Ahmed Naji Abd | Nanomaterials | Best Paper Award

Published on by Applied Scientist

Best Paper Award

Ahmed Naji Abd
Physics Department, College of Science, Mustansiriyah University, Iraq
Ahmed Naji Abd
Affiliation Physics Department, College of Science, Mustansiriyah University
Country Iraq
Scopus ID 56183076600
Documents 118
Citations 870
h-index 17
Subject Area Nanomaterials
Event Applied Scientist Awards
ORCID 0000-0003-0569-9650

Ahmed Naji Abd is an academic researcher affiliated with the Physics Department, College of Science, Mustansiriyah University, Iraq. His scholarly activities are associated with nanomaterials research, applied physics, and interdisciplinary scientific studies that contribute to the advancement of materials science and applied scientific innovation. His publication record indexed in Scopus demonstrates sustained engagement in peer-reviewed research dissemination and scientific collaboration across multiple domains of nanotechnology and applied materials science.[1] The recognition of his contributions through consideration for the Best Paper Award reflects both the quality and continuity of his academic output within international scientific communities.[2]

Abstract

Ahmed Naji Abd in recognition of his scholarly contributions associated with nanomaterials research and applied scientific investigations. His publication portfolio demonstrates active participation in internationally indexed research dissemination and interdisciplinary scientific collaboration. Through peer-reviewed publications, citation impact, and continuous engagement in materials science research, Ahmed Naji Abd has contributed to the broader understanding of nanotechnology applications and related scientific methodologies.[1] The present profile evaluates his academic background, research contributions, publication activities, and suitability for recognition under the Best Paper Award category associated with the Applied Scientist Awards program.[4]

Keywords

Nanomaterials, Applied Physics, Materials Science, Scientific Publications, Research Impact, Nanotechnology, Scopus Author Profile, Applied Scientist Awards, Citation Analysis, Academic Recognition

Introduction

Nanomaterials research has become a major area of scientific inquiry due to its applications in physics, chemistry, engineering, medicine, and industrial innovation. Researchers working in this field contribute to advancements in material synthesis, characterization, and functional applications that influence modern technological development.[3]

The increasing importance of citation metrics, publication quality, and interdisciplinary collaboration has positioned researchers such as Ahmed Naji Abd within broader scientific evaluation systems used by universities, indexing agencies, and academic award organizations.[2]

Research Profile

Ahmed Naji Abd is affiliated with the Physics Department, College of Science, Mustansiriyah University in Iraq. His research profile reflects scholarly engagement in nanomaterials and associated scientific disciplines, supported by publications indexed in Scopus and other academic platforms.[1] The author profile indicates the publication of 118 documents with a citation count exceeding 870 citations and an h-index of 17, reflecting measurable scholarly visibility and research impact.[1]

His academic activities involve participation in peer-reviewed publishing, collaborative scientific research, and contributions to applied scientific investigations relevant to nanotechnology and materials science. The integration of theoretical analysis with practical scientific applications has contributed to the continuity and relevance of his research portfolio within international indexing systems.[5]

Research Contributions

Ahmed Naji Abd include investigations connected to nanomaterials, applied physical sciences, and interdisciplinary scientific methodologies. His published studies contribute to understanding the synthesis, analysis, and performance of advanced materials within scientific and technological contexts.[3]

Scientific contributions within nanomaterials research frequently involve experimental validation, characterization techniques, and performance evaluation of material systems for industrial and academic applications. The continuity of Ahmed Naji Abd’s publication activities indicates sustained participation in this evolving research field.[5] Such contributions align with contemporary priorities in applied sciences and interdisciplinary innovation.

Publications

Ahmed Naji Abd has contributed to multiple peer-reviewed publications indexed in international scholarly databases. His publication record demonstrates engagement with scientific topics relevant to nanotechnology, materials science, and applied physics.[1] Representative publication themes include nanomaterial characterization, applied material engineering, and interdisciplinary experimental research methodologies.

  • Research articles indexed in Scopus related to nanomaterials and applied scientific studies.
  • Collaborative publications addressing interdisciplinary materials science applications.
  • Scientific contributions involving experimental analysis and advanced material evaluation methodologies.
  • Publications contributing to citation visibility and international academic dissemination.

