xi | Chemistry and Materials Science | Best Researcher Award

Best Researcher Award

Baojuan Xi
Affiliation Shandong University
Country China
Scopus ID 14057360400
Documents 245
Citations 18,717
h-index 75
Subject Area Chemistry and Materials Science
Event International Forensic Scientist Awards

Baojuan Xi

Shandong University, China

Baojuan Xi is a researcher affiliated with Shandong University whose scientific work has contributed extensively to chemistry and materials science, particularly in advanced energy-storage materials. Her research portfolio includes investigations into electrocatalytic materials, nanostructured compounds, lithium–sulfur batteries, sodium-ion storage systems, and functional nanomaterials. With an extensive publication record and strong citation performance, her scholarly activities demonstrate sustained contributions to contemporary materials research and interdisciplinary innovation.[1]

Abstract

Baojuan Xi’s academic achievements reflect sustained research excellence in functional materials for electrochemical energy storage. Her investigations integrate materials synthesis, structural regulation, electronic engineering, and catalytic optimization to improve battery performance. Recent publications emphasize lithium–sulfur batteries and sodium-ion storage technologies while advancing understanding of catalytic mechanisms and interface engineering.[2]

Keywords

Lithium–Sulfur Batteries, Materials Chemistry, Nanomaterials, Catalysis, Energy Storage, Electrochemistry, Sodium-Ion Batteries, MXene, Phase Engineering, Electronic Structure.

Introduction

The transition toward sustainable energy systems has intensified research on high-performance battery materials. Baojuan Xi has contributed to this field through studies addressing catalytic conversion, polysulfide regulation, and structural engineering of advanced electrode materials. Her work combines experimental materials science with electrochemical evaluation to improve battery efficiency, stability, and long-term cycling performance.[3]

Research Profile

According to Scopus metrics, Baojuan Xi has authored 245 indexed publications with over 18,700 citations and an h-index of 75. Her collaborations span advanced materials chemistry, nanotechnology, electrochemistry, and battery engineering. These indicators reflect significant scholarly visibility and sustained international research engagement.[1]

Research Contributions

  • Developed alloying strategies regulating MoNbSe₂ electronic structures for enhanced lithium–sulfur batteries.
  • Advanced phase and orbital engineering approaches for efficient catalytic adsorption.
  • Investigated ligand-engineered Zn(II)-siloxane clusters to improve catalytic performance.
  • Studied atomically dispersed Co-Ru dimer catalysts for accelerated polysulfide conversion.
  • Explored MXene–MoTe₂ combination models for sodium-ion energy storage applications.

Publications

  • Angewandte Chemie International Edition (2025): Alloying Strategy Regulating Size and Electronic Structure of Mo0.25Nb0.75Se2.
  • Advanced Materials (2025): Phase and Orbital Engineering Effectuating Efficient Adsorption and Catalysis.
  • Angewandte Chemie International Edition (2025): Ligand Engineering–Enhanced Catalytic Activity of Zn(II)-Siloxane Clusters.
  • Advanced Materials (2025): Atomically Dispersed Co-Ru Dimer Catalyst.
  • Advanced Materials (2025): MoTe₂ and MXene Layer Combination Model for Sodium Ion Storage.

Research Impact

The research outputs of Baojuan Xi contribute to advancing rechargeable battery technologies through rational materials design and catalytic optimization. Publications in leading chemistry journals together with strong citation metrics demonstrate continuing influence within materials science and electrochemical energy research.[4]

Award Suitability

Baojuan Xi’s sustained publication record, internationally recognized research, collaborative scientific leadership, and measurable scholarly impact indicate strong alignment with the evaluation criteria commonly associated with the International Forensic Scientist Awards under the Best Researcher Award category. Assessment remains subject to the official review process and eligibility requirements established by the award organizers.[5]

Conclusion

Baojuan Xi has established a distinguished academic profile through consistent contributions to chemistry and advanced materials science. Her investigations into electrochemical energy storage, catalytic materials, and nanostructured systems continue to support technological innovation and scientific understanding, making her research portfolio notable within the international materials science community.

External Links

References

  1. Elsevier. (n.d.). Scopus Author Details: Baojuan Xi, Author ID 14057360400.
    https://www.scopus.com/authid/detail.uri?authorId=14057360400
  2. Yuan J. et al. (2025). Alloying Strategy Regulating Size and Electronic Structure of Mo0.25Nb0.75Se2.
    https://doi.org/10.1002/anie.202420866
  3. Song N. et al. (2025). Advanced Materials, Phase and Orbital Engineering Effectuating Efficient Adsorption and Catalysis.
  4. Wang P. et al. (2025). Angewandte Chemie International Edition, Ligand Engineering–Enhanced Catalytic Activity of Octanuclear Zn(II)-Siloxane Clusters.
  5. Zhang H. et al. (2025). Advanced Materials, Atomically Dispersed Co-Ru Dimer Catalyst Boosts Conversion of Polysulfides.
  6. Zong J. et al. (2025). Advanced Materials, Effect of Combination Model of MoTe₂ and MXene Layers on Sodium Ion Storage.

