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.

Citation Metrics (Google Scholar)

100

80

60

40

20

0

Citations
51

Documents
5

h-index
2

i10index
2

Citations

Documents

h-index

i10-index

View Scopus Profile  View Google Scholar  View ResearchGate  View Academia

Featured Publications

Samikannu Prabu | Nanomaterials for Energy | Research Excellence Award

Published on by Nano Technology

Dr. Samikannu Prabu | Nanomaterials for Energy | Research Excellence Award

Postdoctoral Researcher | Gachon University | South Korea

Dr. Samikannu Prabu is an accomplished materials and electrochemical energy researcher with a strong publication-driven profile, evidenced by 810 Google Scholar citations across 76 peer-reviewed documents, an h-index of 18, and an i10-index of 31. His research contributions focus on advanced functional materials for energy storage and conversion, including supercapacitors, hybrid supercapattery systems, electrocatalytic hydrogen and oxygen evolution reactions, alkaline and seawater electrolysis, and MOF-derived and heterostructured nanomaterials. He has authored high-impact research articles and reviews in leading journals spanning materials chemistry, electrochemistry, and sustainable energy technologies, with consistent citation impact reflecting scientific relevance and reproducibility. His work integrates waste-derived carbon materials, metal sulfides, oxides, phosphides, and layered double hydroxides for real-world energy applications. Dr. Samikannu Prabu’s research portfolio also includes conference publications, interdisciplinary R&D outputs, innovation-oriented materials design, and recognized scholarly contributions as a reviewer and academic contributor, demonstrating sustained impact in contemporary energy materials research.

Citation Metrics (Google Scholar)

1000

800

600

400

200

0

Citations
810

Documents
76

h-index
18

i10index
31

Citations

Documents

h-index

i10-index

View Scopus Profile  View ORCID Profile  View Google Scholar  View ResearchGate

Featured Publications

Sayyar Ali Shah | Nanomaterials for Energy | Research Excellence Award

Published on by Nano Technology

Assoc. Prof. Dr. Sayyar Ali Shah | Nanomaterials for Energy | Research Excellence Award

Professor | Jiangsu University of Science and Technology | China

Assoc. Prof. Dr. Sayyar Ali Shah is a highly cited researcher in nanomaterials and energy-related materials science, with 2,275 citations across 67 peer-reviewed publications (h-index 29, i10-index 42). His research focuses on the design, synthesis, and mechanistic understanding of advanced nanocomposites for electrocatalytic and photocatalytic hydrogen evolution, oxygen evolution, overall water splitting, and energy conversion and storage technologies. He has made significant contributions to metal–carbon hybrids, transition-metal dichalcogenides, graphene-based composites, and heterojunction catalysts, combining experimental materials engineering with theoretical insights into catalytic mechanisms. His work is widely published in high-impact Q1 journals and selected scholarly reviews, demonstrating strong citation impact and international recognition. Assoc. Prof. Dr. Sayyar Ali Shah has led and contributed to competitive, externally funded research projects, translating fundamental nanoscience into scalable R&D outcomes for sustainable energy applications. He is actively engaged in scientific innovation, serves as an editor for themed journal issues, reviews for leading international journals, and contributes to conference leadership, advancing global research in catalysis and functional nanomaterials.

Citation Metrics (Google Scholar)

2500

2000

1500

1000

500

0

Citations
2275

Documents
67

h-index
29

i10index
42

Citations

Documents

h-index

i10-index

View Scopus Profile  View Google Scholar Profile  View ResearchGate  View Sci Profiles

Featured Publications

Hongcai Gao | Nanomaterials for Energy | Research Excellence Award

Published on by Nano Technology

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.

