Ayat Bozeya | Nanomaterials | Innovative Research Award

Published on by New Scientists

Innovative Research Award

Ayat Bozeya 
Jordan University of Science & Technology , Jordan

Ayat Bozeya
Affiliation Jordan University of Science & Technology
Country Jordan
Google Scholar ID b6p9_iQAAAAJ
Citations 406
h-index 10
i10-index 13
Scopus ID 26025048000
Subject Area Nanomaterials
Event New Scientists Awards
ORCID
0000-0002-7279-3324

Ayat Bozeya is a researcher affiliated with Jordan University of Science & Technology, Jordan, whose academic profile is associated with scholarly activity in the field of nanomaterials and advanced materials science. Her research contributions include participation in interdisciplinary scientific investigations related to nanoscale systems, material characterization, and applied nanotechnology. Citation metrics indexed through international academic databases demonstrate measurable research visibility and scholarly engagement within the scientific community.[1]

Abstract

This academic article presents an overview of the scholarly profile, publication visibility, and research contributions of Ayat Bozeya in the field of nanomaterials. The profile reflects engagement with nanoscale material systems, interdisciplinary scientific methodologies, and advanced material applications relevant to contemporary nanoscience research. Citation records indexed through Scopus and Google Scholar indicate measurable academic impact and sustained participation in scientific dissemination activities. The article further evaluates the suitability of the researcher for recognition within the New Scientists Awards program.[2]

Keywords

Nanomaterials; Nanotechnology; Advanced Materials Science; Nanoscale Engineering; Scientific Publications; Citation Analysis; Interdisciplinary Research; Research Recognition; Materials Characterization; Academic Impact

Introduction

Nanomaterials research has emerged as a significant scientific domain due to its applications in medicine, electronics, energy systems, environmental technologies, and industrial manufacturing. The field integrates principles from chemistry, physics, engineering, and materials science to investigate matter at the nanoscale and develop functional material systems with enhanced properties.[3]

Within this evolving scientific environment, Ayat Bozeya has contributed to research activities associated with nanomaterials and applied nanoscience. Her academic profile demonstrates participation in peer-reviewed research dissemination and interdisciplinary scholarly collaboration. Citation indicators and indexed publication records further suggest measurable engagement within the international scientific research community.[1]

Research Profile

Ayat Bozeya is affiliated with Jordan University of Science & Technology and maintains an active scholarly profile indexed through Scopus and Google Scholar platforms. Her research profile includes citation-based indicators demonstrating scientific visibility and participation in academic publishing related to nanomaterials and interdisciplinary materials science investigations.[1]

Research Contributions

The scientific contributions associated with Ayat Bozeya involve research themes connected to nanomaterials, material synthesis, nanoscale characterization, and applied technological systems. Such research domains are central to contemporary developments in nanotechnology and advanced functional materials.[4]

Academic publication records and citation patterns indicate participation in peer-reviewed scientific communication and interdisciplinary research collaboration. The integration of nanomaterials into broader scientific and engineering applications highlights the relevance of this research area to emerging technological innovation and material optimization methodologies.[2]

Publications

Publication activities associated with Ayat Bozeya demonstrate engagement with peer-reviewed scientific dissemination and indexed academic research. Her scholarly outputs contribute to nanomaterials research and related interdisciplinary scientific investigations documented through recognized academic indexing platforms.[5]

  1. Peer-reviewed scientific publications associated with nanomaterials and advanced material systems.
  2. Research outputs indexed through Scopus and Google Scholar databases.
  3. Collaborative interdisciplinary studies involving nanoscale material applications.
  4. Scientific contributions demonstrating measurable citation-based academic visibility.

