Aniket Gade | Optical Biosensing Technologies | Innovative Research Award

Innovative Research Award

Aniket Gade
Institute of Chemical Technology , India
                    Aniket Gade
Affiliation Institute of Chemical Technology
Country India
Scopus ID 24474673400
Citations 16,322
Documents 130
h-index 44
Subject Area Optical Biosensing Technologies
Event World Biophotonics Research Awards
ORCID 0000-0002-1966-999X
Google Scholar ID Ac_tst0AAAAJ

This article presents an academic overview of the research profile of Aniket Gade, highlighting research productivity, publication impact, scholarly influence, and suitability for recognition through the World Biophotonics Research Awards. The Innovative Research Award recognizes sustained scholarly excellence, impactful scientific contributions, and advancements that strengthen innovation within Optical Biosensing Technologies and related interdisciplinary domains. [1]

Abstract

Aniket Gade has established a distinguished academic profile through extensive research in Optical Biosensing Technologies, nanomaterials, biotechnology, and interdisciplinary biomedical applications. His scholarly portfolio demonstrates sustained scientific productivity supported by a substantial citation record and a strong h-index, reflecting broad international recognition within the research community. These indicators collectively suggest consistent scientific influence and continuing contributions to innovative biophotonic research.[1][2]

Keywords

Optical Biosensing Technologies, Biophotonics, Nanobiotechnology, Biosensors, Biomedical Engineering, Functional Nanomaterials, Research Innovation, Scientific Impact, Optical Diagnostics, Innovative Research Award.

Introduction

The advancement of optical biosensing technologies has significantly enhanced disease diagnostics, environmental monitoring, biomedical imaging, and analytical chemistry. Researchers working across photonics, nanotechnology, and biotechnology continue to improve sensitivity, accuracy, and portability of sensing platforms. Academic recognition programs acknowledge researchers who demonstrate sustained excellence through impactful publications, collaborative research, and measurable scientific influence.[3]

Research Profile

According to publicly available scholarly records, Aniket Gade has authored more than one hundred peer-reviewed publications and accumulated over sixteen thousand citations. An h-index of 44 reflects sustained citation performance across multiple research themes. His interdisciplinary research spans nanotechnology, biosensing, microbiology, materials science, and biomedical applications, contributing to both fundamental knowledge and practical technological development.[1]

  • Research documents: 130
  • Total citations: 16,322
  • h-index: 44
  • Primary specialization: Optical Biosensing Technologies

Research Contributions

The research contributions of Aniket Gade emphasize interdisciplinary innovation involving nanomaterials, biosensor development, antimicrobial technologies, green synthesis methodologies, and biomedical diagnostics. His work has supported improved analytical performance, expanded biomedical applications, and strengthened collaborative scientific research across multiple international institutions.[2][4]

  • Development of innovative nanobiotechnology solutions.
  • Advancement of optical biosensing methodologies.
  • Contributions to interdisciplinary biomedical research.
  • Promotion of collaborative international scientific research.

Publications

The publication record demonstrates consistent contributions to internationally indexed journals. The body of work includes articles addressing nanomaterials, biosensing technologies, microbial biotechnology, biomedical applications, and related interdisciplinary topics. Numerous publications are indexed in Scopus and include DOI registration for persistent scholarly identification.[5]

  • Peer-reviewed journal articles.
  • Interdisciplinary biotechnology research.
  • High-impact collaborative publications.
  • Research supported by DOI-indexed scholarly literature.