Citation Metrics (Google Scholar)

15000

10000

5000

1000

0

Citations
12,440

Documents
105

hindex
54

i10index
74

Citations

Documents

h-index

i10-index

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

Muhammad Ibrar | Nanotechnology in Energy | Young Scientist Award

Published on by Nano Technology

Mr. Muhammad Ibrar | Nanotechnology in Energy | Young Scientist Award

PhD | USTC (University of Science and Technology of China), GIEC (Guangzhou Institute of Energy Conversion) and CAS (Chinese Academy of Sciences) | Pakistan

Mr. Muhammad Ibrar is an emerging researcher with notable contributions to green nanotechnology, water purification, and advanced functional nanomaterials. His publication record spans bio-mediated synthesis of metal and metal-oxide nanoparticles, electrochemical materials, photocatalysts, and bioactive nanostructures, reflected in 111 citations, 15 documents, an h-index of 5, and i10-index of 3. His works include plant-assisted fabrication of Mn₃O₄, Cr₂O₃, NiO, and hybrid nanocomposites demonstrating significant electrochemical, antibacterial, cytotoxicity, and environmental remediation performance. He has contributed to impactful research on biochar-supported nanocomposites for heavy-metal removal, nano-emulsions for wound healing, multifunctional semiconductor–metallic oxide systems for energy devices, and clay-based/ polymeric membrane nanocomposites for dye and pollutant degradation. His additional work on CNT-decorated ferrites, graphene-based nanomaterials, and electrodialysis membrane engineering further extends his influence in energy storage, photocatalysis, and sustainable water treatment technologies.

Citation Metrics (Google Scholar)

120

90

60

30

0

Citations
111

Documents
15

h-index
5

i10index
3

Citations

Documents

h-index

i10-index

View Scopus Profile   View ORCID Profile   View Google Scholar

Featured Publications

Clay-based nanocomposites: potential materials for water treatment applications
– Advanced Research in Nanosciences for Water Technology, 2019 | Citations: 8

Kumud Malika Tripathi | Nanomaterials for Energy | Excellence in Research Award

Published on by Nano Technology

Dr. Kumud Malika Tripathi | Nanomaterials for Energy | Excellence in Research Award

Ramalingaswami Faculty | Indian Institute of Technology (IIT) | India

Dr. Kumud Malika Tripathi is a leading nanotechnology researcher whose work spans green hydrogen production, carbon capture and utilization (CCUS), environmental remediation, biosensing technologies, and advanced nano-carbon materials. With more than 5,138 scopus citations, a strong 42 h-index, and over 100 peer-reviewed publications, she has established an international reputation for pioneering sustainable nanomaterials and carbon-based functional systems. Her research contributions center on the design of biomass-derived carbon nanostructures, including graphene aerogels, carbon nano-onions, carbon quantum dots, and hybrid heterostructures. These materials underpin breakthroughs in visible-light photocatalysis, wastewater treatment, degradation of emerging pollutants, flexible electronics, self-charging power units, and high-performance energy storage devices such as zinc-ion hybrid supercapacitors and zinc-air batteries. Her work has significantly advanced green routes for producing nano-carbons from waste sources, demonstrating strong circular-economy impact in environmental and energy applications. Dr. Kumud Malika Tripathi’s research group has made influential contributions to non-invasive disease diagnostics, particularly through graphene-quantum-dot-based optical sensors and FRET-based platforms for detecting biomarkers, gases, and trace analytes. She has authored multiple high-impact publications in journals such as Chemical Engineering Journal, Nanoscale, ChemComm, ACS Sustainable Chemistry & Engineering, Carbon, and Scientific Reports. Her innovations extend to patents on metal-air battery electrolytes, photocatalysts, flexible batteries, wastewater bioremediation, and graphene-based heterostructures, reflecting strong translational and R&D capabilities. A consistent recipient of prestigious research recognitions, she has been honored with RSC Emerging Investigator recognition, RSC Excellent Women Researcher awards, and the Ramalingaswami Re-entry Fellowship, among others. She has delivered invited talks across premier institutes and international conferences, and she serves as Associate Editor for several journals while reviewing extensively for ACS, RSC, Elsevier, Wiley, and Nature group journals. Her funded research projects-supported by DST, DBT, OIL India, Ministry of Coal, NRF-Korea, and others-focus on CO₂ conversion, biosensing, nano-carbon synthesis, pollution remediation, and renewable energy technologies. Through impactful publications, patents, collaborative projects, and editorial contributions, Dr. Kumud Malika Tripathi has become a prominent global figure in sustainable nanomaterials and advanced carbon technologies.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles

Featured Publications

1. Tyagi, A., Tripathi, K. M., Singh, N., Choudhary, S., & Gupta, R. K. (2016). Green synthesis of carbon quantum dots from lemon peel waste: applications in sensing and photocatalysis. RSC Advances, 6(76), 72423–72432. https://doi.org/10.1039/C6RA10488F