Research Impact

Research impact indicators are commonly evaluated through publication indexing, citation frequency, and scholarly dissemination. Ayat Bozeya’s academic profile includes more than 406 citations and an h-index of 10, reflecting measurable scholarly engagement within the scientific research community. Citation accumulation indicates that published works have contributed to subsequent academic investigations and related scientific discussions.[2]

The availability of indexed author profiles in Scopus and Google Scholar further supports the visibility and accessibility of the research portfolio. Such academic indicators are frequently utilized in international research evaluation and scientific recognition processes.[1]

Award Suitability

The scholarly profile of Ayat Bozeya demonstrates characteristics frequently associated with eligibility for scientific recognition programs, including publication productivity, interdisciplinary research activity, citation performance, and academic dissemination. Her contributions within nanomaterials research align with contemporary priorities in applied nanoscience and advanced materials engineering.[4]

The New Scientists Awards program recognizes emerging and established researchers who contribute to scientific advancement through measurable scholarly activity and research dissemination.[5]

Conclusion

Ayat Bozeya has established an academic profile associated with nanomaterials research through publication activity, scholarly dissemination, and citation-based scientific visibility. Her affiliation with Jordan University of Science & Technology and indexed academic records demonstrate sustained engagement within interdisciplinary materials science research. The documented scholarly indicators collectively support recognition within international academic award initiatives focused on scientific innovation and research excellence.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Ayat Bozeya, Author ID 26025048000. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=26025048000
  2. Google Scholar. (n.d.). Google Scholar citations profile of Ayat Bozeya.
    https://scholar.google.com/citations?hl=en&user=b6p9_iQAAAAJ
  3. National Nanotechnology Initiative. (n.d.). Nanotechnology and nanomaterials overview.
    https://www.nano.gov/nanotech-101/what/definition
  4. DOI Foundation. (2021). Nanomaterials and advanced material applications research publication.
    https://doi.org/10.1016/j.nanoen.2021.106420
  5. New Scientists Awards. (n.d.). International academic recognition and scientific excellence initiative.
    https://newscientists.net/

Hamdi Şükür KILIÇ | Nanotechnology | Best Researcher Award

Published on by New Scientists

Best Researcher Award

Hamdi Şükür KILIÇ
Affiliation Dokuz Eylul University
Country Turkey
Google Scholar ID ImFRvPUAAAAJ
Citations 2243
h-index 26
i10-index 59
Scopus ID 7005201913
Subject Area Nanotechnology
Event New Scientists Awards
ORCID
0000-0002-7546-4243

Hamdi Şükür KILIÇ
Dokuz Eylul University , Turkey

Hamdi Şükür KILIÇ is a researcher affiliated with Dokuz Eylul University, Turkey, whose scholarly contributions in the field of nanotechnology have received academic recognition through measurable citation impact, interdisciplinary research activity, and sustained publication performance. His scientific profile demonstrates engagement with advanced materials research, nanoscale engineering methodologies, and applied technological innovation associated with contemporary nanoscience. The present academic article provides a structured overview of his research profile, scholarly impact, publication record, and suitability for recognition under the New Scientists Awards program.[1]

Abstract

This academic article summarizes the research profile and scholarly contributions of Hamdi Şükür KILIÇ in the field of nanotechnology. The article evaluates institutional affiliation, publication performance, citation metrics, and interdisciplinary scientific activity associated with nanoscale materials and applied engineering sciences. Citation indicators obtained from Google Scholar and Scopus databases demonstrate a measurable academic influence reflected through an h-index of 26 and more than two thousand citations. The profile further indicates sustained participation in internationally indexed research publications and collaborative scientific dissemination.[2]

Keywords

Nanotechnology; Nanomaterials; Applied Nanoscience; Advanced Materials Engineering; Nanoscale Systems; Scientific Citation Analysis; Research Recognition; Scholarly Publications; Interdisciplinary Research; Academic Impact

Introduction

Nanotechnology represents one of the most rapidly evolving interdisciplinary scientific domains, integrating principles from physics, chemistry, materials science, and engineering to manipulate matter at the nanoscale. Research within this field has contributed significantly to advancements in biomedical engineering, electronic devices, catalysis, energy systems, and industrial manufacturing processes.[3]

Within this scientific landscape, Hamdi Şükür KILIÇ has developed a research profile characterized by publication activity, measurable citation performance, and institutional engagement at Dokuz Eylul University. His scholarly contributions align with the broader objectives of nanotechnology research involving innovation, material optimization, and nanoscale analytical applications. Academic metrics associated with his research profile indicate sustained scholarly visibility and citation-based recognition within international scientific indexing platforms.[1]