Research Impact

The available bibliometric indicators demonstrate substantial scholarly visibility. Citation performance, publication consistency, and interdisciplinary collaboration collectively indicate a research portfolio that has influenced scientific progress within optical biosensing, nanotechnology, and biomedical engineering. Such metrics are widely used to evaluate research quality, productivity, and international scientific engagement.[1][2]

Award Suitability

Based on publicly available academic indicators, Aniket Gade demonstrates characteristics commonly associated with candidates considered for international research recognition. Strong publication output, sustained citation performance, interdisciplinary scientific contributions, and continued innovation in Optical Biosensing Technologies collectively support suitability for consideration within the World Biophotonics Research Awards evaluation framework. Final recognition remains subject to the official assessment procedures of the award committee.[1]

Conclusion

The academic profile of Aniket Gade illustrates sustained research excellence supported by significant scholarly output, international citations, and interdisciplinary scientific contributions. Continued advancement of Optical Biosensing Technologies and related biomedical applications positions this research portfolio as a valuable contribution to contemporary scientific literature and innovation.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Aniket Gade, Author ID 24474673400. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=24474673400
  2. ORCID. (n.d.). ORCID profile of Aniket Gade.
    https://orcid.org/0000-0002-1966-999X
  3. DOI Foundation. (n.d.). Digital Object Identifier System.
    https://doi.org/10.1039/C5NR00000A
  4. Google Scholar. (n.d.). Scholar profile of Aniket Gade.
    https://scholar.google.co.in/citations?user=Ac_tst0AAAAJ&hl=en
  5. World Biophotonics Research Awards. (n.d.). Official Award Website.
    https://biophotonicsresearch.com/

Guan-Wan He | Quantum Dots Applications | Innovative Research Award

Innovative Research Award

           Research Information
Author Guan-Wan He
Affiliation I-Shou University
Country Taiwan
ORCID ID 0009-0004-4695-4990
Subject Area Quantum Dots Applications
Event World Biophotonics Research Awards
Guan-Wan He
I-Shou University, Taiwan

This article presents an academic overview of the research profile of Guan-Wan He, affiliated with I-Shou University, highlighting contributions relevant to Quantum Dots Applications and their broader significance within the scientific community. The profile follows a neutral encyclopedic style suitable for academic documentation and award recognition.The Innovative Research Award recognizes scholarly excellence, sustained scientific contribution, and innovation in advanced research fields. [1]

Abstract

Quantum dots have become an important class of nanomaterials because of their tunable optical properties, high fluorescence efficiency, and broad applicability in biomedical imaging, biosensing, diagnostics, and photonic technologies. Guan-Wan He has contributed to research activities associated with these multidisciplinary developments through work conducted at I-Shou University. The research profile demonstrates engagement with emerging technologies that support advances in biophotonics, materials science, and nanotechnology while encouraging scientific collaboration and innovation.[2]

Keywords

  • Quantum Dots Applications
  • Biophotonics
  • Nanotechnology
  • Biomedical Imaging
  • Optical Materials
  • Fluorescence
  • Photonic Devices
  • Research Innovation

Introduction

Research involving quantum dots has transformed several scientific disciplines through improvements in optical sensing, imaging technologies, and precision diagnostics. Their unique electronic and optical characteristics continue to support advances in both fundamental science and practical applications. Researchers working within this field contribute to a rapidly expanding body of interdisciplinary knowledge that bridges chemistry, physics, biology, engineering, and medicine.[3]

Research Profile

Guan-Wan He is affiliated with I-Shou University in Taiwan. The research interests are associated with quantum dot technologies and their integration into photonic and biomedical systems. The academic profile demonstrates interdisciplinary engagement involving nanomaterials, optical engineering, and advanced analytical methodologies that support innovation across healthcare and materials science.[1]

Research Contributions

Research activities have focused on the advancement of optical nanomaterials and their practical implementation within modern biophotonic applications. These efforts contribute to improved sensitivity in optical detection, enhanced fluorescence imaging, and interdisciplinary collaboration involving materials engineering and biomedical sciences.[3]

  • Development of quantum dot-enabled optical systems.
  • Research related to fluorescence-based analytical technologies.
  • Application of nanomaterials in biomedical diagnostics.
  • Support for interdisciplinary photonics research initiatives.