Research Impact

Ahmed Naji Abd is reflected through citation indicators, publication continuity, and indexed scholarly visibility. Citation metrics serve as one indicator of research dissemination and academic engagement within scientific communities.[1] An h-index of 17 suggests that multiple publications have achieved measurable citation influence within the fields of nanomaterials and applied scientific research.

The international accessibility of his publications through academic indexing platforms contributes to broader scientific communication and interdisciplinary collaboration. Such visibility supports institutional recognition, academic networking, and continued participation in global scientific discussions relevant to materials science and applied physics.[2]

Award Suitability

Ahmed Naji Abd demonstrates several characteristics associated with eligibility for the Best Paper Award under the Applied Scientist Awards framework. These characteristics include an established publication profile, measurable citation impact, interdisciplinary research engagement, and contributions to nanomaterials-related scientific studies.[4]

The consistency of his scholarly output and participation in internationally indexed research activities indicate continued academic engagement and scientific productivity. Recognition through an academic award would acknowledge his contribution to applied scientific advancement and support the visibility of ongoing research initiatives within Iraq and the broader international scientific community.[5]

Conclusion

Ahmed Naji Abd represents an active academic contributor within the field of nanomaterials and applied scientific research. His scholarly profile, publication metrics, and interdisciplinary scientific engagement demonstrate measurable research visibility and academic continuity. Through peer-reviewed publications and collaborative scientific contributions, he has participated in advancing materials science research within international scholarly environments.[1] The Best Paper Award recognition framework aligns with the broader objective of acknowledging sustained scientific contributions and promoting excellence in applied research disciplines.

References

  1. Elsevier. (n.d.). Scopus author details: Ahmed Naji Abd, Author ID 56183076600. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=56183076600
  2. Ahmed N.Abd,. et al. Journal of Gene c and Environmental Resources Conservation (2017). Plants extracts as green synthesis of zirconium oxide nanoparticles.
    researchgate.net
  3. Ahmed N.Abd,. et al. ournal of Multidisciplinary Engineering Science and Technology (2016). Antibacterial Activity Of Cadmium Oxide Nanoparticles Synthesized By Chemical Method.
    https://chalcogen.ro/1Dubey.pdf
  4. Ahmed N.Abd,. et al. Silicon (2016). Fabrication and characterization of a p-AgO/PSi/n-Si heterojunction for solar cell applications.
    https://link.springer.com/article/10.1007/s12633-016-9457-1
  5. Ahmed Naji Abd. et al. Int. J. Thin Films Sci. Technol (2018). Synthesis of CdO NPs for antimicrobial activity.
    https://www.naturalspublishing.com/download.asp?ArtcID=11545

M. R. Rajan | Nanoparticles | Excellence in Research Award

Published on by Applied Scientist

Prof. Dr. M. R. Rajan | Nanoparticles | Excellence in Research Award

The Gandhigram Rural Institute- Deemed to be University | India

Prof. Dr. M. R. Rajan is a distinguished researcher whose work spans aquaculture toxicology, green nanotechnology, environmental biotechnology, and fish health management. His research primarily explores the synthesis, characterization, and safe application of diverse metal and metal oxide nanoparticles—including selenium, silver, copper oxide, manganese oxide, magnesium oxide, chromium oxide, aluminum oxide, zinc oxide, carbon quantum dots, and graphene quantum dots—and their physiological impacts on numerous freshwater fish species. A major focus of his work is the incorporation of nanoparticles into fish diets to enhance growth performance, haematological and biochemical responses, antioxidant activity, and overall aquatic health, helping advance the emerging field of nanonutrition. He contributes significantly to the development of green-synthesized nanoparticles using plant extracts and waste-derived materials, assessing their antibacterial, larvicidal, and biomedical potentials, as well as their suitability for aquaculture applications. His studies also address key environmental challenges, including wastewater toxicity, tannery effluent pollution, and eco-friendly remediation strategies, while other works explore the role of probiotic gut microbiota in improving fish immunity and disease resistance. With 44 scientific publications and more than 220 citations, Prof. Dr. M. R. Rajan research offers valuable insights into sustainable aquaculture practices, nanoparticle biosafety, environmental health, and innovative nanobiotechnological solutions for aquatic systems.