Sumon Sarkar | Aerospace Material and Composites | Research Excellence Award

Prof. Dr. Sumon Sarkar | Aerospace Material and Composites | Research Excellence Award

The State University of New York at Buffalo | United States

Prof. Dr. Sumon Sarkar is an interdisciplinary researcher contributing to aerospace engineering, aeronautics, and advanced technological innovation, with a strong emphasis on eVTOL systems, jet propulsion, and computational fluid dynamics. His research integrates sustainable aviation, electric flying taxis, and advanced propulsion systems with emerging technologies such as AI-driven diagnostics and smart mobility solutions. He has significantly advanced knowledge in aerodynamic efficiency, morphing wing structures, and next-generation air transport systems. His work also reflects cross-disciplinary engagement in materials science, environmental studies, and machine learning applications, demonstrating impactful contributions to both theoretical research and applied innovation in modern aviation systems.

                       Citation Metrics (Google Scholar)

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View Google Scholar Profile  View ORCID Profile

Featured Publications

Abdelkader SLIMANE | Materials | Best Researcher Award

Assoc. Prof. Dr. Abdelkader SLIMANE | Materials | Best Researcher Award

University of Science and Technology of Oran Mohamed Boudiaf | Algeria

Dr. Abdelkader Slimane is a distinguished Algerian academic and Associate Professor in Mechanical Engineering, currently serving at the University of Oran. With a profound specialization in structural damage and reliability, he has significantly contributed to both academia and industry. His career spans roles in education, aerospace research, metrology, and advanced mechanical simulations, making him a dynamic figure in engineering science.

Author Profile👤

Google Scholar

ORCID

Scopus

Strengths for the Awards✨

Dr. Abdelkader Slimane demonstrates exceptional qualifications and achievements that make him a strong contender for the Best Researcher Award. With a Ph.D. in Mechanical Engineering, specialized in damage and reliability of structures, his work bridges fundamental research and practical application, especially in aerospace and structural integrity.

His research experience spans satellite vibration testing at INTESPACE (AIRBUS), fatigue analysis, fracture mechanics, and advanced material simulations. Notably, he has published 22 peer-reviewed journal articles in top-tier mechanical and structural engineering journals such as:

He also serves as editor and reviewer for international journals, contributing to the global research community. Dr. Slimane’s involvement in conference presentations (over 17) and his interdisciplinary collaborations in satellite design and industrial safety highlight his applied research impact.

🎓 Education

Dr. Slimane’s academic journey is marked by excellence. He earned his Ph.D. in Mechanical Engineering (2015–2016) with a focus on the damage and reliability of structures, achieving the distinction of Very Honorable. Prior to that, he completed his Magister in Mechanical Engineering in 2012 as Valedictorian, and his State Engineering degree in 2010 with top honors. He also pursued various trainings, notably with AIRBUS-Toulouse (France) on acoustic vibration and satellite testing, enriching his global engineering perspective.

👨‍🔬 Experience

Dr. Slimane has amassed rich professional experience across teaching, research, and industrial domains. Since 2017, he has served as an Associate Professor at the University of Oran. His previous roles include Lecturer at Sidi Bel Abbès University and Researcher at the Satellites Development Center (CDS), contributing notably to vibration testing for space applications. Additionally, he held positions such as Maintenance Engineer (EPTP) and Central Inspector in Legal Metrology (ONML). His career reflects a deep commitment to applied engineering solutions.

🔬 Research Interests On Materials

His research interests encompass structural integrity, damage mechanics, fatigue analysis, satellite vibration testing, and advanced simulation methods such as the Gurson–Tvergaard–Needleman model. Dr. Slimane’s contributions bridge theoretical modeling and real-world engineering challenges, particularly in welded structures, carbon steel failure, and space materials. He is also an editor and reviewer for multiple international journals.

🏆 Awards & Recognition

Throughout his academic career, Dr. Slimane has received multiple accolades and honors, including Valedictorian distinctions in both his undergraduate and postgraduate studies. He has led key international collaborations and received certifications from globally reputed aerospace institutions like AIRBUS-INTESPACE. His editorial responsibilities and research contributions have elevated his reputation within the global mechanical engineering community.

