Amaechi Azi | Environmental Science | Research Excellence Award

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Research Excellence Award

Amaechi Azi – Universiti Sains Malaysia

Amaechi Azi
Affiliation Universiti Sains Malaysia
Country Nigeria
Scopus ID 60143782800
Documents 15
Citations 65
h-index 1
Subject Area Environmental Science
Event World Top Scientist Awards
ORCID 0000-0002-2783-4211
Google Scholar View Profile

The Research Excellence Award recognizes the scholarly contributions of Amaechi Azi in the field of environmental science, particularly focusing on atmospheric dynamics and air quality studies. His academic work has contributed to understanding aerosol interactions, particulate matter behavior, and environmental monitoring systems in developing and tropical regions. Through consistent research output, his work demonstrates a methodological approach to scientific inquiry supported by empirical data and modeling techniques [1].

Abstract

This article presents an overview of the research contributions of Amaechi Azi within environmental science. His work addresses critical atmospheric processes including aerosol optical depth variability and particulate matter distribution across climatic regimes. These investigations contribute to environmental modeling and policy development frameworks aimed at improving air quality and climate resilience [2].

Keywords

Aerosol Optical Depth, Environmental Science, Air Pollution, Atmospheric Modeling, PM2.5, Climate Variability, Fluid Dynamics.

Introduction

Environmental science research continues to evolve in response to global climate challenges and urbanization trends. Amaechi Azi’s work contributes to this field through analytical studies of atmospheric pollutants and environmental systems. His research integrates observational data with computational modeling to analyze environmental patterns over time [3].

Research Profile

Amaechi Azi is affiliated with Universiti Sains Malaysia and has contributed to environmental research through peer-reviewed publications and collaborative studies. His Scopus-indexed profile reflects a growing body of work focused on atmospheric sciences and environmental monitoring techniques. His ORCID record further validates his scholarly identity and research contributions [1].

Research Contributions

His research includes studies on fluid dynamics in bifurcated channels and atmospheric particulate analysis. These contributions provide insights into pollutant dispersion and environmental interactions across different geographic regions. His findings have relevance for environmental policy, engineering applications, and public health initiatives [4].

Publications

Amaechi Azi has contributed to peer-reviewed research focusing on environmental science and fluid dynamics, demonstrating a consistent engagement with atmospheric and hydrodynamic systems. His publication on aerosol optical depth variability explores long-term atmospheric interactions and highlights the relationship between precipitable water vapour and wavelength-dependent optical properties. This work provides important insights into climate variability and environmental monitoring using empirical data and statistical modeling techniques. The study is indexed in major scientific databases and contributes to ongoing research in atmospheric sciences and climate analysis [3].

Research Impact

The research contributions have influenced environmental monitoring approaches and improved understanding of pollutant behavior. His work supports interdisciplinary collaboration and enhances predictive models used in climate science. Although early in citation metrics, the work demonstrates foundational relevance in environmental studies [5].

Award Suitability

Amaechi Azi’s research aligns with the criteria of the World Top Scientist Awards by demonstrating innovation and relevance in environmental science. His interdisciplinary approach and focus on real-world environmental challenges support his recognition. The award reflects both academic merit and the broader societal importance of his work [3].

Conclusion

In summary, Amaechi Azi represents an emerging researcher contributing to environmental science through focused and applied research. His work addresses pressing environmental issues and contributes to global scientific understanding. Continued research development is expected to enhance both academic and practical impacts.

External Links

References

  1. Elsevier. Scopus author details: Amaechi Azi, Author ID 60143782800.
    https://www.scopus.com/authid/detail.uri?authorId=60143782800
  2. Azi, A.O., San, L.H. (2025). Variability of aerosol optical depth.
    https://doi.org/10.1016/j.scitotenv.2025.180754
  3. Egbo et al. (2022). Fluid flow analysis.
    https://journal.formosapublisher.org/index.php/eajmr/article/view/1606
  4. Azi et al. (2026). PM2.5 and PM10 dynamics.
    https://link.springer.com/article/10.1007/s41748-026-01202-7
  5. Azi et al. (2026). Air Pollution in Malaysia.
    https://link.springer.com/article/10.1007/s10653-026-03221-9

