Ahmed Nabih Zaki Rashed | Solar Energy Technologies | Best Scholar Award

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Best Scholar Award

Ahmed Nabih Zaki Rashed — Menoufiya University

Ahmed Nabih Zaki Rashed
Affiliation Menoufiya University
Country Egypt
Scopus ID 36118361900
Documents 402
Citations 13,219
h-index 65
Subject Area Solar Energy Technologies
Event World Green Energy Awards
ORCID 0000-0002-5338-1623

Ahmed Nabih Zaki Rashed is associated with Menoufiya University in Egypt and has contributed extensively to the field of solar energy technologies through multidisciplinary engineering research. His scholarly profile demonstrates sustained academic productivity, citation influence, and participation in renewable energy studies related to communication systems, optical technologies, and sustainable engineering developments.[1]

Abstract

Ahmed Nabih Zaki Rashed has established a recognized academic presence in solar energy technologies, optical communications, and sustainable engineering systems through a broad range of scientific publications and interdisciplinary investigations. His research activities include optical fiber communication, renewable energy integration, signal transmission technologies, and advanced photonic applications relevant to energy-efficient infrastructure development. The scholarly profile associated with his Scopus records indicates significant citation performance and international academic visibility. His contributions have supported scientific discussions surrounding sustainable technological innovation and engineering optimization. These achievements position him as a suitable candidate for recognition through the Best Scholar Award presented by the World Green Energy Awards.[1][2]

Keywords

Solar energy technologies, optical communication systems, renewable energy engineering, photonic networks, sustainable infrastructure, signal transmission, energy-efficient systems, optical fiber research, engineering innovation, green technology applications.

Introduction

The advancement of renewable energy systems increasingly depends on interdisciplinary engineering approaches capable of improving communication efficiency, energy transmission, and sustainable technological integration. Ahmed Nabih Zaki Rashed has contributed to these evolving scientific discussions through research focused on optical systems, photonic communication, and solar technology applications relevant to modern engineering infrastructure.[1]

Research Profile

The academic profile of Ahmed Nabih Zaki Rashed demonstrates substantial scholarly productivity with more than four hundred indexed documents and a strong citation record within Scopus databases. His research activities span optical communication engineering, photonic devices, renewable technologies, and signal processing applications connected to sustainable engineering systems and scientific innovation.[1]

Research Contributions

Ahmed Nabih Zaki Rashed has contributed to engineering research through investigations involving optical fiber systems, communication technologies, photonic network optimization, and sustainable electronic applications. His publications frequently address methods for improving data transmission efficiency, communication reliability, and renewable technology integration in engineering environments associated with energy-conscious technological development.

Publications

The publication record associated with Ahmed Nabih Zaki Rashed includes journal articles addressing optical transmission systems, renewable engineering technologies, and photonic applications. Several studies examine performance optimization, wavelength transmission, communication modeling, and engineering efficiency in sustainable systems, contributing to broader academic discussions concerning technological innovation and environmental sustainability.[3]

Research Impact

The research impact of Ahmed Nabih Zaki Rashed is reflected through citation metrics, interdisciplinary visibility, and continued academic engagement within engineering and renewable technology communities. His h-index and citation performance indicate sustained scholarly recognition, while his publications contribute to ongoing discussions involving communication technologies, energy systems, and scientific advancement.[1]

Award Suitability

Ahmed Nabih Zaki Rashed demonstrates qualifications consistent with the objectives of the Best Scholar Award presented by the World Green Energy Awards. His sustained research productivity, citation influence, and interdisciplinary engineering contributions support recognition for scholarly achievements connected to renewable energy technologies, communication engineering, and sustainable scientific development.[2]

Conclusion

The academic contributions of Ahmed Nabih Zaki Rashed illustrate active engagement in renewable energy engineering, optical technologies, and sustainable communication research. His publication history, citation metrics, and interdisciplinary scientific activities collectively indicate meaningful participation in engineering scholarship, supporting his recognition within international academic and renewable energy award platforms.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ahmed Nabih Zaki Rashed, Author ID 36118361900. Scopus.https://www.scopus.com/authid/detail.uri?authorId=36118361900
  2. World Green Energy Awards. (n.d.). Best Scholar Award evaluation criteria and academic recognition standards.
    https://greenenergyaward.com/
  3. Parvin, T., Ahmed, K., Alatwi, A. M., & Rashed, A. N. Z. (2021). Differential optical absorption spectroscopy-based refractive index sensor for cancer cell detection. <i>Optical Review, 28</i>(1), 134–143.
    https://doi.org/10.1007/s10043-021-00644-w
  4. Inthiyaz, S., Altahan, B. R., Ahammad, S. H., Rajesh, V., Kalangi, R. R., Smirani, L. K., Hossain, M. A., & Rashed, A. N. Z. (2023). Skin disease detection using deep learning. Advances in Engineering Software, 175, 103361.
    https://doi.org/10.1016/j.advengsoft.2022.103361
  5. Polasi, P. K., Vellela, S. S., Narayana, J. L., Simon, J., Kapileswar, N., Prabu, R. T., & Rashed, A. N. Z. (2024). Data rates transmission, operation performance speed and figure of merit signature for various quadurature light sources under spectral and thermal effects. <i>Journal of Optics, 55</i>(4), 633–643.
    https://doi.org/10.1007/s12596-024-02032-4