2. Das, G. S., Shim, J. P., Bhatnagar, A., Tripathi, K. M., & Kim, T.-Y. (2019). Biomass-derived carbon quantum dots for visible-light-induced photocatalysis and label-free detection of Fe(III) and ascorbic acid. Scientific Reports, 9, 15084. https://doi.org/10.1038/s41598-019-49266-y

3. Tyagi, A., Tripathi, K. M., & Gupta, R. K. (2015). Recent progress in micro-scale energy storage devices and future aspects. Journal of Materials Chemistry A, 3(45), 22507–22541. https://doi.org/10.1039/C5TA05666G

4. Tripathi, K. M., Kim, T.-Y., Losic, D., & Tung, T.-T. (2016). Recent advances in engineered graphene and composites for detection of volatile organic compounds (VOCs) and non-invasive disease diagnosis. Carbon, 110, 97–129. https://doi.org/10.1016/j.carbon.2016.08.040

5. Santhosh, C., Daneshvar, E., Tripathi, K. M., Baltrėnas, P., Kim, T.-Y., Baltrėnaitė, E., & Bhatnagar, A. (2020). Synthesis and characterization of magnetic biochar adsorbents for the removal of Cr(VI) and Acid orange 7 dye from aqueous solution. Environmental Science and Pollution Research, 27(26), 32874–32887. https://doi.org/10.1007/s11356-020-09275-1

Arulmozhi Rajaram | Nanomaterials for Energy | Women Researcher Award

Published on by Nano Technology

Dr. Arulmozhi Rajaram | Nanomaterials for Energy | Women Researcher Award

Assistant Professor | SRM Institute of Science and Technology | India

Dr. Arulmozhi Rajaram is an accomplished researcher in organic chemistry and nanomaterials, with strong contributions spanning photocatalysis, energy materials, perovskites, quantum dots, molecular sensors, supercapacitors, and biomedical nanotechnology. With 1,342+ Scopus citations, 67 publications, and an h-index of 20, her research impact continues to grow across interdisciplinary domains. Her scholarly work extensively explores 2D materials, heterojunction photocatalysts, boron nitride quantum dots, double perovskites, metal–organic frameworks, and multifunctional carbon nanomaterials for applications in wastewater remediation, hydrogen production, electrocatalysis, photoluminescence, and environmental sensing. She has published high-impact research in leading Q1 and Q2 journals, including ACS Applied Nano Materials, Langmuir, Ceramics International, Environmental Research, RSC Advances, Diamond & Related Materials, Surfaces and Interfaces, Journal of Water Process Engineering, and many others. Her research portfolio includes over 70 peer-reviewed journal articles, multiple international conference presentations, and book chapters on green nanotechnology, metal complexes, anticancer agents, and catalytic materials. A notable contribution includes work on interface-engineered g-C3N4-based heterostructures, advanced perovskite phosphors, and molecularly imprinted sensors, which advance sustainable energy and environmental technologies. She has demonstrated strong leadership in research projects and international collaborations, including projects funded under the SATU Joint Research Scheme, and co-investigator roles with researchers from the University of Malaya and National Taipei University of Technology on cutting-edge work in photocatalysts, nanobio-hybrids, and perovskite solar cells. Her innovative capabilities are further reflected in her published patent on a nanofluidic drug-delivery system, highlighting her contributions to translational nanotechnology. Dr. Arulmozhi Rajaram has earned numerous Best Paper Awards and institutional recognitions for research excellence at national and international levels, underscoring her sustained impact in chemical sciences and nanomaterials research. She has also guided multiple Ph.D., PG, and UG research projects, contributing significantly to research training and capacity building in advanced materials science.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles

Featured Publications

1. Ganesan, K., Jothi, V. K., Natarajan, A., Rajaram, A., Ravichandran, S., & Others. (2020). Green synthesis of copper oxide nanoparticles decorated with graphene oxide for anticancer activity and catalytic applications. Arabian Journal of Chemistry, 13(8), 6802–6814.

2. Kumar, J. V., Ajarem, J. S., Allam, A. A., Manikandan, V., R. Arulmozhi, R., & Abirami, N. (2022). Construction of SnO₂/g-C₃N₄ an effective nanocomposite for photocatalytic degradation of amoxicillin and pharmaceutical effluent. Environmental Research, 209, 112809.