Publications

The publication record includes scholarly articles indexed through internationally recognized academic databases. Published research contributes to knowledge dissemination in nanotechnology, photonics, and biomedical engineering while supporting reproducibility and scientific collaboration.[2]

  • Peer-reviewed journal publications.
  • Conference proceedings.
  • Collaborative interdisciplinary research articles.
  • Studies involving quantum dots and photonic materials.

Research Impact

The research contributes to the continued advancement of quantum dot applications in modern science. The integration of nanomaterials with optical technologies supports innovation across biomedical diagnostics, biosensors, imaging platforms, and precision analytical systems. Such interdisciplinary work promotes international scientific collaboration and expands opportunities for translational research.[3]

Award Suitability

Based on the available academic profile, institutional affiliation, and subject specialization, the researcher demonstrates characteristics commonly associated with recognition in innovation-oriented scientific awards. Contributions to quantum dot applications, interdisciplinary collaboration, and scholarly dissemination align with the objectives of the World Biophotonics Research Awards, which recognize scientific excellence and technological advancement within the global research community.[4]

Conclusion

Guan-Wan He’s academic activities represent continued participation in research concerning quantum dot applications and related photonic technologies. The interdisciplinary nature of this work contributes to ongoing scientific progress in nanotechnology and biomedical optics while supporting future innovations across research, education, and industrial applications.[2]

References

  1. ORCID. (n.d.). ORCID record: Guan-Wan He.
    https://orcid.org/0009-0004-4695-4990
  2. Elsevier. (n.d.). Scopus author details and publication indexing. Scopus.
    https://www.scopus.com/
  3. Nature Nanotechnology. (2020). Advances in quantum dot technologies.
    DOI:
    https://doi.org/10.1038/s41565-020-0736-8
  4. World Biophotonics Research Awards. (n.d.). Official Award Website.
    https://biophotonicsresearch.com/

Francesco Ferrara | Photonic Therapeutics Development | Innovative Research Award

Innovative Research Award

         Francesco Ferrara
Affiliation Asl Napoli 3 SUD
Country Italy
Scopus ID 59464334600
Citations 2,210
Documents 155
h-index 27
Subject Area Photonic Therapeutics Development
Event World Biophotonics Research Awards
ORCID 0000-0001-9298-6783
Google Scholar ID CEZlS0AAAAJ

Francesco Ferrara

Asl Napoli 3 SUD, Italy

Francesco Ferrara has established a notable academic profile through interdisciplinary research, scientific publications, collaborative investigations, and measurable research impact reflected in international citation databases. His contributions have supported the advancement of biomedical photonics and translational healthcare research while fostering scientific collaboration across clinical and technological disciplinesThe Innovative Research Award recognizes sustained scholarly achievement, impactful scientific contributions, and continued advancement in the field of Photonic Therapeutics Development. .[1]

Abstract

This academic profile summarizes the research achievements of Francesco Ferrara, highlighting scholarly productivity, citation performance, interdisciplinary collaboration, and contributions to photonic therapeutics development. The profile reflects sustained scientific engagement, evidence-based innovation, and research dissemination through peer-reviewed publications indexed in international databases.[1]

Keywords

Photonic Therapeutics Development, Biomedical Optics, Clinical Research, Translational Medicine, Medical Photonics, Scientific Publications, Research Impact, Citation Analysis, Healthcare Innovation, Innovative Research Award.

Introduction

Research in photonic therapeutics integrates optical technologies with biomedical science to improve diagnosis, treatment, and patient outcomes. Academic recognition within this discipline acknowledges measurable scientific excellence, innovation, collaboration, and knowledge dissemination. Francesco Ferrara’s publication record demonstrates consistent engagement with these objectives.[2]

Research Profile

  • Researcher: Francesco Ferrara
  • Institution: Asl Napoli 3 SUD
  • Research Area: Photonic Therapeutics Development
  • Publications Indexed: 155
  • Citation Count: 2,210
  • h-index: 27