Profile: Scopus

Featured Publications

  • Varghese Edwin Hillary, V., Dayana Senthamarai, M., Antony Ceasar, A., Ignacimuthu, S., & Rajan, M. R. (2025). Characterization of a silver nanoparticle derived from the fruit peel of Myristica fragrans on mosquito control. International Journal of Tropical Insect Science.

  • Dayana Senthamarai, M., Edwin Hillary, V., Rajan, M. R., & Antony Ceasar, A. (2025). Phyto-synthesis of selenium nanoparticles using Mentha spicata extract and its larvicidal and antibacterial activities. Journal of Asia-Pacific Entomology, 28(1), 102370.

  • Malavika, V., Rajan, M. R., Soundhariya, N., Prethika, J., & Chandrakala, V. (2025). Comparative evaluation of chemically and green-synthesised carbon quantum dots for aquatic applications. Journal of Environmental Nanotechnology, 14(3), 505–515.

  • Chinnadurai Kaleeswaran, M., Dayana Senthamarai, M., & Rajan, M. R. (2024). Evaluation of disparate multiplicities of copper oxide nanoparticles integrated feed on the growth and hematology of koi carp. Journal of Toxicological Studies, 2(1), 497.

  • Dayana Senthamarai, M., Rekha, M., & Rajan, M. R. (2024). Incorporation of nano selenium in fish diet and assessment of growth performance and biochemical criteria of Labeo rohita. Journal of Environmental Nanotechnology, 13(1), 01–09.*

 

Vladimir Chigrinov | Nanotechnology Innovations | Best Paper Award

Published on by Applied Scientist

Prof. Dr. Vladimir Chigrinov | Nanotechnology Innovations | Best Paper Award

Hong Kong University of Science and Technology | Russia

Prof. Dr. Vladimir G. Chigrinov is a distinguished scientist and Professor Emeritus in the Department of Electronic and Computer Engineering at the Hong Kong University of Science and Technology (HKUST). Renowned worldwide for his groundbreaking contributions to liquid crystal science and electro-optical technology, he has played a pivotal role in advancing photoalignment, photopatterning, and ferroelectric liquid crystal (FLC) research. His pioneering work has led to the development of innovative liquid crystal display (LCD) configurations, optically rewritable electronic paper, and adaptive photonic devices. Prof. Dr. Chigrinov’s research spans electro-optical effects in liquid crystals, surface alignment mechanisms, and modeling and optimization of liquid crystal device performance, contributing fundamentally to both theory and application in display and photonic technologies. He has authored or co-authored over 470 scientific publications, with a remarkable 19,312 citations, an h-index of 63, and an i10-index of 298, reflecting his profound global research impact. His studies have enabled major advances in fast-switching display technologies, tunable optical systems, and energy-efficient photonic elements, effectively bridging the gap between fundamental physics and modern engineering applications. Through extensive international collaborations, Prof. Dr. Chigrinov continues to lead innovation in liquid crystal photonics, smart optical materials, and next-generation display technologies, cementing his reputation as one of the foremost authorities in liquid crystal physics and device engineering.

Profiles: Google Scholar | Scopus | Orcid

Featured Publications

  • Schadt, M., Schmitt, K., Kozinkov, V., & Chigrinov, V. G. (1992). Surface-induced parallel alignment of liquid crystals by linearly polymerized photopolymers. Japanese Journal of Applied Physics, 31(7 R), 2155–2164.

  • Blinov, L. M., & Chigrinov, V. G. (1994). Electrooptic effects in liquid crystal materials. Springer.

  • Chigrinov, V. G., Kozenkov, V. M., & Kwok, H.-S. (2008). Photoalignment of liquid crystalline materials: Physics and applications. Wiley.

  • Chigrinov, V. G. (1999). Liquid crystal devices: Physics and applications. Artech House.

  • Kiselev, A. D., Pozhidaev, E. P., & Chigrinov, V. G. (2019). Polarization gratings and electro-optics of deformed helix ferroelectric liquid crystals. Photonics Letters of Poland, 11(1), Article 182.