3. Leelavathi, H., Muralidharan, R., Abirami, N., Tamizharasan, S., Sankeetha, S., R.Arulmozhi & Others. (2023). Construction of step-scheme g-C₃N₄/Co/ZnO heterojunction photocatalyst for aerobic photocatalytic degradation of synthetic wastewater. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 656, 130449.

4. Kumar, J. V., Kavitha, G., Arulmozhi, R., Arul, V., Singaravadivel, S., & Others. (2021). Green sources derived carbon dots for multifaceted applications. Journal of Fluorescence, 31(4), 915–932.

5. Leelavathi, H., Abirami, N., Muralidharan, R., Kavitha, H. P., Tamizharasan, S., R. Arulmozhi & Others. (2021). Sunlight-assisted degradation of textile pollutants and phytotoxicity evaluation using mesoporous ZnO/g-C₃N₄ catalyst. RSC Advances, 11(43), 26800–26812.

Islam Abdelnabi | Nanomaterials for Energy | Best Researcher Award

Published on by Nano Technology

Dr. Islam Abdelnabi | Nanomaterials for Energy | Best Researcher Award

Doctor | Beni-Suef University | Egypt

Dr. Islam Abdelnabi is an emerging materials physicist and researcher whose work bridges solid-state physics, nanomaterials, and renewable energy applications. With 12 scientific documents, 180 citations, and an h-index of 7, his research contributions reflect a strong focus on electrocatalysis, nanostructured materials, and sustainable energy innovations. His scientific investigations explore bifunctional electrocatalysts for water-splitting applications (HER, OER, ORR), focusing on the design of perovskite-based nanocomposites, doped oxides, and natural mineral-derived catalysts. He has synthesized and characterized advanced nanomaterials through multiple methods including hydrothermal, combustion, and molten-salt synthesis. His materials research extends to solid-oxide fuel cells (SOFCs), thin films, and conducting polymer systems, employing advanced characterization tools such as XRD, SEM, EDX, FTIR, BET, and EIS spectroscopy. Dr. Islam Abdelnabi has authored impactful works in high-quality journals such as RSC Advances, Inorganic Chemistry Communications, and Journal of Water Process Engineering. His recent publications include studies on nano-zirconia composites for oxygen evolution, LaCoFeO perovskites doped with natural Ca²⁺, and hydrogen generation via advanced electrocatalysts. His upcoming papers in Electrocatalysis and Energy journals further demonstrate his deep engagement with green hydrogen and catalytic material engineering. His research excellence has been recognized through university honors and participation in major scientific conferences, including Eg-MRS and international forums in Taiwan and France. Beyond publications, Dr. Islam Abdelnabi contributes to the academic community as a reviewer, conference contributor, and educational innovator through scientific dissemination on digital platforms. His continuing work aims to advance nanotechnology-driven energy solutions and environmental sustainability through material design and electrochemical innovation.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

1. Saad, I., Ralha, N., Abukhadra, M. R., & Ko, Y. G. (2023). Recent advances in photocatalytic oxidation techniques for decontamination of water. Journal of Water Process Engineering, 52, 103572. https://doi.org/10.1016/j.jwpe.2023.103572

2. Abukhadra, M. R., Shaban, M., Sayed, F., & Saad, I. (2018). Efficient photocatalytic removal of Safranin-O dye pollutants from water under sunlight using synthetic bentonite/polyaniline@Ni₂O₃ photocatalyst of enhanced performance. Environmental Science and Pollution Research, 25(33), 33264–33276. https://doi.org/10.1007/s11356-018-3299-8

3. Saad, I., El-Dek, S. I., Eissa, M. F., Assaud, L., Abukhadra, M. R., Al Zoubi, W., Kang, J. H., & Amin, R. M. (2024). Recent hydrogen production strategies: Recent advances in electrocatalysis. Inorganic Chemistry Communications, 165, 112474. https://doi.org/10.1016/j.inoche.2024.112474

4. Abukhadra, M. R., Saad, I., Othman, S. I., Allam, A. A., & Fathallah, W. (2022). Synthesis of Co₃O₄@Organo/Polymeric bentonite structures as environmental photocatalysts and antibacterial agents for enhanced removal of methyl pollutants. Journal of Inorganic and Organometallic Polymers and Materials, 32(7), 2600–2614. https://doi.org/10.1007/s10904-022-02354-9

