Nuttapat Jittratorn | Renewable Energy Technologies | Editorial Board Member

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Mr. Nuttapat Jittratorn | Renewable Energy Technologies | Editorial Board Member

National Cheng Kung University | Taiwan

Mr. Nuttapat Jittratorn is a Ph.D. candidate at National Cheng Kung University specializing in energy forecasting, artificial intelligence, and image-based predictive modeling. His research focuses on advanced machine learning frameworks for wind and photovoltaic (PV) power forecasting, contributing to improved accuracy in short-term and ultra-short-term energy predictions. He has authored multiple peer-reviewed publications in high-impact journals, including Q1-ranked outlets, with growing citation impact. His work involves international collaborations and conference contributions (IEEE, IET), addressing challenges in renewable energy integration and smart grid management, thereby supporting sustainable energy systems and enhancing reliability in modern power networks.

Citation Metrics (Scopus)

20

15

10

5

0

Citations
10

Documents
8

h-index
2

🟦 Citations 🟥 Documents 🟩 h-index

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Featured Publications


A hybrid method for hour-ahead PV output forecast with historical data clustering.

– In 2022 IET International Conference on Engineering Technologies and Applications (IET-ICETA). (2018). Cited By:  5

Deterministic multi-energy load forecasting for integrated energy management system using a random search transformer network.

In Proceedings of the 2025 IEEE International Conference on Environment and Electrical Engineering and 2025 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1–6). IEEE. (2025) Cited By: 1

Ultrashort-term PV power forecasting based on weather classification and dynamic cloud tracking.

In Proceedings of the 2025 IEEE Industry Applications Society Annual Meeting (IAS) (pp. 1–8). IEEE.. (2020). Cited By: 1

 

Daniel Eshimiakhe | Environmental Science | Editorial Board Member

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Dr. Daniel Eshimiakhe | Environmental Science | Editorial Board Member

Researcher | Ahmadu Bello University | Nigeria

Dr. Daniel Eshimiakhe is a Nigerian geophysicist and researcher at Ahmadu Bello University, Zaria, specializing in electrical resistivity, seismology, magnetics, and machine-learning–enhanced geophysical analysis. His work focuses on subsurface characterization, mineral exploration, groundwater assessment, and environmental geophysics, with applications that support public health, sustainable resource management, and geological risk evaluation. He has authored and co-authored 28 scientific publications, accumulating over 109 citations, an h-index of 7, and an i10-index of 3, reflecting a growing influence in applied geosciences.Eshimiakhe’s research portfolio spans a wide range of geophysical techniques, including 2D/3D electrical resistivity tomography, seismic refraction tomography, aeromagnetic data interpretation, and geoelectrical modeling. His notable works include studies on landfill leachate migration, seasonal geochemistry impacts on groundwater systems, mineshaft imaging, kaolin deposit delineation, and gold mineral potential zone mapping across Northern Nigeria. His papers in Scientific Reports contributed significantly to groundwater potential mapping and environmental monitoring using integrated geoelectrical and geochemical approaches.He has collaborated extensively with multidisciplinary teams across Nigeria, contributing to research that integrates remote sensing, open-source geophysical modeling, and unsupervised machine learning, particularly in the refinement of Werner deconvolution for geologic depth estimation. His early work also includes participation in international conferences such as the AGU Fall Meeting, where he presented findings on subsurface cavity detection and mineral feature mapping through aeromagnetic techniques.Beyond academic contributions, Eshimiakhe’s research has substantial societal relevance, informing mining safety, infrastructure development, groundwater management, and environmental protection in resource-sensitive regions. His commitment to advancing geophysical science through innovative methodologies positions him as an emerging figure in applied Earth sciences, with ongoing work contributing to data-driven geological interpretation and sustainable natural resource exploration.