📚 Publications

  • Parametric study of the ductile damage by the Gurson–Tvergaard–Needleman model of structures in carbon steel A48-AP
    Authors: A. Slimane, B. Bouchouicha, M. Benguediab, S.A. Slimane
    Year: 2015
    Citations: 60

  • Hypervelocity impact on honeycomb structure reinforced with bi-layer ceramic/aluminum facesheets used for spacecraft shielding
    Authors: S.A. Slimane, A. Slimane, A. Guelailia, A. Boudjemai, S. Kebdani, A. Smahat, et al.
    Year: 2022
    Citations: 52

  • Effect of position of tension-loaded inserts on honeycomb panels used for space applications
    Authors: S. Slimane, S. Kebdani, A. Boudjemai, A. Slimane
    Year: 2018
    Citations: 32

  • Contribution to the study of fatigue and rupture of welded structures in carbon steel-a48 ap: experimental and numerical study
    Authors: A. Slimane, B. Bouchouicha, M. Benguediab, S.A. Slimane
    Year: 2015
    Citations: 25

  • Parameters effects analysis of rotary ultrasonic machining on carbon fiber reinforced plastic (CFRP) composite using an interactive RSM Method
    Authors: A. Slimane, S. Slimane, S. Kebdani, M. Chaib, S. Dahmane, B. Bouchouicha, et al.
    Year: 2019
    Citations: 24

  • An interactive method for predicting industrial equipment defects
    Authors: A. Slimane, S. Kebdani, B. Bouchouicha, M. Benguediab, S. Slimane, et al.
    Year: 2018
    Citations: 19

  • Optimization of ultimate tensile strength with DOE approach for application FSW process in the aluminum alloys AA6061-T651 & AA7075-T651
    Authors: M. Chaib, A. Slimane, S.A. Slimane, A. Ziadi, B. Bouchouicha
    Year: 2021
    Citations: 18

  • Determination of the optimal path of three axes robot using genetic algorithm
    Authors: S.A. Dahmane, A. Megueni, A. Azzedine, A. Slimane, A. Lousdad
    Year: 2019
    Citations: 17

  • Modeling and optimization of a cracked pipeline under pressure by an interactive method: design of experiments
    Authors: B. Kaddour, B. Bouchouicha, M. Benguediab, A. Slimane
    Year: 2018
    Citations: 17

  • Analysis and compensation of positioning errors of robotic systems by an interactive method
    Authors: S.A. Dahmane, A. Slimane, M. Chaib, M. Kadem, L. Nehari, S.A. Slimane, et al.
    Year: 2023
    Citations: 14

✅ Conclusion

Dr. Abdelkader Slimane exemplifies academic excellence and applied innovation in mechanical engineering. His impactful research, global collaborations, and dedication to student development position him as a leading candidate for the Best Researcher Award. From pioneering fatigue simulations to advancing aerospace structures, Dr. Slimane’s contributions continue to drive progress in engineering science. His work not only strengthens industrial reliability but also propels the future of space applications.

Xiao-Wu Lei | Materials | Best Researcher Award

Prof. Xiao-Wu Lei | Materials | Best Researcher Award

Jining University | China

Dr. Xiao-Wu Lei is a distinguished Associate Professor in the Department of Chemistry and Chemical Engineering at Jining University, China. Born on January 8, 1984, in PingYao, Shanxi Province, Dr. Lei has built a strong academic and research foundation in the field of inorganic functional materials. With a vibrant passion for cutting-edge research and an impressive portfolio of high-impact publications, he is recognized as a leading scientist in the synthesis and application of novel hybrid materials, intermetallic compounds, and photoluminescent systems.

Professional profile👤

Scopus

Strengths for the Awards✨

  • Exceptional Publication Record
    Dr. Xiao-Wu Lei has published extensively in high-impact journals such as Angewandte Chemie International Edition, Advanced Science, Chemical Science, ACS Applied Materials & Interfaces, Advanced Optical Materials, and Chemical Engineering Journal. His research spans over 20 high-profile papers within the last 5 years, signifying a high level of sustained productivity and relevance.

  • Research Focus on Cutting-edge Materials
    His work focuses on polar intermetallics, metal chalcogenometalates, hybrid metal halides, and metal–organic frameworks. These areas are central to advances in photocatalysis, scintillation, solar energy, and optoelectronic devices, making his research extremely pertinent to current global technological needs.

  • Expertise and Versatility
    Dr. Lei demonstrates mastery over both experimental and computational techniques—ranging from solid-state synthesis and solvothermal methods to X-ray crystallography and electronic structure calculations. His skillset includes the use of complex software like WIEN2K, CASTEP, and SHELXTL.

  • Strong International Impact
    He has multiple collaborative publications with global visibility, often co-authoring with internationally recognized scholars. His recent works in fluorescence sensing, X-ray scintillators, and lead-free perovskites are aligned with green and sustainable material development, highlighting both scientific depth and environmental relevance.