5. Saad, I., El-Dek, S. I., Eissa, M. F., Assaud, L., & Amin, R. M. (2024). LaCo₀.₂Fe₀.₈O₃ perovskites doped with natural Ca²⁺ as bifunctional electrocatalysts for oxygen evolution and reduction reactions. RSC Advances, 14(38), 27488–27503. https://doi.org/10.1039/D4RA04105D

Ignaas Jimidar | Nanomaterials for Energy | Best Researcher Award

Published on by Nano Technology

Dr. Ignaas Jimidar | Nanomaterials for Energy | Best Researcher Award

Senior Postdoctoral Fellow | Vrije Universiteit Brussel | Belgium

Dr. Ignaas Jimidar is a Senior Postdoctoral Fellow at Vrije Universiteit Brussel (VUB), Belgium, whose research lies at the interface of chemical engineering, materials science, and analytical chemistry. His work focuses on microscale particle assembly, solvent-free fabrication, and triboelectric phenomena, advancing understanding of how particles interact, organize, and perform in engineered microenvironments. With a growing impact in the fields of soft matter, microfluidics, and energy harvesting, Dr. Ignaas Jimidar has authored over 28 research documents with 176 citations and an h-index of 9 (Scopus). His portfolio includes 20 peer-reviewed journal articles, invited contributions such as a Review in Small and a Perspective in ACS Applied Materials & Interfaces, and editorials in Physics Today and LCGC Magazine. His innovative research on granular interfaces and solvent-free assembly has been featured as cover articles in leading journals like ACS Applied Materials & Interfaces, Soft Matter, and Langmuir. Dr. Ignaas Jimidar has filed two patents, including developments in microfluidic devices and triboelectrically assembled SERS substrates, demonstrating strong translational potential. His research has attracted international recognition through awards such as the 2025 IACIS Emerging Investigator Award, MSCA Seal of Excellence (2024), and Young Scientists Award (MSB 2024). He has presented his work at prestigious venues, including the American Physical Society March Meeting, µTAS, and Colloids2025, and served as a guest editor for Soft Matter’s themed collection “Soft Matter Electrified.” His academic service extends to editorial reviewing for over 30 journals, conference chairing, and scientific committee memberships. Dr. Ignaas Jimidar’s contributions bridge fundamental colloid science and applied microengineering, advancing the development of next-generation materials for energy, sensing, and analytical technologies. His interdisciplinary innovations continue to redefine how particle assemblies and microscale systems can be designed for sustainable, high-performance applications.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Researchportal | Researcher Profile

Featured Publications

1. Sotthewes, K., Gardeniers, H. J. G. E., Desmet, G., & Jimidar, I. S. M. (2022). Triboelectric charging of particles, an ongoing matter: From the early onset of planet formation to assembling crystals. ACS Omega, 7(46), 41828–41839. https://doi.org/10.1021/acsomega.2c05554

2. Jimidar, I. S. M., Kwiecinski, W., Roozendaal, G., Kooij, E. S., Gardeniers, H. J. G. E., & Desmet, G. (2023). Influence of wettability and geometry on contact electrification between nonionic insulators. ACS Applied Materials & Interfaces, 15(35), 42004–42014. https://doi.org/10.1021/acsami.3c11010

3. Van Geite, W., Jimidar, I. S. M., Sotthewes, K., Gardeniers, H., & Desmet, G. (2022). Vacuum-driven assembly of electrostatically levitated microspheres on perforated surfaces. Materials & Design, 216, 110573. https://doi.org/10.1016/j.matdes.2022.110573

4. Jimidar, I. S. M., Sotthewes, K., Gardeniers, H., & Desmet, G. (2020). Spatial segregation of microspheres by rubbing-induced triboelectrification on patterned surfaces. Langmuir, 36(24), 6793–6800. https://doi.org/10.1021/acs.langmuir.0c00959

5. Sotthewes, K., Roozendaal, G., Šutka, A., & Jimidar, I. S. M. (2024). Toward the assembly of 2D tunable crystal patterns of spherical colloids on a wafer-scale. ACS Applied Materials & Interfaces, 16(9), 12007–12017. https://doi.org/10.1021/acsami.3c20483

Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

Published on by Nano Technology

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.