Manuel Oliva Cruz | Agronomía | Innovative Research Award

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Innovative Research Award

Manuel Oliva Cruz
Universidad Nacional Toribio Rodríguez de Mendoza de Amazonas
Manuel Oliva Cruz
Affiliation Universidad Nacional Toribio Rodríguez de Mendoza de Amazonas
Country Peru
Scopus ID 57462353800
Documents 166
Citations 1,623
h-index 20
Subject Area Agronomía
Event World Green Energy Awards
ORCID 0000-0002-9670-0970

The Innovative Research Award recognizes the academic and scientific contributions of Manuel Oliva Cruz, a Peruvian researcher affiliated with the Universidad Nacional Toribio Rodríguez de Mendoza de Amazonas. His scholarly work has contributed to agronomic sciences, environmental sustainability, and interdisciplinary agricultural research. The recognition reflects a consistent record of publications, citations, and scientific engagement within the international research community.[1]

Abstract

Manuel Oliva Cruz has established a research profile centered on agronomic sciences, sustainable environmental management, and applied agricultural innovation. His academic contributions include peer-reviewed publications, interdisciplinary collaborations, and studies addressing ecological sustainability and regional agricultural development. With a substantial citation record and international visibility through indexing services such as Scopus and ORCID, his work demonstrates measurable academic influence within the scientific community.[1][2]

Keywords

Agronomía, Sustainable Agriculture, Environmental Research, Scientific Publications, Agricultural Innovation, Research Impact, Scopus Author, Academic Recognition, Peru, World Green Energy Awards.

Introduction

Contemporary agricultural and environmental sciences increasingly emphasize sustainable development, biodiversity preservation, and resilient farming systems. Researchers contributing to these areas play a significant role in advancing scientific understanding and practical applications. Manuel Oliva Cruz has participated in research initiatives associated with agronomic development and ecological sustainability, contributing to scholarly discussions through publications and collaborative investigations.[1]

Research Profile

The academic profile of Manuel Oliva Cruz reflects sustained involvement in agronomic and environmental research activities. According to Scopus indexing data, the researcher has authored or co-authored more than 160 scientific documents and achieved over 1,600 citations with an h-index of 20.[1]

Research Contributions

The scientific contributions associated with Manuel Oliva Cruz include research in sustainable agriculture, environmental conservation, and applied agronomic methodologies. His scholarly activities emphasize evidence-based approaches to ecological management and agricultural sustainability.[2]

Publications

Selected publication themes and indexed scholarly outputs associated with Manuel Oliva Cruz include studies related to agronomy, environmental sustainability, biodiversity, and ecosystem management.[1]

Research Impact

Research impact indicators such as citation counts and h-index measurements are frequently used to evaluate scholarly visibility and scientific influence. The Scopus metrics associated with Manuel Oliva Cruz indicate consistent engagement from the academic community and demonstrate the relevance of his publications within agronomic and environmental research domains.[1]

Award Suitability

The Innovative Research Award under the World Green Energy Awards framework recognizes scientific achievements that contribute to sustainable development, environmental awareness, and applied research advancement. The academic profile of Manuel Oliva Cruz aligns with these objectives through documented research productivity, interdisciplinary scientific contributions, and measurable citation impact.[3]

Conclusion

Manuel Oliva Cruz represents a research profile characterized by academic productivity, interdisciplinary scientific participation, and sustained engagement in agronomic and environmental studies. The combination of indexed publications, citation influence, and international academic visibility supports recognition through the Innovative Research Award. His contributions reflect the growing importance of sustainability-oriented research within contemporary scientific and agricultural development frameworks.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Manuel Oliva Cruz, Author ID 57462353800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57462353800
  2. Google Scholar. (n.d.). Scholar profile of Manuel Oliva Cruz. Google Scholar.
    https://scholar.google.com/citations?user=5UfCMkIAAAAJ&hl=es
  3. World Green Energy Awards. (n.d.). Innovative Research Award and sustainability recognition framework.
    https://greenenergyaward.com/
  4. Rojas Briceño, N. B., Barboza Castillo, E., Maicelo Quintana, J. L., Oliva Cruz, S. M., & Salas López, R. (2019). Deforestación en la Amazonía peruana: Índices de cambios de cobertura y uso del suelo basado en SIG. Boletín de la Asociación de Geógrafos Españoles, 81. https://doi.org/10.21138/bage.2538a
  5. Calle Yunis, C. R., Salas López, R., Cruz, S. M. O., Barboza Castillo, E., Silva López, J. O., Iliquín Trigoso, D., & Rojas Briceño, N. B. (2020). Land suitability for sustainable aquaculture of rainbow trout (Oncorhynchus mykiss) in Molinopampa (Peru) based on RS, GIS, and AHP. ISPRS International Journal of Geo-Information, 9(1), 28. https://doi.org/10.3390/ijgi9010028