Havva Karahan | Plant Biotechnology | Research Excellence Award

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Research Excellence Award

Havva Karahan — Zonguldak Bülent Ecevit University

Research Profile
Affiliation Zonguldak Bülent Ecevit University
Country Turkey
Scopus ID 57223341606
Documents 7
Citations 7
h-index 2
Subject Area Plant Biotechnology
Event World Top Scientist Awards
ORCID 0000-0003-0518-6265

The Research Excellence Award recognizes outstanding academic contributions in plant biotechnology, highlighting impactful research and innovation. Havva Karahan, affiliated with Zonguldak Bülent Ecevit University, has demonstrated consistent scholarly engagement in plant tissue culture, secondary metabolite analysis, and nanoparticle biosynthesis. Her research reflects interdisciplinary integration within biological sciences, emphasizing sustainable and biotechnological applications[1]. This article provides an overview of her academic profile, research contributions, and recognition within the global scientific community.

Abstract

This article examines the academic contributions of Havva Karahan within the domain of plant biotechnology, emphasizing her research output and scientific relevance. Her work focuses on plant-based bioactive compounds, nanoparticle synthesis, and tissue culture methodologies. The study contextualizes her research within contemporary biological sciences and highlights the significance of interdisciplinary approaches. The recognition through international awards reflects her growing academic visibility and contribution to sustainable scientific practices[2].

Keywords

Plant biotechnology, nanoparticle synthesis, secondary metabolites, tissue culture, anthocyanin production, bioactivity analysis.

Introduction

Plant biotechnology has emerged as a critical discipline addressing agricultural sustainability and pharmaceutical innovation. Researchers such as Havva Karahan contribute to this field through experimental and applied research in plant-based systems. Her studies explore biochemical pathways, genetic variability, and in vitro production techniques. These approaches are essential for understanding plant-derived compounds and their applications in biotechnology[3].

Research Profile

Havva Karahan is a researcher based at Zonguldak Bülent Ecevit University, Turkey, specializing in biology and plant sciences. Her academic career includes extensive involvement in plant tissue culture and molecular analysis. She has contributed to peer-reviewed journals and collaborative research initiatives. Her ORCID profile documents her academic identity and research outputs across multiple scientific databases[1].

Research Contributions

Karahan’s contributions include the development of plant-mediated nanoparticle synthesis methods and the study of anthocyanin production. Her work on silver nanoparticles demonstrates their biological activity and potential applications in medicine and agriculture. Additionally, her research into secondary metabolites enhances understanding of plant-derived compounds. These contributions support innovation in biotechnology and environmental sustainability[2].

Publications

Her publications include studies on silver nanoparticle synthesis using Salvia species, anthocyanin production in Vaccinium cultures, and bioactive compounds in medicinal plants. These works are indexed in scientific databases and include DOI-referenced articles. Her research demonstrates methodological rigor and contributes to both fundamental and applied science. The diversity of her publications reflects a broad research scope within plant biotechnology[2].

Research Impact

The research impact of Havva Karahan is reflected in her citation metrics and interdisciplinary relevance. Her studies contribute to emerging areas such as nanobiotechnology and plant metabolomics. Despite a modest citation count, her work shows potential for future growth and wider academic recognition. Her contributions align with global scientific priorities focused on sustainable and innovative research practices[3].

Award Suitability

The Research Excellence Award acknowledges researchers demonstrating innovation, consistency, and academic contribution. Havva Karahan’s work meets these criteria through her focused research in plant biotechnology and interdisciplinary applications. Her inclusion in the World Top Scientist Awards reflects recognition of her scientific contributions. This award enhances her visibility and encourages continued research excellence in her field[1].

Conclusion

Havva Karahan represents an emerging scholar in plant biotechnology with a growing body of research contributions. Her work demonstrates relevance to contemporary scientific challenges and highlights the importance of interdisciplinary approaches. Recognition through academic awards underscores her contributions and potential for future impact. Continued research efforts are expected to expand her influence within the global scientific community[3].