Profiles : Googlescholar Scopus 

Featured Publications

1.Katz, D. H., Tahir, U. A., Ngo, D., Benson, M., Bick, A. G., Pampana, A., Gao, Y., … & Eshimiakhe, D. (2020). Proteomic profiling in biracial cohorts implicates DC-SIGN as a mediator of genetic risk in COVID-19. MedRxiv. Cited By: 23

2.Alao, J. O., Otorkpa, O. J., Abubakar, F., Eshimiakhe, D., Aliyu, A., Abdulsalami, M., … & [Other authors if applicable]. (2024). Geoelectrical resistivity and geochemistry monitoring of landfill leachates due to the seasonal variations and the implications on groundwater systems and public health. Scientific Reports, 14(1), 26542. Cited By: 20

3.Osumejeh, J. O., Eshimiakhe, D., Kudanmya, E. A., Ojo, F., & Lawal, K. M. (2023). Geophysical investigation of part of Ahmadu Bello University farm, Nigeria. African Scientific Reports, 49, 49-49. Cited By: 13

4.Osumeje, J. O., Eshimiakhe, D., Oniku, A. S., & Lawal, K. M. (2024). Application of remote sensing and electrical resistivity technique for delineating groundwater potential in North Western Nigeria. Scientific Reports, 14(1), 22299.  Cited By: 8

5.Osumeje, J., Eshimiakhe, D., Bello, Y., & Lawal, K. (2023). Assessment of open-software resources in Python using real two-dimensional geophysical model. SSRN. Cited By: 8

Daniel Eshimiakhe’s research integrates geophysical techniques, remote sensing, and machine learning to advance subsurface characterization, mineral exploration, and groundwater assessment. His work informs sustainable resource management, environmental protection, and public health, bridging scientific innovation with societal and industrial applications.

Zahra Hasankhani | Environmental Science | Editorial Board Member

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Ms. Zahra Hasankhani | Environmental Science | Editorial Board Member

Research Scolar | shahid beheshti university | Iran

Ms. Zahra Hasankhani is an emerging researcher in industrial management and sustainable energy systems, with a growing academic footprint in renewable energy planning, climate strategies, and Waste-to-Energy (WTE) analysis. Her research emphasizes the integration of multi-criteria decision-making (MCDM) methods, SWOT analysis, and game theory to optimize national strategies aligned with the UN 2030 Sustainable Development Agenda.Her scholarly contributions have received increasing recognition, with 17 citations, an h-index of 1, and an i10-index of 1, reflecting the early yet impactful trajectory of her research career. Hasankhani is best known for her 2024 article, “Identification of Optimal Waste-to-Energy Strategies for Sustainable Development in Iran,” published in Renewable Energy. This study provides a comprehensive evaluation framework for WTE pathways, offering valuable insights for policymakers seeking sustainable solutions to waste management and energy scarcity.Hasankhani collaborates with leading scholars in the field, including Prof. Mostafa Zandieh, a full professor of industrial engineering at Shahid Beheshti University, and Assoc. Prof. Erfan Babaee Tirkolaee, a recognized expert in industrial engineering and environmental sustainability. These collaborations underscore her interdisciplinary approach and her commitment to integrating operations research with environmental policy analysis.Her research contributions hold broader societal relevance, particularly in promoting climate-resilient planning, advancing renewable energy adoption, and supporting national strategies for sustainable development. With a strong analytical foundation and a clear focus on environmental responsibility, Hasankhani continues to contribute to global dialogues on sustainable resource management, circular economy solutions, and evidence-based climate action.

Profile : Googlescholar

Featured Publications

1.Hasankhani, Z., Zandieh, M., & Tirkolaee, E. B. (2024). Identification of optimal waste-to-energy strategies for sustainable development in Iran: SWOT analysis, hybrid MCDM methods, and game theory. Renewable Energy, 121564.
Cited By : 17

Gamal Khater | Environmental Science | Best Researcher Award

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Prof. Dr. Gamal Khater | Environmental Science | Best Researcher Award

Professor | National Research Centre | Egypt

Prof. Dr. Gamal Khater is a distinguished researcher specializing in applied mineralogy, glass technology, and ceramic materials. He completed his B.Sc. in Geology and Chemistry from Mansoura University, followed by M.Sc. and Ph.D. degrees in Geology from Ain Shams University. He has extensive professional experience as a professor emeritus at the National Research Centre, with prior roles including technical expertise and consultancy in Saudi Arabia, executive advisor positions, and industrial project leadership. His research interests focus on glass-ceramics, industrial waste valorization, dental and bioactive glasses, refractory ceramics, and radiation shielding applications, integrating both academic and industrial applications. He has been recognized with multiple awards, including national and international honors for research excellence, environmental management, and innovation, and holds patents related to high-performance basaltic glass and industrial glass marble production. He has supervised numerous Ph.D. and M.Sc. theses, contributed to international collaborations, and actively participates in professional societies such as the Mineralogical Society of Egypt and the Egyptian Geological Society. His research skill set includes materials characterization, crystallization studies, thermal and electrical property evaluation, and development of sustainable industrial applications from natural and industrial wastes. His work has achieved 1,163 citations by 896 documents, with 58 h-index and 20 documents, reflecting a high level of impact and international recognition in his field.