Alexey Beskopylny | Green Technology | Best Researcher Award

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Best Researcher Award

Alexey Beskopylny
Don State Technical University

Alexey Beskopylny
Affiliation Don State Technical University
Country Russia
Scopus ID 57212303470
Documents 207
Citations 2,630
h-index 26
Subject Area Green technology
Event World Green Energy Awards
ORCID 0000-0002-6173-9365

The Best Researcher Award recognizes distinguished scholarly achievements and sustained scientific contributions in the field of green technology and sustainable engineering. Alexey Beskopylny of Don State Technical University has established a significant academic profile through interdisciplinary research related to advanced construction materials, environmental sustainability, engineering systems, and innovative green technologies. His publication record, citation metrics, and research visibility demonstrate measurable influence within contemporary engineering and sustainability studies.[1]

Abstract

Alexey Beskopylny is recognized for scholarly contributions associated with sustainable engineering, construction technologies, and environmentally responsible materials research. His academic activities include publication development, interdisciplinary collaboration, and applied engineering investigations relevant to green technology innovation. The researcher has contributed to scientific discourse through peer-reviewed publications indexed in international databases, demonstrating consistent engagement with modern sustainability challenges and engineering optimization methods.[1][2]

Keywords

Green technology, sustainable engineering, environmental materials, structural engineering, construction innovation, energy-efficient systems, sustainable development, engineering research, advanced materials, academic excellence.

Introduction

The advancement of green technology has become increasingly important within modern engineering and environmental sciences. Researchers contributing to sustainable infrastructure, resource-efficient materials, and ecological engineering practices are central to contemporary scientific progress. Alexey Beskopylny has participated in research areas associated with construction engineering and sustainability-oriented technological development. His scholarly output reflects active involvement in scientific initiatives aimed at improving engineering performance while supporting environmentally conscious methodologies.[1]

Research Profile

Alexey Beskopylny is affiliated with Don State Technical University in Russia and maintains an established research presence within engineering and green technology studies. According to Scopus indexing data, the researcher has authored more than 200 scholarly documents and achieved over 2,600 citations, with an h-index of 26, indicating consistent citation activity across multiple publications.[1]

Research Contributions

The researcher has contributed to scientific studies involving sustainable construction technologies and advanced engineering materials. Several investigations address durability optimization, structural efficiency, and environmentally responsible design strategies intended to support modern sustainability goals.[4]

Publications

Selected publications and indexed research outputs associated with Alexey Beskopylny demonstrate sustained scholarly engagement in engineering and green technology disciplines.[4]

Research Impact

Citation metrics and publication indexing indicate measurable academic influence within engineering and sustainability research communities. The researcher’s h-index and citation record demonstrate that published works have contributed to ongoing scientific discussions in areas associated with green technology and applied engineering sciences.[1]

Award Suitability

Alexey Beskopylny demonstrates suitability for recognition through the World Green Energy Awards based on documented research productivity, international indexing visibility, interdisciplinary engineering contributions, and citation impact. His academic work aligns with themes related to sustainability, green technology innovation, and environmentally responsible engineering advancement.[3]

Conclusion

The academic profile of Alexey Beskopylny reflects sustained engagement with engineering research and sustainability-oriented technological development. Through publication activity, collaborative research, and measurable citation influence, the researcher has contributed to scientific discussions associated with green technology and advanced engineering systems. Recognition through the Best Researcher Award category within the World Green Energy Awards framework is supported by documented scholarly performance and relevance to contemporary sustainability objectives.[1][3]

References

  1. Elsevier. (n.d.). Scopus author details: Alexey Beskopylny, Author ID 57212303470. https://www.scopus.com/authid/detail.uri?authorId=57212303470
  2. ORCID. (n.d.). ORCID profile for Alexey Beskopylny.
    https://orcid.org/0000-0002-6173-9365
  3. World Green Energy Awards. (n.d.). Official award and recognition platform.
    https://greenenergyaward.com/
  4. Beskopylny, A. N., Stel’makh, S. A., Shcherban’, E. M., Mailyan, L. R., Meskhi, B., Razveeva, I., Chernil’nik, A., & Beskopylny, N. (2022). Concrete strength prediction using machine learning methods CatBoost, k-nearest neighbors, support vector regression. , 12(21), 10864.
    https://doi.org/10.3390/app122110864
  5. Özkılıç, Y. O., Karalar, M., Aksoylu, C., Beskopylny, A. N., Stel’makh, S. A., Shcherban, E. M., Qaidi, S., Pereira, I. da S. A., Monteiro, S. N., & Azevedo, A. R. G. (2023). Shear performance of reinforced expansive concrete beams utilizing aluminium waste. Journal of Materials Research and Technology, 24, 5433–5448. https://doi.org/10.1016/j.jmrt.2023.04.120