External Links

References

  1. Elsevier. (n.d.). Scopus author details: Havva Karahan, Author ID 57223341606. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57223341606
  2. Karahan, H. et al. (2026). Plant-mediated synthesis of silver nanoparticles using Salvia tomentosa. Nanomaterials.https://doi.org/10.3390/nano16110679
  3. Karahan, H. et al. (2025). Anthocyanin production by callus culture of Vaccinium arctostaphylos L.https://doi.org/10.1007/s11627-024-10443-y
  4. Karahan, H. et al. (2023). Silver nanoparticles production mediated by Trifolium pratense L.: Characterization and biological activity. Acta Agrobotanica.https://doi.org/10.5586/aa.765
  5. Karahan, H. et al. (2023). Callus production and analysis of isoflavonoids and terpenes from Bituminaria bituminosa. Legume Research.https://doi.org/10.18805/LRF-703

Abd El-Latif Hesham | Agricultural and Biological Sciences | Best Paper Award

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Best Paper Award

Abd El-Latif Hesham-Beni-Suef University

Abd El-Latif Hesham
Affiliation Beni-Suef University
Country Egypt
Scopus ID 14035479000
Documents 2873
Citations 3169
h-index 31
Subject Area Agricultural and Biological Sciences
Event World Top Scientist Awards
ORCID View Profile

Prof. Abd El-Latif Hesham is a distinguished academic researcher in microbial genetics and environmental biotechnology, currently serving at Beni-Suef University in Egypt. His extensive academic journey, research output, and international collaborations have contributed significantly to advancements in agricultural and biological sciences. His scholarly work is widely recognized across multiple scientific disciplines, particularly in biodegradation, soil microbiology, and environmental meta-genome biotechnology [1].

Abstract

This article presents an academic overview of Prof. Abd El-Latif Hesham in recognition of his contributions to scientific research and his eligibility for the Best Paper Award. His work spans environmental biotechnology, microbial genetics, and sustainable agricultural practices, demonstrating interdisciplinary excellence and consistent scholarly productivity. His research outputs include numerous high-impact publications and collaborative projects addressing global environmental challenges [2].

Keywords

Microbial Genetics, Biotechnology, Environmental Science, Agricultural Sustainability, Meta-Genome, Research Impact

Introduction

The recognition of scientific excellence through awards such as the Best Paper Award is critical in promoting impactful research and innovation. Prof. Hesham’s academic career reflects a commitment to advancing microbial biotechnology through experimental and applied research. His contributions align with global efforts to address environmental sustainability and agricultural productivity challenges [3].

Research Profile

Prof. Hesham serves as a full professor and dean at the Faculty of Agriculture, Beni-Suef University. His academic training includes a PhD from the Chinese Academy of Sciences in environmental meta-genome biotechnology. He has held multiple academic positions and participated in international collaborations, contributing to both research and academic leadership [1].

Research Contributions

His research contributions include advancements in biodegradation, biofertilizers, microbial community analysis, and environmental genomics. He has significantly contributed to understanding microbial ecosystems and their applications in sustainable agriculture. His interdisciplinary approach integrates microbiology, environmental science, and biotechnology to address real-world problems [4].

Publications

Prof. Hesham has authored numerous peer-reviewed publications in international journals, including works on nanoparticle synthesis, antimicrobial research, and environmental remediation. His publications demonstrate methodological rigor and innovation, often supported by DOI-indexed research outputs such as https://doi.org/10.1186/S12896-025-00982-6 [2].

Research Impact

With thousands of citations and a strong h-index, his research impact is evident in both academic and applied contexts. His work has influenced environmental policies, agricultural practices, and scientific methodologies. His editorial roles and peer-review contributions further enhance his influence in the scientific community [5].

Award Suitability

The Best Paper Award recognizes originality, impact, and scholarly excellence. Prof. Hesham’s extensive publication record, interdisciplinary research, and international recognition make him a suitable candidate. His contributions align with the objectives of global scientific awards and reflect sustained academic excellence [3].

Conclusion

Prof. Abd El-Latif Hesham’s academic contributions demonstrate a strong commitment to advancing scientific knowledge and addressing global challenges. His work in microbial biotechnology and environmental science continues to influence research and policy. Recognition through awards such as the Best Paper Award reflects his sustained contributions and academic leadership [4].