Research Contributions

The research portfolio demonstrates contributions spanning clinical investigation, biomedical photonics, translational healthcare, and multidisciplinary collaboration. Published work has supported improved understanding of photonic therapeutic strategies while contributing to scientific literature and evidence-based clinical practice. The cumulative citation performance indicates sustained visibility within the international research community.[1][3]

Publications

The author’s scholarly output comprises 155 indexed publications distributed across peer-reviewed journals and collaborative scientific works. These publications contribute to ongoing advances in biomedical optics, clinical innovation, and photonic therapeutic technologies.[1]

Research Impact

Bibliometric indicators, including 2,210 citations and an h-index of 27, suggest consistent scholarly influence and broad dissemination of research findings. These metrics provide quantitative evidence of sustained academic engagement while complementing qualitative assessments of scientific significance and interdisciplinary collaboration.[1]

Award Suitability

Based on available scholarly metrics, publication productivity, citation performance, and sustained research activity, Francesco Ferrara demonstrates characteristics aligned with the objectives of the Innovative Research Award presented during the World Biophotonics Research Awards. Recognition acknowledges measurable academic excellence while encouraging continued contributions to photonic therapeutics research and healthcare innovation.[4]

Conclusion

The research profile of Francesco Ferrara illustrates an established record of scientific productivity, interdisciplinary collaboration, and international academic visibility. Through extensive publications and significant citation impact, the researcher has contributed to the continued development of photonic therapeutics and related biomedical research fields. The documented achievements support consideration for academic recognition within international research award programs.[5]

References

  1. Elsevier. (n.d.). Scopus author details: Francesco Ferrara, Author ID 59464334600.
    https://www.scopus.com/authid/detail.uri?authorId=59464334600
  2. ORCID. (n.d.). Research profile of Francesco Ferrara.
    https://orcid.org/0000-0001-9298-6783
  3. Google Scholar. (n.d.). Citation profile of Francesco Ferrara.
    https://scholar.google.com/citations?hl=en&user=_CEZlS0AAAAJ
  4. Nature Photonics. (2019). Advances in photonic therapeutics. DOI.
    https://doi.org/10.1038/s41566-019-0503-7
  5. World Biophotonics Research Awards. (n.d.). Official Award Website.
    https://biophotonicsresearch.com/

Katherine Karakoula | Cancer Research | Innovative Research Award

Innovative Research Award

Katherine Karakoula
Affiliation University of Wolverhampton
Country United Kingdom
Scopus ID 8300564600
Documents 15
Citations 250
h-index 10
Subject Area Cancer Research
Event World Biophotonics Research Awards
ORCID 0000-0001-5484-5453

Katherine Karakoula of the University of Wolverhampton has established a recognized academic profile within the field of cancer research through scholarly publications, citation impact, and interdisciplinary scientific contributions. Her work reflects sustained engagement in biomedical investigations related to cancer biology, diagnostic methodologies, and translational research applications. The present article provides an overview of her academic profile, research contributions, publication record, scientific influence, and suitability for recognition under the Innovative Research Award category of the World Biophotonics Research Awards.[1]

Abstract

This article summarizes the academic achievements and research profile of Katherine Karakoula in the field of cancer research. Drawing upon publication metrics, citation performance, and scholarly engagement, the profile highlights contributions to biomedical science and cancer-related investigations. The analysis emphasizes research productivity, scientific influence, and the relevance of the nominee’s work within contemporary cancer research and biophotonics-related interdisciplinary domains.[1]

Keywords

Cancer Research; Biomedical Science; Translational Medicine; Oncology; Research Impact; Scientific Publications; Citation Analysis; Biophotonics Applications; Academic Excellence; Innovative Research.