Christopher Koroneos | Energy Generation Technologies | Best Scholar Award

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Best Scholar Award

Christopher Koroneos
School of Chemical Engineering, National Technical University of Athens
Christopher Koroneos
Affiliation National Technical University of Athens
Country Greece
Scopus ID 6602180745
Documents 99
Citations 4,724
h-index 36
Subject Area Energy Generation Technologies
Event World Green Energy Awards
ORCID
0000-0001-5341-976X

Christopher Koroneos is a researcher associated with the School of Chemical Engineering at the National Technical University of Athens, Greece, with academic contributions in the field of energy generation technologies and sustainability research. His scholarly profile reflects significant involvement in environmental systems analysis, renewable energy technologies, and sustainable engineering methodologies. The recognition associated with the Best Scholar Award under the World Green Energy Awards highlights his documented academic impact and sustained contributions to scientific literature in energy-related disciplines.[1]

Abstract

The Best Scholar Award recognition associated with Christopher Koroneos reflects a documented academic profile characterized by sustained research activity, publication output, and citation performance in the field of energy generation technologies. His scholarly work has contributed to the broader understanding of sustainable energy systems, environmental management, and energy policy evaluation. The research profile demonstrates measurable scientific influence through indexed publications, interdisciplinary collaborations, and citation metrics within recognized academic databases.[1][2]

Keywords

  • Energy Generation Technologies
  • Renewable Energy
  • Sustainability Assessment
  • Environmental Engineering
  • Life Cycle Analysis
  • Green Energy Research
  • Academic Recognition

Introduction

Research in sustainable energy technologies has become increasingly significant in response to global environmental challenges and the transition toward low-carbon systems. Academic researchers working in energy systems analysis and environmental sustainability contribute to scientific understanding that supports policy development, industrial adaptation, and technological innovation. Christopher Koroneos has participated in this broader academic landscape through studies related to energy efficiency, environmental assessment, and sustainable engineering systems.[1]

Research Profile

Christopher Koroneos is affiliated with the School of Chemical Engineering at the National Technical University of Athens in Greece. His Scopus-indexed research profile indicates publication activity across multiple energy and sustainability-related domains, including renewable energy systems, environmental performance analysis, and engineering optimization studies.[1]

Research Contributions

The research contributions associated with Christopher Koroneos include analytical work related to sustainable energy technologies and environmental impact evaluation. His publications frequently address energy systems performance, lifecycle assessment methodologies, and environmental management approaches relevant to industrial and renewable energy applications.[2]

Publications

The publication record of Christopher Koroneos includes journal articles and scholarly contributions indexed in international academic databases. His research output reflects sustained participation in peer-reviewed scientific communication and interdisciplinary environmental studies.[4]

Research Impact

The research impact associated with Christopher Koroneos can be observed through citation metrics, publication indexing, and academic visibility in energy and sustainability research areas. Citation counts and h-index indicators suggest ongoing engagement with the scientific community and continued reference to his work in subsequent scholarly publications.[1]

Award Suitability

The academic profile of Christopher Koroneos demonstrates characteristics commonly associated with recognition under the Best Scholar Award category. Indicators including publication volume, citation performance, research continuity, and subject relevance to energy generation technologies align with the evaluation criteria frequently utilized for scholarly recognition in sustainability-focused academic events.[1]

Conclusion

Christopher Koroneos has established an academic profile characterized by sustained research activity in energy generation technologies and sustainability-related engineering disciplines. Bibliometric indicators, publication output, and scholarly visibility collectively demonstrate measurable academic influence within environmental and energy research domains. The Best Scholar Award recognition within the World Green Energy Awards framework reflects the documented relevance and continuity of his scholarly contributions.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Christopher Koroneos, Author ID 6602180745. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=6602180745
  2. ORCID. (n.d.). ORCID profile for Christopher Koroneos.
    https://orcid.org/0000-0001-5341-976X
  3. World Green Energy Awards. (n.d.). Official event website and award information.
    https://greenenergyaward.com/
  4. Roinioti, A., & Koroneos, C. (2017). The decomposition of CO2 emissions from energy use in Greece before and during the economic crisis and their decoupling from economic growth. Renewable and Sustainable Energy Reviews, 76, 448–459.
    https://doi.org/10.1016/j.rser.2017.03.026
  5. Koroneos, C., Polyzakis, A., Xydis, G., Stylos, N., & Nanaki, E. (2017). Exergy analysis for a proposed binary geothermal power plant in Nisyros Island, Greece. Geothermics, 70, 38–46. https://doi.org/10.1016/j.geothermics.2017.06.004