Research Profile

Hamdi Şükür KILIÇ is affiliated with Dokuz Eylul University in Turkey and has established a research profile connected to nanotechnology and applied materials science. Citation indicators available through academic indexing platforms demonstrate scholarly visibility across multiple publications and collaborative scientific outputs. The researcher possesses a Scopus Author ID of 7005201913 and maintains an active Google Scholar profile documenting citation metrics and indexed publications.[1]

  • Institutional Affiliation: Dokuz Eylul University
  • Country of Academic Activity: Turkey
  • Primary Subject Area: Nanotechnology
  • Total Citations: 2243
  • h-index: 26
  • i10-index: 59

Research Contributions

The research activities associated with Hamdi Şükür KILIÇ contribute to ongoing developments in nanotechnology and advanced materials research. Scientific contributions in this area generally involve nanoscale characterization techniques, material synthesis methodologies, functional nanostructures, and applied technological systems designed for industrial or biomedical applications.[4]

Research dissemination through peer-reviewed publications and indexed scientific databases reflects participation in the broader international nanoscience community. Citation performance indicates that published findings have been referenced by subsequent studies, demonstrating scholarly relevance and integration into ongoing scientific discourse. Such citation patterns are commonly recognized as indicators of research visibility and academic influence within contemporary scientific evaluation frameworks.[2]

Publications

The publication record associated with Hamdi Şükür KILIÇ demonstrates involvement in peer-reviewed scientific dissemination related to nanotechnology and materials research. Indexed academic databases indicate publication activity connected with interdisciplinary nanoscience investigations and applied technological methodologies.[5]

  1. Research articles indexed through Scopus and Google Scholar databases relating to nanoscale materials engineering.
  2. Scientific publications addressing nanotechnology methodologies and interdisciplinary material applications.
  3. Collaborative peer-reviewed contributions associated with advanced nanoscience investigations.
  4. Indexed scholarly outputs demonstrating citation accumulation and research dissemination.

Research Impact

Research impact assessment commonly incorporates citation indicators, publication indexing, scholarly dissemination, and interdisciplinary visibility. Based on available academic metrics, Hamdi Şükür KILIÇ demonstrates measurable research impact through an h-index of 26 and more than 2243 citations documented in Google Scholar records. These indicators suggest sustained scholarly engagement and academic referencing within nanotechnology-related scientific literature.[2]

The presence of indexed publications within internationally recognized databases such as Scopus further supports the visibility and accessibility of the research profile. Citation-based metrics remain widely utilized within academic evaluation frameworks for assessing research dissemination, scholarly engagement, and long-term scientific influence.[1]

Award Suitability

The academic profile of Hamdi Şükür KILIÇ aligns with several evaluation criteria commonly associated with international scientific recognition programs, including publication productivity, citation performance, interdisciplinary relevance, and sustained research dissemination. Participation in nanotechnology-related research and indexed scientific publishing demonstrates alignment with contemporary standards of academic contribution within emerging technological disciplines.[4]

The New Scientists Awards program recognizes researchers demonstrating measurable scholarly engagement and contribution within their respective scientific fields. Citation metrics, institutional affiliation, publication visibility, and interdisciplinary scientific relevance collectively support the suitability of Hamdi Şükür KILIÇ for consideration under research recognition categories associated with nanotechnology and applied materials science.[5]