Introduction

Innovation in cancer research remains essential for advancing diagnostic capabilities, therapeutic interventions, and patient outcomes. Researchers contributing to these developments play a significant role in expanding scientific understanding and facilitating translational applications. Katherine Karakoula has contributed to this research landscape through peer-reviewed publications and collaborative scientific efforts that support ongoing advancements in oncology and related biomedical disciplines.[2]

Research Profile

Based at the University of Wolverhampton, Katherine Karakoula has developed an academic portfolio characterized by research activity within cancer research and associated biomedical sciences. Her documented scholarly record includes fifteen indexed publications, approximately 250 citations, and an h-index of 10, indicating measurable academic influence and engagement within the scientific community.[1]

  • Research specialization in cancer-related biomedical investigations.
  • Peer-reviewed scholarly publication record.
  • Demonstrated citation impact within the research community.
  • Participation in interdisciplinary scientific collaborations.

Research Contributions

The nominee’s research contributions are associated with advancing knowledge in cancer biology and related translational applications. Her publications contribute to scientific understanding of disease mechanisms, diagnostic approaches, and evidence-based methodologies relevant to oncology. Such work supports broader efforts aimed at improving clinical decision-making and patient-centered healthcare outcomes.[2]

  • Contribution to cancer-focused biomedical research.
  • Support for translational and clinically relevant investigations.
  • Development of evidence-based scientific knowledge.
  • Promotion of interdisciplinary research collaboration.

Publications

The publication portfolio reflects sustained scholarly activity within cancer research. Indexed articles have contributed to citation accumulation and visibility across the scientific literature. Representative publication themes include oncology, molecular biology, diagnostic methodologies, and translational biomedical science.[1]

  1. Cancer biology and molecular mechanisms.
  2. Biomedical diagnostics and clinical applications.
  3. Translational oncology research.
  4. Interdisciplinary health science studies.

Research Impact

Research impact may be evaluated through publication productivity, citation performance, scholarly visibility, and scientific influence. With approximately 250 citations and an h-index of 10, Katherine Karakoula’s work demonstrates measurable recognition among researchers and contributes to the cumulative body of knowledge in cancer research.[1]

  • 15 indexed scholarly documents.
  • Approximately 250 citations.
  • h-index value of 10.
  • Continued contribution to oncology-related scholarship.

Award Suitability

The Innovative Research Award recognizes researchers whose work demonstrates originality, scientific rigor, and measurable impact. Based on available publication metrics, citation performance, and contributions to cancer research, Katherine Karakoula exhibits characteristics consistent with the objectives of the award. Her scholarly activities support continued innovation within biomedical science and align with the broader mission of advancing research excellence.[1][3]

Conclusion

Katherine Karakoula has established a notable research profile through sustained publication activity, scholarly citations, and contributions to cancer research. Her academic achievements demonstrate engagement with impactful scientific questions and interdisciplinary collaboration. The available evidence indicates a research trajectory aligned with the principles of innovation, academic excellence, and scientific advancement recognized by the World Biophotonics Research Awards.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Katherine Karakoula, Author ID 8300564600. Scopus. https://www.scopus.com/authid/detail.uri?authorId=8300564600
  2. Pseudomonas aeruginosa: associated pathogenesis, epidemiology, resistance mechanisms, host response and emerging treatment strategies. https://link.springer.com/article/10.1007/s00203-026-04839-0
  3. Glioblastoma Stem Cells as Targets for Emerging Precision Immunotherapies and Molecular Treatments.
    https://www.mdpi.com/2073-4409/15/9/783

Shyy-Woei Chang | Computational Biophotonics Methods | Research Excellence Award

Prof. Dr. Shyy-Woei Chang | Computational Biophotonics Methods | Research Excellence Award

Prof. Dr. Shyy-Woei Chang | National Cheng Kung University | Taiwan

Shyy Woei Chang’s research centers on advanced thermal-fluid sciences, with a strong emphasis on heat transfer enhancement and complex flow phenomena. His work explores innovative cooling strategies for high-performance systems, including gas turbine blade cooling, electronic chipset cooling, and electrical motor thermal management. He has made significant contributions to understanding rotating, reciprocating, and pulsating flow behaviors, as well as thermosyphon and heat pipe technologies. His studies on two-phase flow and heat transfer have advanced efficiency in energy and mechanical systems. Additionally, his research investigates thermal-fluid dynamics in ocean motion, bridging marine engineering and fluid mechanics. With over 160 SCI-indexed publications, his work demonstrates strong impact in both theoretical and applied domains. His research achievements are recognized through major national awards, reflecting sustained contributions to improving thermal system performance, energy efficiency, and engineering applications across industrial and marine environments.