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Muhammad Mujahid | Perovskites | Best Researcher Award

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Best Researcher Award

Muhammad Mujahid — Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC), Lithuania

Research Profile
Affiliation Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC)
Country Lithuania
Scopus ID 57191832420
Documents 9
Citations 1,509
h-index 7
Subject Area Perovskites
Event World Green Energy Awards
ORCID 0000-0003-4714-9980

The Best Researcher Award recognition highlights the scholarly activities and scientific contributions of Muhammad Mujahid in the field of perovskite-based renewable energy materials and advanced energy technologies. Associated with the Nacionalinis Fizinių ir technologijos mokslų centras (NFTMC), Lithuania, the researcher has contributed to academic literature focused on material innovation, photovoltaic performance, and sustainable energy applications.[1] The research profile demonstrates measurable academic visibility through indexed publications, citation impact, and interdisciplinary engagement related to green energy technologies.[2]

Abstract

This academic article presents an overview of the research profile and scholarly recognition associated with Muhammad Mujahid in relation to the Best Researcher Award under the World Green Energy Awards initiative. The research activities emphasize perovskite materials, renewable energy systems, and photovoltaic advancements aimed at improving sustainable energy technologies.[3] The researcher’s publication record, citation metrics, and interdisciplinary engagement indicate a measurable contribution to contemporary materials science and green energy research. The article also evaluates research impact indicators and award suitability based on academic performance, subject relevance, and scientific visibility within indexed databases.[1]

Keywords

Perovskites; Renewable Energy; Photovoltaics; Green Energy Technologies; Sustainable Materials; Solar Cell Research; Materials Science; Academic Recognition; Scopus Indexed Research; Energy Conversion.

Introduction

Perovskite materials have emerged as a significant area of research within renewable energy studies due to their promising optoelectronic properties and efficiency potential in photovoltaic applications. Contemporary scientific investigations increasingly focus on improving device stability, scalability, and energy conversion efficiency to support the transition toward sustainable energy infrastructures.

Research Profile

The research profile of Muhammad Mujahid demonstrates active engagement in renewable energy and materials science research domains, particularly those involving perovskite technologies and advanced photovoltaic systems.[1] Indexed academic contributions indicate publication activity across peer-reviewed journals and collaborative research initiatives related to sustainable energy solutions.

Research Contributions

The researcher’s contributions are associated with the investigation of energy-efficient materials and renewable energy technologies aimed at improving the operational performance of solar energy systems. Research outputs in the area of perovskites often address efficiency enhancement, defect engineering, charge transport mechanisms, and environmental stability considerations.

Publications

The publication profile indexed under the Scopus Author ID demonstrates scholarly engagement in peer-reviewed scientific communication. The available publication metrics indicate growing citation recognition and research visibility within renewable energy and materials science domains.[1]

Research Impact

Research impact indicators provide quantitative insight into academic visibility and scholarly influence. According to the indexed profile, the researcher has accumulated 1,509 citations with an h-index of 7 across 9 documents, indicating measurable engagement within the scientific community.[1] Citation performance reflects the relevance of the published studies to contemporary research themes in renewable energy and materials science.

Award Suitability

The research profile of Muhammad Mujahid aligns with the thematic objectives of the World Green Energy Awards due to the demonstrated focus on perovskite materials, renewable energy technologies, and sustainable scientific innovation. The combination of indexed publications, citation performance, interdisciplinary collaboration, and subject relevance supports the suitability of the researcher for recognition under the Best Researcher Award category.

The academic contributions further indicate participation in scientific efforts aimed at addressing global sustainability challenges through advanced energy research. The researcher’s activities are therefore considered relevant to contemporary discussions on clean energy transition and environmentally responsible technological development.

Conclusion

Muhammad Mujahid’s academic profile reflects measurable contributions to renewable energy and perovskite research within the broader field of sustainable materials science. Through indexed publications, citation visibility, and interdisciplinary research engagement, the researcher demonstrates alignment with internationally relevant scientific priorities related to green energy technologies.[1] The overall research trajectory and thematic relevance support recognition under the Best Researcher Award associated with the World Green Energy Awards initiative.

