Jose Vázquez Tato | Nanotechnology | Best Review Paper Award

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Best Review Paper Award

Jose Vázquez Tato
University of Santiago de Compostela , Spain
                      Jose Vázquez Tato
Affiliation University of Santiago de Compostela
Country Spain
Scopus ID 55665241800
Documents 103
Citations 3,092
h-index 28
Subject Area Nanotechnology
Event New Scientists Awards

Jose Vázquez Tato is a researcher associated with the University of Santiago de Compostela whose scholarly work has contributed to the advancement of nanotechnology and related interdisciplinary scientific fields. Through a substantial publication portfolio and a notable citation record, his research has supported the dissemination of scientific knowledge, innovation, and academic collaboration across multiple domains of materials science and nanoscale engineering.[1]

Abstract

This article presents an academic overview of Jose Vázquez Tato and his scholarly contributions within nanotechnology. The profile highlights his research activities, publication record, scientific impact, and suitability for recognition through the Best Review Paper Award. His body of work reflects sustained engagement in scientific inquiry and knowledge dissemination through peer-reviewed publications and collaborative research efforts.[2]

Keywords

Nanotechnology, Nanomaterials, Materials Science, Scientific Publications, Research Impact, Review Papers, Citation Analysis, Academic Excellence.

Introduction

Nanotechnology remains one of the most influential scientific disciplines of the twenty-first century, driving innovations across healthcare, energy, electronics, and environmental sustainability. Researchers who contribute authoritative review papers play a critical role in consolidating knowledge, identifying emerging trends, and guiding future investigations. Jose Vázquez Tato’s publication record demonstrates active participation in these scholarly endeavors.[3]

Research Profile

Affiliated with the University of Santiago de Compostela, Jose Vázquez Tato has developed a research profile characterized by interdisciplinary scientific engagement and a substantial publication output. With more than one hundred indexed documents and an h-index of 28, his scholarly contributions have achieved significant visibility within the academic community.[1]

Research Contributions

  • Advancement of nanotechnology-related research through peer-reviewed scientific publications.
  • Contribution to review literature that synthesizes complex scientific findings.
  • Support for interdisciplinary collaboration across chemistry, materials science, and nanoscience.
  • Promotion of evidence-based scientific understanding and future research directions.

Publications

The researcher has authored and co-authored more than 103 scholarly documents indexed in Scopus. These publications include original research articles, reviews, and collaborative studies that have contributed to the broader scientific literature. The citation count exceeding 3,000 reflects sustained academic engagement and scholarly recognition.[1]

Research Impact

Research impact can be assessed through citation metrics, publication quality, and influence on subsequent investigations. Jose Vázquez Tato’s citation profile demonstrates that his work has been referenced extensively by other researchers, indicating relevance and continued utilization within the scientific community.[4]

Award Suitability

The Best Review Paper Award recognizes researchers whose publications provide meaningful synthesis of scientific knowledge and support the advancement of their respective disciplines. Based on his publication record, citation performance, and engagement with nanotechnology research, Jose Vázquez Tato demonstrates characteristics commonly associated with scholarly excellence and academic influence.[5]

Conclusion

Jose Vázquez Tato’s academic record reflects sustained contributions to nanotechnology and related scientific disciplines. His extensive publication portfolio, substantial citation impact, and commitment to scientific communication position him as a notable contributor within the research community. The profile illustrates the scholarly achievements that support consideration for recognition through the Best Review Paper Award.

References

  1. Elsevier. (n.d.). Scopus author details: Jose Vázquez Tato, Author ID 55665241800. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=55665241800
  2. National Nanotechnology Initiative. (n.d.). Nanotechnology Research and Development.
    https://www.nano.gov
  3. European Commission. (n.d.). Research and Innovation in Nanoscience.
    https://research-and-innovation.ec.europa.eu
  4. DOI Foundation. (n.d.). Digital Object Identifier System.
    https://doi.org/10.1016/j.nano.2020.102123
  5. New Scientists Awards. (n.d.). Award Evaluation and Recognition Framework.
    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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Jahangeer Khan | Nanotechnology and Materials Science | Research Excellence Award

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Dr. Jahangeer Khan | Nanotechnology and Materials Science | Research Excellence Award

Post Doctoral Researcher (MSCA-Cofund) | Institute of Physics of the Czech Academy of Sciences, Czech Centre for Phenogenomics | Czech Republic

Dr. Jahangeer Khan is an active researcher in advanced materials and next-generation photovoltaic technologies, with a strong focus on metal oxide nanoparticles, quantum dots, perovskite materials, and solution-processable solar cell architectures. His research contributions span nanomaterial synthesis, thin-film engineering, charge transport optimization, and device performance enhancement, resulting in publications in reputable, high-impact journals. He has contributed to peer review and editorial activities and has been involved in collaborative and funded research projects addressing sustainable energy technologies. According to Google Scholar, his research output includes 19 scholarly documents with 2,260 citations, an h-index of 17, and an i10-index of 17, reflecting consistent impact and recognition within the scientific community.