Profiles : ORCID | Scopus

Featured Publications

1. Khater, G. A., Abu Safiah, M. O., & Hamzawy, E. M. A. (2015). Augite-anorthite glass-ceramics from residues of basalt quarry and ceramic wastes. Processing and Application of Ceramics.

2. Khater, G. A., & Morsi, M. M. (2011). Glass-ceramics based on spodumene-enstatite system from natural raw materials. Thermochimica Acta.

3. Khater, G. A. (2010). Diopside-anorthite-wollastonite glass-ceramics based on waste from granite quarries. Glass Technology: European Journal of Glass Science and Technology Part A.

4. Khater, G. A. (2010). Glass-ceramics in the CaO-MgO-Al2O3-SiO2 system based on industrial waste materials. Journal of Non-Crystalline Solids.

5. Khater, G. A., & Idris, M. H. (2009). Effect of some nucleating agents on crystallizing phases and microstructure in Li2O-BaO-Al2O3-SiO2 system. Ceramics International.

Iro Dianellou | Environmental Science | Best Researcher Award

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Mrs Iro Dianellou | Environmental Science | Best Researcher Award

Mrs Iro Dianellou , Aristotle University of Thessaloniki , greece

Ioanna Dianellou is a passionate geologist 🧭 with a solid background in environmental and nuclear geochemistry 🌍⚛️. She currently works at Mirtec S.A. in Greece, specializing in asbestos analysis and chemical testing of environmental samples. Her hands-on research spans from mineral analysis to nanomaterials for nuclear waste treatment. Ioanna has participated in international projects, including an Erasmus+ internship in Turkey 🇹🇷. With publications in respected scientific journals 📚 and a strong academic foundation, she continues to contribute to geoscience and environmental safety. Her work is driven by curiosity, sustainability 🌱, and a deep commitment to scientific excellence. 🔬👩‍🔬

Professional Profile

SCOPUS

Education & Experience 

Ioanna holds a Master’s degree 🎓 in Synthetic Chemistry and Biochemistry from Aristotle University of Thessaloniki, focusing on materials for nuclear waste treatment ☢️. Her thesis explored modified bentonite’s ability to remove Cs and Co. She earned her Geology diploma in 2020, specializing in Economic Geology. Ioanna has experience with analytical techniques like XRD, ICP-MS, FTIR, and SEM 🔍. She interned at Ege University (Turkey) under Erasmus+, and at Hellas Gold S.A. in exploration geology ⛏️. Currently, she is a geologist and lab technician at Mirtec S.A., conducting advanced chemical and mineral analyses. Her work bridges geology and environmental safety 🌿.

Professional Development 

Ioanna continuously enhances her expertise through academic research 🧪, internships, and hands-on lab experience. Her Erasmus+ internship at Ege University gave her international exposure 🌍 in nanomaterial synthesis and nuclear waste treatment. Working at Mirtec S.A., she applies advanced laboratory techniques (XRF, TG-DTA, XRD, ICP-MS) in real-world environmental and energy sample analyses 🔬. She’s collaborated with interdisciplinary teams, mastering geochemical and geotechnical investigation tools. Through her postgraduate education and scientific publications, she demonstrates ongoing professional growth and commitment to solving environmental and radiological challenges ☢️. Her proactive learning mindset ensures she remains updated in emerging technologies and methodologies 📚🧠.