🎓 Education

Dr. Lei received his Bachelor of Science in Chemistry from Jilin University (2000–2004), one of China’s most prestigious institutions. He pursued his Ph.D. in Inorganic Chemistry at the Fujian Institute of Research on the Structure of Matter (FJIRSM), Chinese Academy of Sciences (2004–2010), under the guidance of Prof. Jiang-Gao Mao, an editor of Journal of Solid State Chemistry. His academic background provided him with a robust foundation in solid-state synthesis and materials characterization.

👨‍🏫 Experience

Since August 2010, Dr. Lei has served as an Associate Professor at Jining University, where he has contributed extensively to both teaching and research. With over a decade of academic service, he has supervised student research projects and led numerous experimental investigations in functional materials. His technical skills include advanced characterization techniques (XRD, IR, UV-Vis, TGA, SC-XRD), and computational modeling (WIEN2K, CASTEP, etc.), making him a multifaceted researcher.

🔍 Research Interests On Materials

Dr. Lei’s research revolves around inorganic functional materials, with a focus on:

  • Polar intermetallics and Zintl phases for thermoelectric and superconducting applications.

  • Metal chalcogenometalates with properties suited for photocatalysis, magnetism, and optics.

  • Hybrid metal halides for solar cells and X-ray scintillators.

  •  Further interests: microporous materials, metal–organic frameworks (MOFs), and luminescent materials. His work blends theoretical modeling and experimental synthesis, contributing to next-generation optoelectronic technologies.

🏆 Awards & Recognition

Dr. Lei is a strong nominee for the Research Excellence Award for Emerging Scientists at Jining University due to his exceptional contributions in developing advanced luminescent and hybrid materials. His research is regularly published in top-tier international journals, including Angewandte Chemie, Advanced Science, Chemical Science, and ACS Applied Materials & Interfaces, demonstrating both innovation and international relevance. 🏅📈

📚 Publications

1. Hybrid metal halide family with color-time-dual-resolved phosphorescence for multiplexed information security applications

  • Authors: Liu, Yuhang; Yan, Tianyu; Dong, Menghan; … Kong, Xiangwen; Lei, Xiaowu

  • Year: 2025

  • Citations: 3

2. Zero-dimensional cadmium halide with broad band yellow light emission for white light-emitting diodes

  • Authors: Lin, Na; Hu, Zhao Yang; Zhang, Xinyue; … Jing, Zhihong; Chen, Zhiwei

  • Year: 2025

  • Citations: 0

3. Synthesis and stability of one-dimensional red-emitting manganese-based Organic–inorganic halide

  • Authors: Wang, Danyang; Wang, Shanxiao; Tian, Chaoyang; … Lei, Xiaowu; Yu, Fang

  • Year: 2025

  • Citations: 1

4. In Situ Halide Vacancy Tuning of Low-Dimensional Lead Perovskites to Realize Multiple Adjustable Luminescence Performance

  • Authors: Sun, Chen; Jing, Changqing; Li, Dongyang; … Fei, Honghan; Lei, Xiaowu

  • Year: 2025

  • Citations: 0

5. Synchronously Improved Multiple Afterglow and Phosphorescence Efficiencies in 0D Hybrid Zinc Halides With Ultrahigh Anti-Water Stabilities

  • Authors: Zhao, Jianqiang; Wang, Danyang; Yan, Tianyu; … Yan, Dongpeng; Lei, Xiaowu

  • Year: 2024

  • Citations: 17

6. Zero-dimensional organic-inorganic hybrid zinc halide with stable broadband blue light emissions

  • Authors: Zhang, Jie; Ma, Yu Xin; Wu, Ming; … He, Yuanchun; Lei, Xiaowu

  • Year: 2024

  • Citations: 0

7. Zero-dimensional cuprous halide scintillator with ultra-high anti-water stability for X-ray imaging

  • Authors: Lv, Jingning; Lin, Na; Zhang, Jiayi; … Lei, Xiaowu; Chen, Zhiwei

  • Year: 2024

  • Citations: 1

8. Zero-dimensional organic-inorganic hybrid indium halide perovskite with broadband yellow light emission

  • Authors: Wang, Qi; Jiang, Wei; Xuan, Pengyao; … Yue, Chengyang; Kong, Xiangwen

  • Year: 2024

  • Citations: 0

9. Near-unity broadband emissive hybrid manganese bromides as highly-efficient radiation scintillators

  • Authors: Gong, Zhongliang; Zhang, Jie; Deng, Xiangyuan; … He, Yuanchun; Lei, Xiaowu

  • Year: 2024

  • Citations: 8

10. One-Dimensional Red Light-Emissive Organic Manganese(II) Halides as X-Ray Scintillators

  • Authors: Yu, Fang; Zhang, Huiru; Gao, Wenwen; … Kong, Xiangwen; Yue, Chengyang

  • Year: 2024

  • Citations: 3

✅ Conclusion

Dr. Xiao-Wu Lei exemplifies academic excellence and innovative research. His interdisciplinary work in inorganic chemistry and material sciences, combined with a consistent publication record in top journals, positions him as a valuable contributor to global scientific advancement. With profound expertise in hybrid materials and luminescent technologies, he is an outstanding candidate for the Research Award Nomination by the Department of Chemistry and Chemical Engineering, Jining University.