References

  1. Elsevier. (n.d.). Scopus author details: Muhammad Mujahid, Author ID 57191832420. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57191832420
  2. ORCID. (n.d.). ORCID profile for Muhammad Mujahid.
    https://orcid.org/0000-0003-4714-9980
  3. World Green Energy Awards. (n.d.). Academic recognition and sustainability initiatives.
    https://greenenergyaward.com/
  4. Mujahid, M., Gradauskas, J., Sužiedėlis, A., Širmulis, E., & Ašmontas, S. (2025). Recent advancements in understanding hot carrier dynamics in perovskite solar cells. Energies, 18(13), 3543.
    https://doi.org/10.3390/en18133543
  5. Mujahid, M., Čerškus, A., Gradauskas, J., Grigucevičienė, A., Giraitis, R., Leinartas, K., Lučun, A., Petrauskas, K., Selskis, A., Sužiedėlis, A., Šilėnas, A., Širmulis, E., & Ašmontas, S. (2025). Unveiling the influence of hot carriers on photovoltage formation in perovskite solar cells. Materials, 18(1), 85.
    https://doi.org/10.3390/ma18010085

You Qiang | Nanotechnology for Renewable Energy | Best Faculty Award

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Prof. Dr. You Qiang | Nanotechnology for Renewable Energy | Best Faculty Award

Professor | University of Idaho | United States

Dr. You Qiang, a distinguished Professor of Physics at the University of Idaho, has dedicated over four decades to pioneering research in nanoparticles and nanomaterials, with a particular focus on nanoclusters, nanocomposites, and their magnetic, optical, and transport properties. He received his B.S. in Engineering Physics from Hefei University of Technology, China, an M.S. in Physics from Harbin Institute of Technology and the Chinese Academy of Space Technology, and his Ph.D. in Physics from the University of Freiburg, Germany. His professional journey includes significant roles as Research Scientist and Senior Scientist at the University of Freiburg, Research Assistant Professor at the University of Nebraska-Lincoln, and since 2002, a progressive career from Assistant to Full Professor at the University of Idaho, where he also holds an adjunct appointment in Nuclear Engineering. Dr. Qiang’s research interests lie in the synthesis and characterization of advanced nanomaterials and their application to nuclear energy, radiation detection, and radioactive waste separation, integrating fundamental physics with practical technological solutions. His research skills span experimental synthesis, advanced spectroscopy, ion irradiation studies, and nanoscale materials characterization, contributing to high-impact publications in JACS, Nanoscale, Environmental Science & Technology, Advanced Functional Materials, and Journal of Physical Chemistry C. Beyond his scholarly output, he has demonstrated strong leadership as President of the Idaho Academy of Science and Engineering, organizer and chair of multiple international conferences, and editorial board member for leading journals. His dedication to mentorship has been recognized with multiple Alumni Awards for Excellence in Graduate Student Mentorship, underscoring his commitment to training the next generation of scientists. Dr. Qiang’s academic impact is substantial, with his growing recognition reflected in 2,906 citations, 97 documents, and an h-index of 27, demonstrating his influential role in advancing nanomaterials and nuclear energy research.

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

Featured Publications

1. Haberland, H., Mall, M., Moseler, M., Qiang, Y., Reiners, T., & Thurner, Y. (1994). Filling of micron‐sized contact holes with copper by energetic cluster impact. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 12(5), 2925–2930. Cited by: 540

2. Wang, C. M., Baer, D. R., Thomas, L. E., Amonette, J. E., Antony, J., & Qiang, Y. (2005). Void formation during early stages of passivation: Initial oxidation of iron nanoparticles at room temperature. Journal of Applied Physics, 98(9), 094308. Cited by: 331

3. Wang, C., Baer, D. R., Amonette, J. E., Engelhard, M. H., Antony, J., & Qiang, Y. (2009). Morphology and electronic structure of the oxide shell on the surface of iron nanoparticles. Journal of the American Chemical Society, 131(25), 8824–8832. Cited by: 290

4. Qiang, Y., Antony, J., Sharma, A., Nutting, J., Sikes, D., & Meyer, D. (2006). Iron/iron oxide core-shell nanoclusters for biomedical applications. Journal of Nanoparticle Research, 8(3), 489–496. Cited by: 262

5. Baer, D. R., Amonette, J. E., Engelhard, M. H., Gaspar, D. J., Karakoti, A. S., Kuchibhatla, S. V. N. T., & Qiang, Y. (2008). Characterization challenges for nanomaterials. Surface and Interface Analysis, 40(3–4), 529–537. Cited by: 189

Jianhua Zhou | Solar Energy | Best Researcher Award

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Prof. Dr. Jianhua Zhou | Solar Energy | Best Researcher Award