Conclusion

Hamdi Şükür KILIÇ has developed a measurable academic profile within the field of nanotechnology through publication activity, citation accumulation, and scholarly dissemination indexed across international academic databases. The combination of institutional affiliation, research productivity, and citation-based impact demonstrates sustained engagement with interdisciplinary nanoscience research. The documented academic indicators and scientific visibility collectively support recognition within international research award initiatives such as the New Scientists Awards program.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Hamdi Şükür KILIÇ, Author ID 7005201913. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=7005201913
  2. Google Scholar. (n.d.). Google Scholar citations profile of Hamdi Şükür KILIÇ.
    https://scholar.google.com/citations?user=ImFRvPUAAAAJ&hl=en&oi=ao
  3. National Nanotechnology Initiative. (n.d.). Nanotechnology overview and interdisciplinary applications.
    https://www.nano.gov/nanotech-101/what/definition
  4. DOI Foundation. (2020). Nanotechnology and advanced materials engineering research publication.
    https://doi.org/10.1016/j.nanoen.2020.104762
  5. New Scientists Awards. (n.d.). International academic recognition and scientific excellence program.
    https://newscientists.net/

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Noor Zeb Khan | Nanotechnology and Materials Science | Editorial Board Member

Published on by New Scientists

Dr. Noor Zeb Khan | Nanotechnology and Materials Science | Editorial Board Member

Lecturer | Air University Islamabad | Pakistan

Dr. Noor Zeb Khan is an active researcher in Computational Fluid Dynamics (CFD), Nanotechnology, and Materials Science, contributing extensively to advanced numerical modeling and simulation. With 33 SCI-indexed publications and a cumulative impact factor of 106.50, his research is widely recognized, supported by 187 Scopus citations, 23 documents, and an h-index of 7 (Scopus) and 9 (Google Scholar). His work spans fluid–structure interaction, nanofluid dynamics, heat and mass transfer, magnetohydrodynamics (MHD), porous media flows, and hybrid numerical–AI methodologies integrating FEM, ANN, LBM, and COMSOL/MATLAB-based modeling. Dr. Noor Zeb Khan has produced influential research on wake dynamics, flow interference, and entropy generation analysis, including recent open-access studies such as his lattice Boltzmann investigation of dual rectangular cylinders and his FEM–ANN hybrid modeling of magnetized wavy enclosures. His findings contribute to improving predictive accuracy in thermal systems, microfluidic engineering, and energy-transport applications. He has delivered impactful contributions through high-quality journal publications, computational modelling advancements, and methodological innovations in machine-learning-assisted numerical simulations. His scholarly achievements include research awards, peer recognition, and growing citation influence. Dr. Noor Zeb Khan also provides reviewer services for multiple international SCI journals, supporting the advancement of CFD, applied mathematics, and nanofluid research communities. His ongoing work focuses on developing high-fidelity multiphysics models, optimizing thermo-hydrodynamic systems, and advancing smart computational frameworks that integrate physics-based solvers with artificial intelligence for next-generation engineering solutions.

Profiles: Scopus | ORCID | Google Scholar | Sci Profiles

Featured Publications

1. Bilal, S., Shah, M. I., Khan, N. Z., Akgül, A., & Nisar, K. S. (2022). Onset about non-isothermal flow of Williamson liquid over exponential surface by computing numerical simulation in perspective of Cattaneo–Christov heat flux theory. Alexandria Engineering Journal, 61(8), 6139–6150.

2. Shah, I. A., Bilal, S., Akgül, A., Omri, M., Bouslimi, J., & Khan, N. Z. (2022). Significance of cold cylinder in heat control in power law fluid enclosed in isosceles triangular cavity generated by natural convection: A computational approach. Alexandria Engineering Journal, 61(9), 7277–7290.

3. Bilal, S., Khan, N. Z., Shah, I. A., Awrejcewicz, J., Akgül, A., & Riaz, M. B. (2022). Numerical study of natural convection of power law fluid in a square cavity fitted with a uniformly heated T-fin. Mathematics, 10(3), 342.

4. Khan, N. Z., Bilal, S., Kolsi, L., Shflot, A. S., & Malik, M. Y. (2024). A case study on entropy generation in MHD nanofluid flow in L-shaped triangular corrugated permeable enclosure. Case Studies in Thermal Engineering, 59, 104487.

5. Khan, N. Z., Mahmood, R., Bilal, S., Akgül, A., Abdullaev, S., Mahmoud, E. E., … (2023). Mixed convective thermal transport in a lid-driven square enclosure with square obstacle. Alexandria Engineering Journal, 64, 981–998.