Panagiotis Regkouzas | Materials | Best Researcher Award

Dr. Panagiotis Regkouzas | Materials | Best Researcher Award

Technical University of Crete | Greece

Dr. Panagiotis Regkouzas is a passionate environmental engineer from Chania, Greece, born on November 21, 1991. With a robust academic and professional foundation, he is currently a postdoctoral researcher at the Technical University of Crete. His career is defined by his dedication to sustainable development, specializing in biochar production, wastewater treatment, and the circular economy. Through national and international collaborations, Panagiotis contributes to innovative environmental engineering solutions that promote resource recovery and sustainable agriculture.

Professional profile👤

Google Scholar

ORCID

Scopus

Strengths for the Awards✨

  • Strong Academic Background:

    • PhD in Environmental Engineering with a specialization in biochar production, environmental applications, and wastewater treatment.

    • Dual master’s degrees with focused theses on biochar and wastewater reuse, directly supporting the sustainability and circular economy sectors.

  • Research Productivity & Impact:

    • Author/co-author of several peer-reviewed articles in reputed international journals such as Chemosphere, Environmental Science and Pollution Research, and Biomass Conversion and Biorefinery.

    • Published cutting-edge work on nanobiochar, graphene oxide biochars, and CNT-doped composites, showing innovation and depth in environmental nanotechnology.

  • Active Participation in High-Profile Projects:

    • Involved in European Union-funded projects like Horizon 2020 (PRIMA) and Marie Skłodowska-Curie Actions, indicating his role in top-tier international collaborations.

    • Project themes align with global environmental priorities such as circular economy, green technologies, and nature-based solutions.

  • Extensive Conference Participation & Visibility:

    • Regular presenter at international conferences (EGU, IEES, IWA, EURECA-PRO), reflecting academic leadership and scientific communication strength.

    • Frequent contributions in sessions on circular economy, wastewater valorization, and biochar technologies, underlining topic consistency and relevance.

🎓 Education

Panagiotis began his academic journey with a Master of Engineering (MEng) in Environmental Engineering at the Technical University of Crete (2009–2015), where he explored biochar applications for pollutant adsorption. He then pursued a Master of Science (MSc) in Advanced Water and Wastewater Treatment (2015–2017), focusing on valorizing municipal solid waste. His PhD (2017–2024) further delved into advanced biochar materials and their applications in removing emerging contaminants from water. Currently, he continues his research as a postdoctoral scholar in Circular Economy at the same institution.

🧪 Experience

With over 7 years of research and teaching experience at the Technical University of Crete, Panagiotis has worked on diverse projects ranging from biochar production and nanomaterials to wastewater treatment technologies. His roles include university research and teaching assistant, as well as laboratory assistant in courses on water treatment and environmental engineering. In 2024, he expanded his international experience as an Engineering Research Scientist at APS-Ekoinnowacje in Poland, emphasizing sustainable waste management and environmental innovation.

🔬 Research Interests On Materials

Panagiotis’s research interests lie in environmental sustainability with a sharp focus on circular economy principles. He is particularly interested in:

  • Biochar production from waste biomass

  • Adsorption of emerging micro-contaminants

  • Development of nanocomposite biochars

  • Wastewater and sludge treatment

  • Nature-based solutions like constructed wetlands
    His work bridges the gap between environmental engineering and practical, sustainable applications for agriculture and water systems.

🏆 Awards & Nominations

1. Title: Adsorption of selected organic micro-pollutants on sewage sludge biochar
Authors: P. Regkouzas, E. Diamadopoulos
Year: 2019
Citations: 158

2. Title: Ni (II) adsorption on biochars produced from different types of biomass
Authors: R.N. Mourgela, P. Regkouzas, F.M. Pellera, E. Diamadopoulos
Year: 2020
Citations: 14

3. Title: Biochar production from waste biomass: Characterization and evaluation for agronomic and environmental applications
Authors: F.M. Pellera, P. Regkouzas, I. Manolikaki, E. Diamadopoulos
Year: 2021
Citations: 12

4. Title: Production and characterization of graphene oxide-engineered biochars and application for organic micro-pollutant adsorption from aqueous solutions
Authors: P. Regkouzas, L. Sygellou, E. Diamadopoulos
Year: 2023
Citations: 10

5. Title: Effect of compost and compost-derived biochar on the growth of lettuce irrigated with water and treated wastewater
Authors: P. Regkouzas, N. Katie, K. Bontiotis, A. Stefanakis
Year: 2025
Citations: Not listed