Citation Metrics (Google Scholar)

2500

2000

1500

1000

500

0

Citations
2260

Documents
19

h-index
17

i10index
17

Citations

Documents

h-index

i10-index

View Scopus Profile  View ORCID Profile  View Google Scholar  View ResearchGate

Featured Publications

Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

Published on by New Scientists

Dr. Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

Assistant Research Fellow | Beihang University | China

Dr. Peijia Bai is an emerging materials scientist whose research significantly advances high-efficiency thermal management, electrothermal conversion, and radiative cooling technologies. His work centers on electrocaloric materials and devices, ultrafast-response phase-change materials (PCMs), thermal system design, and protective color radiative-cooling coatings. With a strong focus on bridging fundamental materials science with practical applications, he has contributed to establishing next-generation energy-efficient cooling strategies and improving heat-dissipation performance for electronic and aerospace systems. Dr. Peijia Bai has published more than 30 peer-reviewed journal articles across leading platforms including Advanced Materials, Nature Communications, Science, and Joule, with over 812 Scopus citations, 24 documents and an h-index of 14. His publications include more than 10 papers as first or corresponding author, highlighting his prominent role in driving independent innovations. He has also contributed to one research monograph and authored multiple high-impact conference papers that extend his work to global scientific communities. A major contribution of his research is the development of a standardized electrothermal-effect measurement protocol, which has been widely adopted by both academia and industry. This standardized method has been cited extensively in top-tier journals and is now considered an important benchmark for evaluating electrothermal device performance. His work has also yielded seven patented technologies covering thermal-functional materials and device architectures, demonstrating strong translational potential. Dr. Peijia Bai has led and contributed to multiple funded research projects related to thermal management materials, advanced cooling devices, and energy-conversion technologies. His innovations have earned him the prestigious SAMPE International Award and recognition within professional societies such as the Zhejiang Society for Materials Progress. He also serves on the young editorial boards of cScience and Renewable and Sustainable Energy, reflecting his growing influence in the field. Dr. Peijia Bai’s research continues to advance innovative thermal strategies, contributing impactful solutions for sustainable energy technologies, aerospace materials, and advanced electronic systems.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

1. Bai, P., Yang, Q., & Yu, S. (2025). Electrocaloric refrigeration utilizing lead-free multilayer ceramics with high heat transfer efficiency. Applied Thermal Engineering. https://doi.org/10.1016/j.applthermaleng.2025.128927

2. Bai, P., Yang, Q., & Yu, S. (2025). Integration of efficient photothermal and flexible solid-solid PCM for personal thermoregulation in cold environments. iScience. https://doi.org/10.1016/j.isci.2025.114032

3. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhang, D., & Ma, R. (2025). Flexible electrocaloric polymer stack driven by one AA battery for highly efficient personalized thermoregulation. Nano Letters, 25. https://doi.org/10.1021/acs.nanolett.5c03730

4. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhou, Z., Zhang, D., & Ma, R. (2025). Highly efficient cooling via synergistic electro‐thermal phase changes. Advanced Materials. https://doi.org/10.1002/adma.202506006

5. Ma, W., Liu, X., Yang, T., Wang, J., Qiu, Z., Cai, Z., Bai, P., Ji, X., & Huang, Y. (2025). Strong magnetic–dielectric synergistic gradient metamaterials for boosting superior multispectral ultra‐broadband absorption with low‐frequency compatibility. Advanced Functional Materials. https://doi.org/10.1002/adfm.202314046

Ntakadzeni Madima | Nanotechnology | Best Researcher Award

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Dr. Ntakadzeni Madima | Nanotechnology | Best Researcher Award

Dr. Ntakadzeni Madima is a dedicated research scientist with strong expertise in nanotechnology, photocatalysis, energy storage, and environmental remediation. He has extensive experience in the synthesis and application of advanced functional materials for clean energy and water treatment solutions. His work has led to the development of innovative electrode materials for high-performance batteries and efficient photocatalysts for water purification. Dr. Madima has contributed to both academic and industrial sectors and is recognized for his strong analytical capabilities, collaborative research, and mentorship of early-career scientists. He has published several peer-reviewed articles in respected international journals.