External Links

References

  1. ORCID. (n.d.). Abd El-Latif Hesham Profile.
    https://orcid.org/0000-0002-0614-7658
  2. BMC Biotechnology. (2025). Nanoparticle synthesis study.
    https://doi.org/10.1186/S12896-025-00982-6
  3. Frontiers in Microbiology. (2023). Environmental biotechnology research.
    https://doi.org/10.3389/FMICB.2023.1141383
  4. Scientific Reports. (2024). Nanotechnology applications.
    https://doi.org/10.1038/S41598-024-53617-9
  5. Elsevier. (n.d.). Scopus author details: Abd El-Latif Hesham.
    https://www.scopus.com/authid/detail.uri?authorId=14035479000

Mert Karahan | Electromagnetic | Best Researcher Award

Published on by World Top Scientists

Best Researcher Award

Mert Karahan
National Defence University

                          Mert Karahan
Affiliation National Defence University
Country Turkey
Scopus 57044421100
Documents 44
Citations 46
h-index 4
Subject Area Electromagnetic
Event World Top Scientist Awards
ORCID 0000-0003-2884-9623

The Best Researcher Award recognizes outstanding scholarly contributions in the field of electromagnetic engineering and related disciplines. Mert Karahan, an academic affiliated with the National Defence University, has been acknowledged for his research excellence, particularly in antenna design, frequency selective surfaces, and advanced communication systems [1].

Abstract

This article outlines the academic achievements of Mert Karahan and evaluates his suitability for the Best Researcher Award. His work spans electromagnetic engineering, satellite communication systems, and antenna technologies, demonstrating a consistent research trajectory with measurable scholarly output [1].

Keywords

Electromagnetic Engineering; Antenna Design; Frequency Selective Surfaces; Satellite Communications; Electronic Warfare; CubeSat Systems

Introduction

Academic awards serve as formal recognition of significant contributions to scientific advancement. The Best Researcher Award evaluates scholarly productivity, innovation, and impact across specialized domains. Mert Karahan’s research portfolio demonstrates a focus on applied electromagnetic systems and communication technologies relevant to both academic and defense sectors [1].

Research Profile

Mert Karahan is an Assistant Professor specializing in electronics and communication engineering. His academic background includes degrees in electrical and electronics engineering, supported by research in antenna systems, propagation, and electronic warfare technologies. His work integrates theoretical modeling with applied engineering practices [1].

Research Contributions

  • Development of frequency selective surfaces for communication systems
  • Design of wideband and reconfigurable antennas
  • Applications of deep learning in electronic warfare
  • Satellite communication innovations using CubeSat technologies

Publications

Mert Karahan has contributed to the field of electromagnetic engineering through a series of peer-reviewed journal articles and conference papers that emphasize antenna design, frequency selective surfaces, and advanced communication systems. His recent publications include a high-efficiency wideband reflectarray developed for CubeSat deep-space communications, as well as research on deep learning approaches for emitter identification in electronic warfare environments. Additional studies address GaN-based MMIC high-power amplifiers and compact frequency selective surface designs for wireless communication applications. Collectively, these works reflect a consistent focus on integrating theoretical electromagnetic analysis with practical engineering solutions, contributing to both academic literature and applied technological development [1].

Research Impact

Karahan’s research has contributed to advancements in communication systems and electromagnetic design methodologies. His publications demonstrate cross-disciplinary integration, combining engineering, signal processing, and computational techniques. The citation metrics reflect a growing influence in specialized engineering domains [1].

Award Suitability

The Best Researcher Award criteria emphasize originality, measurable impact, and sustained academic contribution. Mert Karahan’s profile aligns with these criteria through consistent publication output, specialized expertise, and applied research outcomes in electromagnetic engineering and communication systems.

Conclusion

Mert Karahan represents a developing academic profile within electromagnetic engineering, with research contributions spanning theoretical and applied domains. His work supports his candidacy for recognition through the Best Researcher Award.