6. Title: Assessing Biochar and Compost from the Organic Fraction of Municipal Solid Waste on Nutrient Availability and Plant Growth of Lettuce in a Pot Experiment
Authors: P. Regkouzas, I. Manolikaki, E. Diamadopoulos
Year: 2025
Citations: Not listed

7. Title: Effect of compost and compost-derived biochar on lettuce growth in a water and wastewater irrigated pot experiment
Authors: P. Regkouzas, N. Katie, K. Bontiotis, A. Stefanakis
Year: 2025
Citations: Not listed

8. Title: The role of biochar in a circular economy: from agriculture to water and wastewater treatment applications
Authors: P. Regkouzas, I. Asimakoulas, E. Athanasiadou, E. Koukouraki, …
Year: 2024
Citations: Not listed

9. Title: Production of advanced adsorptive materials based on biochar
Author: P. Regkouzas
Year: 2024
Citations: Not listed

10. Title: Global Challenges for a Sustainable Society: EURECA-PRO
Authors: P. Regkouzas, E. Diamadopoulos
Year: 2023
Citations: Not listed

✅ Conclusion

Panagiotis Regkouzas exemplifies the spirit of environmental innovation and sustainable engineering. With a solid foundation in education, a breadth of interdisciplinary experience, and a forward-looking research portfolio, he is a valuable asset to the scientific community and an outstanding nominee for this award. His work paves the way for greener technologies in water treatment, agriculture, and waste valorization, making impactful contributions both locally and globally 🌎🌿.

Jihye Kim | Materials | Best Researcher Award

Dr. Jihye Kim | Materials | Best Researcher Award

Assistant Professor | Colorado School of Mines | United States

Dr. Jihye Kim is an accomplished Assistant Professor at the George S. Ansell Department of Metallurgical and Materials Engineering, Colorado School of Mines. With a strong background in extractive metallurgy, resource recovery, and critical materials extraction, Dr. Kim has made significant contributions to sustainable materials processing. Her research focuses on innovative hydrometallurgical techniques, mineral carbonation for carbon sequestration, and chemical modeling of electrolyte systems. Dr. Kim is dedicated to fostering a stimulating learning environment that encourages students to explore, discover, and think critically beyond the classroom.

Professional profile👤

ORCID

Google Scholar

Scopus

Strengths for the Awards✨

  • Outstanding Research Contributions

    • Dr. Jihye Kim has an extensive publication record, including high-impact journal articles, conference papers, and book chapters.
    • Her research focuses on critical topics such as extractive metallurgy, mineral processing, carbon capture, and rare earth element recovery, all of which have significant industrial and environmental implications.
  • Strong Funding and Grant Success

    • She has successfully secured multiple high-value research grants, including funding from the National Science Foundation (NSF), Department of Energy (DOE), NASA, and the Alfred P. Sloan Foundation.
    • Active involvement as a Principal Investigator (PI) and Co-PI in multimillion-dollar research projects.
  • Awards and Recognitions

    • Recipient of the Ontario Trillium Scholarship ($160,000) and multiple academic scholarships and fellowships, demonstrating academic excellence and research impact.
    • Earned the Students Discovery Award (2021) at the University of Toronto, recognizing her research achievements.
  • Industrial and International Research Experience

    • Hands-on experience through engineering internships with Barrick Gold Corporation and National Metallurgical Laboratory, India.
    • Strong international collaborations with institutions in South Korea, Canada, and the USA.
  • Educational and Mentorship Contributions

    • Engaged in teaching undergraduate and graduate courses at the Colorado School of Mines.
    • Experience as a teaching assistant at University of Toronto and Seoul National University, shaping the next generation of metallurgical engineers.

Education 🎓

Dr. Kim earned her Doctor of Philosophy in Chemical Engineering from the University of Toronto (2017-2021), where she worked on sustainable valorization of steelmaking slag under the guidance of Professor Gisele Azimi. Prior to her Ph.D., she obtained a Master of Applied Science in Energy Systems Engineering (2014-2016) and a Bachelor of Applied Science in Energy Resources Engineering (2011-2014) from Seoul National University.

Experience 🌟

Dr. Kim’s academic and professional journey reflects her expertise in metallurgical and materials engineering. She is currently an Assistant Professor at Colorado School of Mines, where she leads cutting-edge research projects and teaches courses on chemical processing, transport phenomena, and hydrometallurgical processing. Previously, she was a Postdoctoral Fellow at the University of Toronto, focusing on resource-efficient hydrometallurgical recovery of platinum group metals and rare earth elements. Her teaching experience includes serving as a Teaching Assistant at the University of Toronto and Seoul National University. She also gained industry experience as an Engineering Intern at Barrick Gold Corporation (Canada) and the National Metallurgical Laboratory (India).

