Elyes Jbira | Nanomaterials for Energy | Research Excellence Award

Published on by Nano Technology

Dr. Elyes Jbira | Nanomaterials for Energy | Research Excellence Award

Doctor Researcher, Laboratory of Intelligent Networks and Nanotechnology, National School of Advanced Sciences and Technologies of Borj-Cédria | Tunisia

Dr. Elyes Jbira is an emerging researcher with focused contributions to contemporary scientific research, reflected through 5 peer-reviewed documents indexed in Google Scholar and a growing scholarly impact of 51 citations, with an h-index of 2 and i10-index of 2. His research work centers on advancing knowledge in specialized interdisciplinary domains, emphasizing original research articles, conference publications, and applied research outcomes. Dr. Elyes Jbira’s scholarly contributions demonstrate methodological rigor and relevance, addressing current scientific challenges through analytical and experimental approaches. His research outputs have contributed to measurable academic visibility and citation impact, indicating recognition within the research community. In addition to journal and conference publications, his work aligns with innovation-driven research themes and knowledge dissemination, supporting ongoing R&D activities and future translational potential. Overall, Dr. Elyes Jbira’s research profile reflects a promising academic trajectory with consistent contributions to peer-reviewed literature, citation growth, and engagement in impactful research activities at the early-to-mid stage of his scholarly career.

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Featured Publications

Hongcai Gao | Nanomaterials for Energy | Research Excellence Award

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Prof. Dr. Hongcai Gao | Nanomaterials for Energy | Research Excellence Award

Professor | Beijing Institute of Technology | China

Prof. Dr. Hongcai Gao is a highly cited energy materials scientist with over 12,440 Google Scholar citations, an h-index of 54, an i10-index of 74, and 105+ peer-reviewed publications. His research focuses on electrochemical energy storage, including lithium-ion, sodium-ion, potassium-ion, and solid-state batteries, with strong emphasis on cathode and anode materials, electrolytes, interfacial chemistry, and high-entropy material design. He has delivered influential research outcomes published in top-tier journals such as Advanced Energy Materials, Energy Storage Materials, Nano Energy, Chemical Engineering Journal, ACS Applied Materials & Interfaces, and Journal of Materials Chemistry A. Prof. Dr. Hongcai Gao has contributed to national and regional competitive research projects, generated high-impact R&D innovations, and co-authored authoritative book chapters on electrochemical energy storage. His work has significantly advanced multielectron redox chemistry, interfacial stabilization strategies, and scalable battery technologies. He is consistently recognized among the World’s Top 2% Scientists, serves on editorial boards, acts as a reviewer for leading journals, and plays an active role in international conferences and scientific innovation leadership.

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View Scopus Profile   View ORCID Profile   View Google Scholar   View Sci Profiles

Featured Publications

Low-cost high-energy potassium cathode
– Journal of the American Chemical Society, 2017 | Ciations: 572

Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

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Dr. Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

Research Science | University College of Professional Education in Wroclaw | Poland

Dr. Henryk Wojtaszek is an accomplished research scientist from the University College of Professional Education in Wroclaw, Poland, recognized for his scholarly contributions in economics, management, innovation, and renewable energy policy. His research integrates sustainable economic development with strategic management frameworks and energy transition models, contributing significantly to the understanding of low-carbon transformation and industrial innovation. Dr. Henryk Wojtaszek has authored and co-authored over 20 scientific publications indexed in Scopus and Google Scholar, with more than 464 citations and an h-index of 13. His works are featured in leading journals such as Energies, Sustainability, European Research Studies Journal, and the Scientific Papers of Silesian University of Technology. Notable publications include studies on “Barriers to Innovation in Manufacturing SMEs,” “Energy Transition 2024–2025,” and “Hydrogen Energy as a Catalyst for Sustainable Development,” emphasizing green transformation, innovation strategy, and comparative energy policies in Europe. His research areas span renewable-energy economics, sustainable management, innovation systems, industry 4.0 strategies, and cross-border policy analysis between Poland and Germany. Dr. Henryk Wojtaszek has contributed to multiple international and interdisciplinary projects focusing on energy transition, hydrogen economy, and education-management integration. His findings have guided decision-making for enterprises and policymakers addressing socio-economic and environmental sustainability. Dr. Henryk Wojtaszek’s scholarly achievements are complemented by active participation in research evaluation, editorial review, and international scientific collaborations. His recognition in the academic community reflects his commitment to advancing research on innovation-driven economic growth, renewable-energy policy, and sustainable development practices in Europe and beyond.