References

  1. ORCID. (n.d.). Research profile of Mert Karahan (0000-0003-2884-9623).
    https://orcid.org/0000-0003-2884-9623

Christopher Koroneos | Environmental Management | Distinguished Scientist Award

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Prof. Dr. Christopher Koroneos | Environmental Management | Distinguished Scientist Award

Doctor | University of West Attica | Greece

Prof. Dr. Christopher Koroneos is a distinguished researcher whose work spans energy engineering, renewable energy systems, and environmental management. His research integrates chemical and environmental engineering principles to advance sustainable energy solutions, low-exergy systems, and lifecycle-based environmental optimization. Over his career, he has contributed significantly to international collaborations, mentored numerous graduate and undergraduate students, and held leadership roles in global scientific programs. His publications demonstrate both depth and breadth, influencing policy, technology, and academic discourse in renewable energy and environmental sustainability. Prof. Koroneos’ scholarship is recognized worldwide, reflecting his ability to bridge theory and practical applications in energy and environmental systems. His measurable research impact, as reflected in Scopus, includes 99 documents, 4,568 citations, and an h-index of 35, highlighting both the quality and influence of his scientific contributions across the global research community.

Profile: Scopus | Google Scholar | ORCID

Featured Publications

1. Tsakiridis, P. E., Papadimitriou, G. D., Tsivilis, S., & Koroneos, C. (2008). Utilization of steel slag for Portland cement clinker production. Journal of Hazardous Materials, 152(2), 805–811.

2. Koroneos, C., Dompros, A., Roumbas, G., & Moussiopoulos, N. (2004). Life cycle assessment of hydrogen fuel production processes. International Journal of Hydrogen Energy, 29(14), 1443–1450.

3. Christopher, K., & Dimitrios, R. (2012). A review on exergy comparison of hydrogen production methods from renewable energy sources. Energy & Environmental Science, 507.

4. Koroneos, C., Spachos, T., & Moussiopoulos, N. (2003). Exergy analysis of renewable energy sources. Renewable Energy, 28(2), 295–310.

5. Koroneos, C., & Dompros, A. (2007). Environmental assessment of brick production in Greece. Building and Environment, 42(5), 2114–2123.

Eszter Virág | Agricultural and Biological Sciences | Best Researcher Award

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Dr. Eszter Virág | Agricultural and Biological Sciences | Best Researcher Award

Scientific director at Research Institute For Medicinal Plants and Herbs, Hungary

Dr. Eszter Andrea Virág is a Hungarian biologist and senior researcher specializing in microbiology, plant science, and bioinformatics. She earned her PhD in Biology from the University of Pécs, focusing on antibiotic mechanisms, and later expanded her expertise with a degree in Computer Science Operational Engineering. With over 15 years of research experience, she has held key academic and leadership roles, including Scientific Director at the Research Institute of Medicinal Plants and Herbs and Senior Research Fellow at the University of Debrecen. Dr. Virág has led government-funded projects on plant-based pesticides, supervised numerous MSc and PhD students, and taught a wide range of courses across Hungarian universities. Her interdisciplinary approach bridges biology and computational science, contributing significantly to sustainable agriculture and environmental research. She is a recipient of several prestigious national awards and is an active member of scientific committees, reflecting her impact on Hungary’s research and academic landscape.

Professional Profile 

Google Scholar
Scopus Profile

Education

Dr. Eszter Virág holds a PhD in Biology from the University of Pécs, Hungary, awarded in 2012. Her doctoral research focused on the mechanism of action of the antibiotic primycin, demonstrating her foundational expertise in microbiology and antibiotic studies. She also earned a biology degree from the same university in 2008, where her thesis examined the effects of capsaicin on human platelets and yeast cell membranes. Recognizing the growing importance of computational methods in biology, she pursued further education in Computer Science Operational Engineering at the University of Pannonia, completing her absolutorium in 2022. Her thesis in this field addressed the integration of command-line bioinformatics tools with user-friendly graphical interfaces for agricultural and biological applications. Dr. Virág has also participated in several postgraduate training programs, including courses on next-generation sequencing, fluorescence sensing, and bioinformatics education, underlining her commitment to continuous learning and her multidisciplinary capabilities in life sciences and informatics.