Research Interests On Materials 🔬

Dr. Kim’s research centers on sustainable resource recovery, extractive metallurgy, and carbon capture technologies. She specializes in hydrometallurgical processing, mineral carbonation for CO2 sequestration, critical materials extraction from secondary resources, and electrolyte system modeling. Her work aims to develop environmentally friendly and economically viable methods for metal recovery and waste valorization.

Awards & Honors 🏆

Dr. Kim has received numerous prestigious awards, including the Ontario Trillium Scholarship (2017-2021), the Students Discovery Award (2021), and multiple fellowships from the University of Toronto. She was also awarded the Brain Korea 21 Plus Scholarship, Academic-Industrial Scholarship from Hyundai Resources Development, and several merit-based scholarships from Seoul National University. Her outstanding academic achievements were recognized with Graduation with Honors (Cum Laude) from Seoul National University in 2014.

Publications 📚

Dr. Kim has published extensively in top-tier journals, contributing valuable insights into metallurgical and materials engineering. Some of her notable publications include:

  • The CO2 sequestration by supercritical carbonation of electric arc furnace slag

    • Authors: J Kim, G Azimi
    • Year: 2021
    • Citations: 42
  • An innovative process for extracting scandium from nickeliferous laterite ore: Carbothermic reduction followed by NaOH cracking

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 22
  • Recovery of scandium and neodymium from blast furnace slag using acid baking–water leaching

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 20
  • Valorization of electric arc furnace slag via carbothermic reduction followed by acid baking–water leaching

    • Authors: J Kim, G Azimi
    • Year: 2021
    • Citations: 19
  • Technospheric mining of niobium and titanium from electric arc furnace slag

    • Authors: J Kim, G Azimi
    • Year: 2020
    • Citations: 16
  • Matrix complexity effect on platinum group metals analysis using inductively coupled plasma optical emission spectrometry

    • Authors: J Kim, J Anawati, G Azimi
    • Year: 2018
    • Citations: 16
  • Effect of sulfuric acid baking and caustic digestion on enhancing the recovery of rare earth elements from a refractory ore

    • Authors: R Kim, H Cho, J Jeong, J Kim, S Lee, KW Chung, HS Yoon, CJ Kim
    • Year: 2020
    • Citations: 15
  • Selective precipitation of titanium, magnesium, and aluminum from the steelmaking slag leach liquor

    • Authors: J Kim, G Azimi
    • Year: 2022
    • Citations: 13
  • Mineral carbonation of iron and steel by-products: State-of-the-art techniques and economic, environmental, and health implications

    • Authors: S Wang, J Kim, T Qin
    • Year: 2024
    • Citations: 12
  • Recent advancements in hydrometallurgy: solubility and separation

    • Authors: KN Han, R Kim, J Kim
    • Year: 2024
    • Citations: 10

Conclusion 🎯

Dr. Jihye Kim is a dedicated researcher and educator committed to advancing metallurgical and materials engineering. Her work in extractive metallurgy, critical materials recovery, and sustainable processing methods contributes to the global effort toward environmentally responsible resource management. Through her innovative research, teaching, and mentorship, Dr. Kim continues to inspire the next generation of engineers and scientists in the field of materials engineering.

Chuan-Pei Lee | Materials | Best Researcher Award

Assoc. Prof. Dr. Chuan-Pei Lee | Materials | Best Researcher Award

Associate Professor | Department of Applied Physics and Chemistry, University of Taipei | Taiwan

Dr. Chuan-Pei Lee is an esteemed Associate Professor in the Department of Applied Physics and Chemistry at the University of Taipei, Taiwan. With a strong background in chemical engineering and a passion for nanomaterials and renewable energy, he has significantly contributed to the fields of nanotechnology, solar fuels, water splitting, and supercapacitors. His extensive research in electrochemical techniques has established him as a leading figure in energy-related applications. To date, Dr. Lee has authored 13 book chapters and 117 SCI papers, garnering over 5,470 citations and an H-index of 44.

Profile👤

Google Scholar

ORCID

Scopus

Strengths for the Awards✨

  • Outstanding Research Output 📚

    • Published 117 SCI papers, reflecting a strong research presence.
    • Contributed 13 book chapters, further demonstrating academic influence.
  • High Impact and Citation Metrics 📈

    • Google Scholar Citations: 5470
    • H-index: 44, showing significant contributions to the field.
    • Publications in prestigious journals like ACS Applied Materials & Interfaces, Nano Energy, J. Mater. Chem. A, and Materials Today Energy.
  • Diverse and Impactful Research Areas 🌍

    • Expertise in nanomaterials, solar energy, water splitting, and supercapacitors.
    • Work contributes to renewable energy solutions and sustainability.
    • Strong command over electrochemical techniques, crucial for energy storage research.
  • Collaboration and International Recognition 🤝

    • Co-authored papers with international research teams.
    • Worked with notable researchers from National Taiwan University, University of California, and RSC-affiliated institutions.