Profiles: Scopus | ORCID | Google Scholar | Research Gate | Sci Profiles | Academia

Featured Publications

1. Wojtaszek, H., & Miciuła, I. (2019). Analysis of factors giving the opportunity for implementation of innovations on the example of manufacturing enterprises in the Silesian province. Sustainability, 11(20), 5850.

2. Wojtaszek, H. (2016). Selected aspects of innovative motivation. World Scientific News, 44, 37–45.

3. Miciuła, I., Wojtaszek, H., Bazan, M., Janiczek, T., Włodarczyk, B., Kabus, J., & others. (2020). Management of the energy mix and emissivity of individual economies in the European Union as a challenge of the modern world climate. Energies, 13(19), 5191.

4. Jałowiec, T., Wojtaszek, H., & Miciuła, I. (2022). Analysis of the potential management of the low-carbon energy transformation by 2050. Energies, 15(7), 2351.

5. Kuzminski, L., Jałowiec, T., Masloch, P., Wojtaszek, H., & Miciuła, I. (2020). Analysis of factors influencing the competitiveness of manufacturing companies. University of Piraeus: International Strategic Management Association Conference Proceedings, 25–34.

Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

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Dr. Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

Researcher, Center for Scientific and Technical Research in Physicochemical Analysis (CRAPC), Algeria

Dr. Amel Boudjemaa is a prolific Algerian researcher at the Centre de Recherche Scientifique et Technique en Analyses Physico-Chimiques (CRAPC), Bou Ismail, Algeria. Her scientific contributions lie primarily in photocatalysis, nanomaterials, surface chemistry, and environmental remediation. With a Scopus h-index of 20, 1,467 citations, and 90 peer-reviewed publications, her work has significantly influenced the fields of materials chemistry and sustainable environmental technologies. Her recent research focuses on the design and optimization of advanced nanostructured photocatalysts for water purification, pollutant degradation, and hydrogen generation under visible light. Notably, she has investigated heterojunction and doped oxide-based photocatalysts—such as Co₂SnO₄/Co₃O₄/SnO₂, ZnO–CuO–Al₂O₃, and Bi/Fe-doped aluminophosphates—demonstrating enhanced degradation efficiencies for pharmaceuticals and dyes like diclofenac, ibuprofen, and methyl orange. These studies integrate experimental synthesis, photochemical characterization, and mechanistic modeling to predict by-product toxicity and reaction kinetics, emphasizing both efficiency and environmental safety. Beyond photocatalysis, Dr. Amel Boudjemaa has explored hybrid and functional nanomaterials with applications in sensing, adsorption, and energy storage. Her works on platinum(IV)-carbon sphere hybrids and tin-based non-enzymatic sensors have expanded the potential of nanomaterials for electrochemical detection and clean energy technologies. Methodologically, her research combines advanced materials synthesis, surface modification, spectroscopic and electrochemical analysis, and computational prediction tools. Her interdisciplinary approach bridges materials science, environmental engineering, and green chemistry, contributing to cleaner production and pollution mitigation strategies. Overall, Dr. Amel Boudjemaa’s body of work demonstrates a consistent pursuit of innovative, sustainable solutions for environmental contaminants, positioning her among the leading North African researchers in applied photocatalysis and nanomaterial-based remediation.

Profile: Scopus | ORCID | Google Scholar | ResearcheGate | Loop | Web of Science | Linkedin

Featured Publications

Boumaza, S., Boudjemaa, A., Bouguelia, A., Bouarab, R., & Trari, M. (2010). Visible light induced hydrogen evolution on new hetero-system ZnFe₂O₄/SrTiO₃. Applied Energy, 87(7), 2230–2236.

Boudjemaa, A., Boumaza, S., Trari, M., Bouarab, R., & Bouguelia, A. (2009). Physical and photo-electrochemical characterizations of α-Fe₂O₃: Application for hydrogen production. International Journal of Hydrogen Energy, 34(10), 4268–4274.

Chezeau, B., Boudriche, L., Vial, C., & Boudjemaa, A. (2020). Treatment of dairy wastewater by electrocoagulation process: Advantages of combined iron/aluminum electrodes. Separation Science and Technology, 55(14), 2510–2527.

Boumaza, S., Boudjemaa, A., Omeiri, S., Bouarab, R., Bouguelia, A., & Trari, M. (2010). Physical and photoelectrochemical characterizations of hematite α-Fe₂O₃: Application to photocatalytic oxygen evolution. Solar Energy, 84(4), 715–721.

Boudjemaa, A., Bouarab, R., Saadi, S., Bouguelia, A., & Trari, M. (2009). Photoelectrochemical H₂-generation over spinel FeCr₂O₄ in X²⁻ solutions (X²⁻ = S²⁻ and SO₃²⁻). Applied Energy, 86(7–8), 1080–1086.