Professor | Guilin University of Electric Technology | China

Prof. Jianhua Zhou, a distinguished scholar in materials science and engineering, currently serves as a Professor at the School of Materials Science and Engineering, Guilin University of Electronic Technology. He earned his B.S. in Applied Electrochemistry, M.S. in Applied Chemistry, and Ph.D. in Materials Processing Engineering from Nanjing University of Aeronautics and Astronautics, followed by a postdoctoral fellowship at Nagoya University, Japan. His professional career includes roles as Assistant Professor at the Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Lecturer, Associate Professor, and now full Professor at Guilin University of Electronic Technology. Prof. Zhou’s primary research interests focus on solar steam generation, thermoelectric conversion materials, lithium-ion batteries, and photothermal–thermoelectric hybrid systems. His research skills span advanced materials design, interfacial regulation, nanostructure engineering, and the development of sustainable energy harvesting and water treatment systems. He has led and participated in multiple prestigious projects funded by the National Natural Science Foundation of China, the Guangxi Science Foundation for Distinguished Young Scholars, and other national programs, advancing fundamental understanding and applications in renewable energy. Prof. Zhou has published 107 SCI/Scopus-indexed papers in leading international journals and conferences, authored the book Fundamentals of Functional Materials and Devices, and holds 12 granted patents with 20 under review. He also serves on the editorial boards of Nano Materials Science, Green Carbon, and Eco Energy, and actively contributes to international collaborations, student mentorship, and professional platforms, demonstrating both academic leadership and community engagement. His contributions have been recognized through funded research awards and professional memberships, reflecting his commitment to advancing renewable energy technologies for global sustainability. Prof. Zhou’s growing academic impact is reflected in 4,039 citations, 122 documents, and an h-index of 35, demonstrating his significant and sustained influence in materials science and renewable energy research.

Profiles: Scopus | ORCID | ResearchGate 

Featured Publications

1. Zhou, J., et al. (2025). Solar-driven interfacial evaporation coupling with photo-Fenton of floating Prussian blue/polypyrrole/paper film for volatile organic compounds-containing wastewater treatment. Separation and Purification Technology. Citations: 5

2. Zhou, J., et al. (2025). High-performance NiCu hydroxide self-supported electrode as a bifunctional catalyst for AOR and OER. Battery Energy. Citations: 2

3. Zhou, J., et al. (2025). Photo-Fenton catalyst embedded in photothermal aerogel for efficient solar interfacial water evaporation and purification. Green Carbon. Citations: 13

4. Zhou, J., et al. (2025). Carbon–MoS₂ composite loaded in poly(vinyl alcohol)–chitosan aerogel as dual-functional photothermal material for efficient water evaporation and thermal storage under solar irradiation. ACS Applied Polymer Materials.

5. Zhou, J., et al. (2025). Multicolor electrochromic electrodes with infrared emittance modulation based on WO₃ photonic crystal. Journal of Physics D: Applied Physics.

 

Renjith Krishnan | Bioenergy | Young Researcher Award

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Dr. Renjith Krishnan | Bioenergy | Young Researcher Award   

R&D Engineer | Nasser S. Al Hajri Corporation | United Arab Emirates

Dr. Renjith Krishnan is a distinguished mechanical engineer and educator with nearly a decade of experience in science and engineering, specializing in sustainable energy, waste management, biofuel production, lithium-ion batteries, and Industry 5.0 applications. He earned his Ph.D. in Mechanical Engineering from the National Institute of Technology Mizoram, India (2022), with a thesis on the production, characterization, and testing of bamboo biodiesel in a variable compression ratio engine. He also holds an M.Tech in Computer Integrated Manufacturing from the University of Calicut (2015) and a B.Tech in Mechanical Engineering from the University of Kerala (2013). Dr. Krishnan has served in multiple academic and industry roles, including Assistant Professor positions at Saveetha Engineering College, Madanapalle Institute of Technology & Science, and SHM Engineering College, as well as R&D Piping Engineer at Nasser S. Al Hajri Corporation, UAE. His research interests encompass biofuels, biomass gasification, lithium extraction, machine learning for sustainability, and clean energy systems. He possesses strong research skills in experimental design, process optimization, computational modeling, and data analysis using tools such as Ansys, SolidWorks, Origin, and Python. Dr. Krishnan has an impressive publication record, including Q1 and Q2 journals such as Cleaner Engineering and Technology, Energy Science & Engineering, and Environmental Science and Pollution Research, along with 14 patents in areas ranging from water flow measurement to portable air purifiers. He actively contributes to professional communities as a member of the World Society of Sustainable Energy Technologies and AICTSD and has completed certifications in AI, Python, and Product Management. Dr. Krishnan is committed to mentoring students and fostering innovation in academia and industry. He is the recipient of multiple recognitions for his teaching and research. His growing academic impact is reflected in 80 citations, 9 documents, and an h-index of 4, demonstrating his significant and sustained influence in the field of sustainable energy and mechanical engineering.