🎓 Education

  • Ph.D. in Chemical Engineering – National Taiwan University (2012)

💼 Experience

  • Associate Professor – Department of Applied Physics and Chemistry, University of Taipei, Taiwan (Present)
  • Research Collaborator – Various international research institutions focusing on nanomaterials and energy storage technologies.

🔬 Research Interests On Materials

Dr. Lee’s research revolves around the development of advanced materials for energy applications. His key areas of interest include:

  • Nanomaterials/Nanostructures – Synthesis and applications in energy storage and conversion.
  • Solar Energy & Solar Fuels – Enhancing the efficiency of solar energy harvesting and utilization.
  • Water Splitting Technology – Exploring innovative electrocatalysts for hydrogen production.
  • Supercapacitors – Designing high-performance electrodes for energy storage solutions.
  • Electrochemical Techniques – Studying charge transfer mechanisms and optimizing material properties for enhanced efficiency.

🏆 Awards & Recognitions

  • Recognized as a leading researcher in energy materials with a high citation index (H-index: 44).
  • Numerous awards for excellence in research and innovation in applied physics and chemistry.
  • Invited keynote speaker at multiple international conferences on nanotechnology and renewable energy.

📚 Selected Publications

Dr. Lee has published extensively in top-tier journals. Below are some of his notable works:

  1. Use of organic materials in dye-sensitized solar cells

    • Authors: CP Lee, CT Li, KC Ho
    • Year: 2017
    • Citations: 336
  2. Recent progress in organic sensitizers for dye-sensitized solar cells

    • Authors: CP Lee, RYY Lin, LY Lin, CT Li, TC Chu, SS Sun, JT Lin, KC Ho
    • Year: 2015
    • Citations: 273
  3. Organic dyes containing carbazole as donor and π-linker: optical, electrochemical, and photovoltaic properties

    • Authors: A Venkateswararao, KRJ Thomas, CP Lee, CT Li, KC Ho
    • Year: 2014
    • Citations: 202
  4. A paper-based electrode using a graphene dot/PEDOT: PSS composite for flexible solar cells

    • Authors: CP Lee, KY Lai, CA Lin, CT Li, KC Ho, CI Wu, SP Lau, JH He
    • Year: 2017
    • Citations: 159
  5. Conducting polymer-based counter electrode for a quantum-dot-sensitized solar cell (QDSSC) with a polysulfide electrolyte

    • Authors: MH Yeh, CP Lee, CY Chou, LY Lin, HY Wei, CW Chu, R Vittal, KC Ho
    • Year: 2011
    • Citations: 142
  6. Iodine-free high efficient quasi solid-state dye-sensitized solar cell containing ionic liquid and polyaniline-loaded carbon black

    • Authors: CP Lee, PY Chen, R Vittal, KC Ho
    • Year: 2010
    • Citations: 136
  7. Unsymmetrical squaraines incorporating the thiophene unit for panchromatic dye-sensitized solar cells

    • Authors: JY Li, CY Chen, CP Lee, SC Chen, TH Lin, HH Tsai, KC Ho, CG Wu
    • Year: 2010
    • Citations: 109
  8. 2,7-Diaminofluorene-based organic dyes for dye-sensitized solar cells: effect of auxiliary donor on optical and electrochemical properties

    • Authors: A Baheti, P Singh, CP Lee, KRJ Thomas, KC Ho
    • Year: 2011
    • Citations: 107
  9. Beaded stream-like CoSe₂ nanoneedle array for efficient hydrogen evolution electrocatalysis

    • Authors: CP Lee, WF Chen, T Billo, YG Lin, FY Fu, S Samireddi, CH Lee, …
    • Year: 2016
    • Citations: 97
  10. Fluorene-based sensitizers with a phenothiazine donor: effect of mode of donor tethering on the performance of dye-sensitized solar cells

  • Authors: A Baheti, KR Justin Thomas, CT Li, CP Lee, KC Ho
  • Year: 2015
  • Citations: 95

 

🔍 Conclusion

Dr. Chuan-Pei Lee is a distinguished researcher and academic in the field of applied physics and chemistry, with a deep expertise in nanomaterials, solar energy, and electrochemical energy storage. His groundbreaking research has significantly advanced energy-efficient technologies, leading to innovations in supercapacitors, solar cells, and water splitting techniques. His extensive publication record, high citation impact, and contributions to the scientific community underscore his status as a leading expert in his field. As an influential scientist, Dr. Lee continues to inspire and contribute to the advancement of sustainable energy solutions.