Publication Profile

Scopus

Orcid

Google Scholar

Educational Details

  • Ph.D. in Science, Engineering and Technology, University of South Africa, Roodepoort (2023)
    Thesis: Titanium Dioxide-based Heterojunction Photocatalysts for the Remediation of Organic and Inorganic Pollutants in Water

  • M.Sc. in Nanoscience, University of Johannesburg, Johannesburg (2017)
    Dissertation: Molybdenum Sulfide Nanostructures: Synthesis and Their Catalytic Applications

  • B.Sc. Honours in Physics (with Distinction), University of Limpopo, Polokwane (2015)

  • B.Sc. in Chemistry and Physics, University of Limpopo, Polokwane (2014)

Professional Experience

Postdoctoral Fellow – MINTEK
Randburg, South Africa | Nov 2023 – Present

  • Leading research in the development of advanced electrode materials for high-performance energy storage applications.

  • Enhancing battery performance with a focus on energy density and cycling stability.

  • Collaborating with interdisciplinary teams on commercialization of battery materials.

  • Mentoring junior researchers and providing strategic input on experimental design and data analysis.

Laboratory Analyst – SUNPHARMA
Johannesburg, South Africa | Jul 2017 – May 2018

  • Conducted analytical testing on pharmaceutical products, including dissolution, disintegration, and assay evaluations.

  • Utilized HPLC, UV-Vis, FTIR, GC, and Atomic Absorption Spectroscopy (AAS) for quality assurance.

  • Maintained detailed documentation and reported findings to management.

  • Ensured lab safety and compliance with standard protocols.

Junior Laboratory Assistant – University of Johannesburg
Johannesburg, South Africa | Jan 2016 – Dec 2016

  • Delivered practical sessions and tutorials in various chemistry disciplines.

  • Prepared lab materials and ensured proper functioning and maintenance of equipment.

  • Enforced strict adherence to lab safety procedures.

Junior Laboratory Assistant – University of Limpopo
Polokwane, South Africa | Jan 2013 – Dec 2014

  • Facilitated physics tutorials and practical sessions for undergraduates.

  • Set up and conducted laboratory experiments with a focus on student engagement and safety.

  • Provided academic support and feedback to improve student learning.

Research Interest

  • Nanotechnology for environmental and energy applications

  • Photocatalysis using titanium dioxide-based heterojunctions

  • Electrode materials for lithium-ion and next-generation batteries

  • Nanostructured catalysts for pollutant degradation

  • Analytical instrumentation and materials characterization

Author Metrics

  • Citations: 473

  • h-index: 8

  • i10-index: 8

Top Noted Publication

  1. Carbon-based nanomaterials for remediation of organic and inorganic pollutants from wastewater: A review

    • Authors: N. Madima, S.B. Mishra, I. Inamuddin, A.K. Mishra

    • Journal: Environmental Chemistry Letters

    • Volume: 18

    • Pages: 1169-1191

    • Year: 2020

    • Citations: 230

  1. Fabrication of magnetic recoverable Fe₃O₄/TiO₂ heterostructure for photocatalytic degradation of rhodamine B dye

    • Authors: N. Madima, K.K. Kefeni, S.B. Mishra, A.K. Mishra, A.T. Kuvarega

    • Journal: Inorganic Chemistry Communications

    • Volume: 145

    • Article Number: 109966

    • Year: 2022

    • Citations: 69

  1. TiO₂-modified g-C₃N₄ nanocomposite for photocatalytic degradation of organic dyes in aqueous solution

    • Authors: N. Madima, K.K. Kefeni, S.B. Mishra, A.K. Mishra

    • Journal: Heliyon

    • Volume: 8(9)

    • Article Number: e09746

    • Year: 2022

    • Citations: 65

  1. Visible-light-driven Z-scheme ternary Fe₃O₄/TiO₂/g-C₃N₄ nanocomposite as reusable photocatalyst for efficient removal of dyes and chromium in water

    • Authors: N. Madima, K.K. Kefeni, A.T. Kuvarega, S.B. Mishra, A.K. Mishra

    • Journal: Materials Chemistry and Physics

    • Volume: 296

    • Article Number: 127233

    • Year: 2023

    • Citations: 31

  1. PEGylated MoS₂ nanosheets: A dual functional photocatalyst for photodegradation of organic dyes and photoreduction of chromium from aqueous solution

    • Authors: M. Ntakadzeni, W.W. Anku, N. Kumar, P.P. Govender, L. Reddy

    • Journal: Bulletin of Chemical Reaction Engineering & Catalysis

    • Volume: 14(1)

    • Pages: 142-152

    • Year: 2019

    • Citations: 28

Conclusion

Dr. Ntakadzeni Madima is a highly deserving candidate for the Best Researcher Award due to his innovative contributions to nanotechnology, particularly in energy storage and environmental remediation. His work in the development of advanced electrode materials and photocatalysts is impactful and holds significant potential for addressing global challenges. While there is room to grow in terms of publication impact and citation metrics, Dr. Madima’s research capabilities, leadership, and mentorship qualities make him an excellent candidate for the award. His future prospects for advancing scientific knowledge and making meaningful contributions to both academia and industry are promising.