Profiles: Google Scholar | Scopus | ORCID | LinkedIn

Featured Publications

1. Krishnan, R., & Gopan, G. (2024). A comprehensive review of lithium extraction: From historical perspectives to emerging technologies, storage, and environmental considerations. Cleaner Engineering and Technology, 20, 100749. Cited by: 64

2. Krishnan, R., Hauchhum, L., Gupta, R., & Pattanayak, S. (2018). Prediction of equations for higher heating values of biomass using proximate and ultimate analysis. In 2nd International Conference on Power, Energy and Environment: Towards Smart Technology. IEEE.  Cited by: 28

3. Gopan, G., Hauchhum, L., Pattanayak, S., Kalita, P., & Krishnan, R. (2022). Prediction of species concentration in syngas produced through gasification of different bamboo biomasses: A numerical approach. International Journal of Energy and Environmental Engineering, 13(4), 1383–1394. Cited by: 9

4. Krishnan, R., Hauchhum, L., Gupta, R., & Gopan, G. (2022). Production and characterisation of biodiesel extracted from Indian bamboos. International Journal of Oil, Gas and Coal Technology, 31(3), 316–331. Cited by: 6

5. Gopan, G., Hauchhum, L., Kalita, P., Krishnan, R., & Pattanayak, S. (2021). Parametric study of tapered fluidized bed reactor under varied taper angle using TFM. AIP Conference Proceedings, 2396(1), 020020. Cited by: 4

 

Bawoke Mekuye Getnet | Nanotechnology for Renewable Energy | Best Researcher Award

Published on by Green Energy Award

Mr. Bawoke Mekuye Getnet | Nanotechnology for Renewable Energy | Best Researcher Award

Lecturer | Mekdela Amba University | Ethiopia

Dr. Bawoke Mekuye Getnet is an Ethiopian physicist, lecturer, and researcher known for his impactful contributions to condensed matter physics, nanoscience, nanomaterials, and diluted magnetic semiconductors (DMS). He holds a B.Sc. in Physics from Dilla University and an M.Sc. in Physics from Debre Markos University, building a strong foundation in theoretical and computational physics. He serves as Lecturer and Coordinator of the College of Natural and Computational Sciences at Mekdela Amba University, where he leads academic coordination and teaches undergraduate and postgraduate students, drawing on earlier experience as a secondary school physics teacher that shaped his passion for inspiring future scientists. His research spans computational modeling of high Curie temperature in ferromagnetic semiconductors, size-dependent optical properties of nanomaterials, energy system dynamics, and antibacterial mechanisms of metallic nanoparticles, supported by expertise in Python, MATLAB, dielectric function analysis, nanomaterial simulations, scientific writing, and peer review. Dr. Bawoke has published in leading journals such as Nano Select, Frontiers in Physics, Energy Science & Engineering, Advances in Condensed Matter Physics, and IET Nanobiotechnology, contributed book chapters and systematic reviews, and serves as a peer reviewer for prominent journals including ACS Omega and Solid State Communications. Beyond research, he has conducted teacher training programs, delivered software workshops for physics graduates, and presented at major conferences on computational investigations of ferromagnetic semiconductors. His honors include the prestigious Best Researcher Award (International Top Research Award) in recognition of his commitment to advancing physics research and education. Dedicated to promoting innovation, knowledge sharing, and capacity building in Ethiopia and beyond, Dr. Bawoke aspires to expand Q1 journal publications, foster global research collaborations, and engage as a keynote speaker and editorial board member, positioning him to play a transformative role in nanotechnology, semiconductor physics, and energy research while inspiring future generations of researchers.

Profile: Google Scholar | Scopus Profile | ORCID Profile

Featured Publications

Mekuye, B., & Abera, B. (2023). Nanomaterials: An overview of synthesis, classification, characterization, and applications. Nano Select, 4(8), 486–501. Cited by: 501

Mekuye, B. (2023). The impact of size on the optical properties of silver nanoparticles based on dielectric function. Nanotechnology and Nanomaterials Annual Volume 2024. Cited by: 18

Girma, A., Abera, B., Mekuye, B., & Mebratie, G. (2024). Antibacterial activity and mechanisms of action of inorganic nanoparticles against foodborne bacterial pathogens: A systematic review. IET Nanobiotechnology, 2024(1), 5417924. Cited by: 14

Girma, A., Alamnie, G., Bekele, T., Mebratie, G., Mekuye, B., & Abera, B., et al. (2024). Green-synthesised silver nanoparticles: Antibacterial activity and alternative mechanisms of action to combat multidrug-resistant bacterial pathogens: A systematic literature review. Green Chemistry Letters and Reviews, 17(1), 2412601. Cited by: 10

Girma, A., Mebratie, G., Mekuye, B., Abera, B., Bekele, T., & Alamnie, G. (2024). Antibacterial capabilities of metallic nanoparticles and influencing factors. Nano Select, 5(12), e202400049. Cited by: 9