Research Focus 

Ioanna Dianellou’s research focuses on environmental geochemistry, radiochemistry, and nanomaterials 🌋⚛️. She specializes in the removal of radioactive elements like uranium, thorium, cesium, and cobalt from aqueous and solid waste using modified materials such as bentonite and nanofibers. Her expertise includes characterization of materials (SEM, XRD, FTIR) and the application of spectroscopic and chromatographic techniques (ICP-OES, UV-Vis) 🧪. With publications in journals on radioactive waste sorption, she bridges geology with nuclear waste management. Her research aims to promote safe, sustainable methods for pollution control and environmental remediation, contributing to green energy and nuclear safety 🌱💡.

Awards and Honors 

Ioanna’s academic excellence is reflected in her high grades and distinction in both undergraduate and postgraduate studies 🥇. She graduated with an 8.56/10 (Excellent) in her Master’s and 8.37/10 (Very Good) in her Geology diploma 🎓. She earned an Erasmus+ scholarship for her internship at Ege University in Turkey, showcasing her skills in international research collaboration 🌍. Her co-authored publications in reputable journals such as Applied Radiation and Isotopes highlight her contribution to impactful scientific work 📚. These recognitions underscore her dedication, discipline, and emerging reputation in the field of nuclear and environmental geosciences 💫.

Publication Top Notes

1. Dianellou, I., Noli, F., Kantiranis, N. (2025)

Title: Sorption behavior of ¹³⁷Cs and ⁶⁰Co onto raw and cellulose-modified Greek bentonite
Journal: Applied Radiation and Isotopes, Vol. 222, Article 111850
DOI: https://doi.org/10.1016/j.apradiso.2025.111850

🔍 Summary:
This study investigates the sorption efficiency of raw and cellulose-modified Greek bentonite for the removal of radioactive isotopes Cesium-137 (¹³⁷Cs) and Cobalt-60 (⁶⁰Co) from aqueous solutions. Using batch experiments, the modified bentonite demonstrated significantly improved sorption capacity due to increased surface functional groups. The research utilized XRD and FTIR for material characterization and applied kinetic and isotherm models to understand adsorption behavior. The findings offer insights into eco-friendly and efficient solutions for treating low-level radioactive waste using locally sourced clay materials.

2. Kaptanoglu, I.G., Yusan, S., Kaynar, Ü.H., Aytas, S., Erenturk, A.S., Dianellou, I. (2025)

Title: Investigation of thorium(IV) removal utilizing reduced graphene oxide-zinc oxide nanofibers via response surface methodology
Journal: Journal of Radioanalytical and Nuclear Chemistry
DOI: https://doi.org/10.1007/s10967-025-10095-1

🔍 Summary:
This research explores the removal of thorium(IV) ions from aqueous solutions using reduced graphene oxide (rGO) combined with zinc oxide nanofibers. Response Surface Methodology (RSM) was applied to optimize the adsorption parameters. The nanofibers were characterized using SEM and FTIR, and adsorption experiments were evaluated through statistical modeling. Dianellou’s contribution helped refine the experimental approach and validate results. The study presents an innovative hybrid nanomaterial that efficiently adsorbs radioactive thorium, demonstrating potential for use in advanced nuclear waste management technologies.

3. Kyriakidis, F., Dianellou, I., Vollas, A., Alatzoglou, M., Gargoulas, N., Oikonomou, V. (2024)

Title: Presence of asbestos in building materials and soils in postfire areas of Mati, Kineta and Varimbombi in Greece
Journal: Environmental Geochemistry and Health, Vol. 46, Article 452
DOI: https://doi.org/10.1007/s10653-024-02211-z

🔍 Summary:
This environmental study focuses on the identification of asbestos contamination in areas affected by wildfires in Greece. Polarized light microscopy and stereomicroscopy were used to analyze soil and building debris samples from Mati, Kineta, and Varimbombi. Dianellou contributed to the analytical assessment of asbestos fibers and the evaluation of public health risks. The results show widespread asbestos presence due to the combustion of building materials, underlining the need for remediation and proper waste management in post-disaster zones.

Conclusion

Ioanna Dianellou’s research is not only scientifically advanced but also socially impactful. Her work is grounded in both academic excellence and real-world application, a hallmark of a well-rounded and forward-thinking researcher. Her contributions to radioactive pollutant remediation and environmental monitoring are timely, innovative, and of global relevance. She is an outstanding candidate for the Best Researcher Award and embodies the future of interdisciplinary scientific problem-solving.