Professional Experience

Dr. Eszter Virág’s professional journey spans research, leadership, and academia. She currently serves as a Senior Research Fellow at the University of Debrecen’s Institute of ‘One Health’, where she contributes to interdisciplinary studies combining human, animal, and environmental health. Since 2018, she has been the Scientific Director of the Research Institute of Medicinal Plants and Herbs, where she leads research on plant-based bioactive compounds and their agricultural applications. Her previous roles include Senior Research Fellow at the University of Pannonia’s Department of Plant Science and Biotechnology (2014–2021) and Postdoctoral Fellow at the Department of Biochemistry, Taras Shevchenko National University of Kyiv, Ukraine. Early in her career, she worked as a pharmaceutical researcher at PannonPharma Ltd. Her experience encompasses scientific project management, research supervision, and interdisciplinary collaboration. Dr. Virág’s broad professional background demonstrates her ability to lead innovative research initiatives across both academic and applied science settings.

Research Interest

Dr. Virág’s research interests lie at the intersection of microbiology, plant science, and bioinformatics. She focuses on the genomic and transcriptomic analysis of plants, particularly in exploring the biological activities and nanoformulations of botanical extracts for agricultural and therapeutic use. Her work in developing plant-based pesticides aligns with the global movement toward sustainable farming. In the field of microbiology, she has investigated the effects of natural compounds on microbial communities and cell membrane dynamics. She is also actively involved in soil metagenomics, studying microbial biodiversity and function in various ecological contexts. Dr. Virág’s bioinformatics expertise supports the integration of large-scale biological data into practical solutions, particularly in agro-IT applications. Her multidisciplinary approach bridges laboratory science and computational analysis, making her research both cutting-edge and highly relevant to current challenges in agriculture, environmental protection, and public health. Her ability to combine wet lab and in silico methods enhances the impact and scope of her scientific contributions.

Award and Honor

Dr. Eszter Virág has received several prestigious recognitions for her research contributions. Notably, she was awarded the Mayor’s Fellowship of the city of Pécs in 2011 for outstanding research achievements. She later secured the Hungarian Academy of Sciences’ (MTA) Postdoctoral Fellowship for 2014–2016, reflecting her early promise and excellence in scientific investigation. She is a two-time recipient of the ÚNKP New National Excellence Program fellowship, awarded in 2016 and 2017, which supports top-performing Hungarian researchers. In 2017, she was honored as the Young Scientist of the Year by the Georgikon Faculty at Pannon University, acknowledging her research leadership and academic mentorship. In addition to these accolades, Dr. Virág is an active member of national scientific bodies, including the MTA Interdepartmental Scientific Committee on Bioinformatics and the Association of Hungarian Geneticists. These honors collectively underscore her national standing as a respected researcher and educator in Hungary’s scientific community.

Conclusion

Dr. Eszter Virág is an accomplished interdisciplinary researcher whose career blends biology, bioinformatics, and agricultural science. With a PhD in Biology and additional qualifications in computer science, she brings a holistic and forward-thinking perspective to her research. Her professional experience includes leadership roles in both academic institutions and applied research centers, where she has managed national projects and mentored students at various levels. Her scientific contributions—ranging from antibiotic mechanisms to plant-based pesticide development and genomic analysis—reflect a commitment to sustainability, innovation, and scientific rigor. She has earned multiple fellowships and awards that affirm her impact and recognition within the Hungarian research community. Dr. Virág’s ability to translate complex scientific knowledge into practical applications and her dedication to mentoring future researchers make her a strong candidate for recognition such as the Best Researcher Award. Her work continues to contribute meaningfully to the advancement of environmental and biological sciences.

Publications Top Notes

  • Title: Different expression pattern of flowering pathway genes contribute to male or female organ development during floral transition in the monoecious weed Ambrosia artemisiifolia L.
    Authors: KK Mátyás, G Hegedűs, J Taller, E Farkas, K Decsi, B Kutasy, N Kálmán, …
    Year: 2019
    Citations: 26

  • Title: tert‐Butyl hydroperoxide‐induced differing plasma membrane and oxidative stress processes in yeast strains BY4741 and erg5Δ
    Authors: Z Gazdag, G Máté, M Čertik, K Türmer, E Virág, I Pócsi, M Pesti
    Year: 2014
    Citations: 20

  • Title: Direct in vivo interaction of the antibiotic primycin with the plasma membrane of Candida albicans: an EPR study
    Authors: E Virág, J Belagyi, Z Gazdag, C Vágvölgyi, M Pesti
    Year: 2012
    Citations: 18

  • Title: Transcriptome datasets of β-Aminobutyric acid (BABA)-primed mono- and dicotyledonous plants, Hordeum vulgare and Arabidopsis thaliana
    Authors: G Hegedűs, Á Nagy, K Decsi, B Kutasy, E Virág
    Year: 2022
    Citations: 17

  • Title: Complex formation between primycin and ergosterol: Entropy–driven initiation of modification of the fungal plasma membrane structure
    Authors: E Virág, M Pesti, S Kunsági-Máté
    Year: 2012
    Citations: 15

  • Title: Characterization of β-lactamases and multidrug resistance mechanisms in Enterobacterales from hospital effluents and wastewater treatment plant
    Authors: C Mutuku, S Melegh, K Kovacs, P Urban, E Virág, R Heninger, R Herczeg, …
    Year: 2022
    Citations: 14

  • Title: Illumina sequencing of the chloroplast genome of common ragweed (Ambrosia artemisiifolia L.)
    Authors: E Nagy, G Hegedűs, J Taller, B Kutasy, E Virág
    Year: 2017
    Citations: 13

  • Title: Competitive hydrogen bonds associated with the effect of primycin antibiotic on oleic acid as a building block of plasma membranes
    Authors: E Virág, M Pesti, S Kunsági-Máté
    Year: 2010
    Citations: 13

  • Title: In vivo direct interaction of the antibiotic primycin on a Candida albicans clinical isolate and its ergosterol-less mutant
    Authors: E Virág, Á Juhász, R Kardos, Z Gazdag, G Papp, Á Pénzes, M Nyitrai, …
    Year: 2012
    Citations: 12

  • Title: Illumina Sequencing of Common (Short) Ragweed (Ambrosia artemisiifolia L.) Reproductive Organs and Leaves
    Authors: E Virág, G Hegedűs, E Barta, E Nagy, K Mátyás, B Kolics, J Taller
    Year: 2016
    Citations: 11

  • Title: Antifungal activity of the primycin complex and its main components A1, A2 and C1 on a Candida albicans clinical isolate, and their effects on the dynamic plasma membrane changes
    Authors: E Virág, J Belagyi, S Kocsubé, C Vágvölgyi, M Pesti
    Year: 2013
    Citations: 11

  • Title: Liposomal Formulation of Botanical Extracts may Enhance Yield Triggering PR Genes and Phenylpropanoid Pathway in Barley (Hordeum vulgare)
    Authors: G Hegedűs, B Kutasy, M Kiniczky, K Decsi, Á Juhász, Á Nagy, JP Pallos, …
    Year: 2022
    Citations: 10

  • Title: RNA-seq datasets of field soybean cultures conditioned by Elice16Indures® biostimulator
    Authors: K Decsi, B Kutasy, M Kiniczky, G Hegedűs, E Virág
    Year: 2022
    Citations: 10

  • Title: Detection of target-site herbicide resistance in the common ragweed: nucleotide polymorphism genotyping by targeted amplicon sequencing
    Authors: B Kutasy, Z Farkas, B Kolics, K Decsi, G Hegedűs, J Kovács, J Taller, …
    Year: 2021
    Citations: 9

  • Title: Natural immunity stimulation using ELICE16INDURES® plant conditioner in field culture of soybean
    Authors: K Decsi, B Kutasy, G Hegedűs, ZP Alföldi, N Kálmán, Á Nagy, E Virág
    Year: 2023
    Citations: 7

  • Title: Supplementation of the Plant Conditioner ELICE Vakcina® Product with β-Aminobutyric Acid and Salicylic Acid May Lead to Trans-Priming Signaling in Barley (Hordeum vulgare)
    Authors: E Virág, M Kiniczky, B Kutasy, Á Nagy, JP Pallos, L Laczkó, C Freytag, …
    Year: 2023
    Citations: 6

  • Title: Time-course gene expression profiling data of Triticum aestivum treated by supercritical CO2 garlic extract encapsulated in nanoscale liposomes
    Authors: B Kutasy, K Decsi, M Kiniczky, G Hegedűs, E Virág
    Year: 2022
    Citations: 6