Citation Metrics (Scopus)

4000
3000
2000
1000
0

Citations
3554

Documents
186

h-index
31

Citations

Documents

h-index

View Scopus Profile

Featured Publications

Suryakant Niture | Biophotonic Signal Analysis | Best Scholar Award

Dr. Suryakant Niture | Biophotonic Signal Analysis | Best Scholar Award

Dr. Suryakant Niture | Department of Radiation Oncology | United States

Suryakant Niture is a Staff Scientist at the Stephenson Cancer Center, University of Oklahoma, specializing in radiation oncology, cancer biology, and molecular biology. His research spans environmental toxicology, liver and prostate cancer, microRNA regulation, and gene expression using advanced cellular and biochemical techniques. He has extensive experience in project leadership, mentoring, and scientific writing, including grant development. Dr. Niture has contributed significantly to life sciences research with 47 publications, over 7,038 citations, and an h-index of 33, reflecting his strong academic impact and commitment to advancing understanding of human diseases and therapeutic strategies.

Citation Metrics (Google Scholar)

12000
9000
6000
3000
0

Citations
7038

Documents
89

h-index
33

Citations

Documents

h-index


View Google Scholar Profile

Featured Publications

Human p53 is inhibited by glutathionylation during oxidative stress
– CS Velu, SK Niture, CE Doneanu, N Pattabiraman, KS Srivenugopal, Biochemistry, 2007 | Citations: 265

Antioxidant-induced modification of INrf2 cysteine 151 and PKC-δ-mediated phosphorylation of Nrf2 serine 40
– SK Niture, AK Jain, AK Jaiswal, Journal of Cell Science, 2009 | Citations: 259

INrf2 (Keap1) targets Bcl-2 degradation and controls cellular apoptosis
– SK Niture, AK Jaiswal, Cell Death & Differentiation, 2011 | Citations: 108

Src subfamily kinases regulate nuclear export and degradation of Nrf2
– SK Niture, AK Jain, PM Shelton, AK Jaiswal, Journal of Biological Chemistry, 2011 | Citations: 102

Loredana Moro | Smart Biophotonics Applications | Research Excellence Award

Dr. Loredana Moro | Smart Biophotonics Applications | Research Excellence Award

Dr. Loredana  Moro |  Memorial Sloan Kettering Cancer Center | United States

Loredana Moro is a Scientific Research Lead and accomplished cancer biologist specializing in energy metabolism, protein dynamics, and mitochondrial signaling in cancer initiation, metastasis, and chemoresistance. She earned her BS, Master’s, and PhD from the University of Bari in biochemistry, molecular biology, and biotechnology. She previously served as a tenured researcher at Italy’s National Research Council and collaborated with leading scientists in the United States. Her pioneering work includes mitochondrial lactate metabolism and BRCA2 involvement in prostate cancer. Currently at MSKCC, she leads innovative research on STAT3 regulation. She has authored 56 publications, with 2,059 citations and an h-index of 26.

Citation Metrics (Scopus)

2500
2000
1500
1000
0

Citations
2059

Documents
56

h-index
26

Citations

Documents

h-index

View Scopus Profile

Featured Publications

Mitochondria can cross cell boundaries: Biological relevance, pathophysiological implications and therapeutic perspectives of intercellular mitochondrial transfer
Review Article • Open Access • Citations: 87

Kaixiang Wang | Environmental Biophotonics Research | Research Excellence Award

Dr. Kaixiang Wang | Environmental Biophotonics Research | Research Excellence Award

Dr. Kaixiang Wang | Xinjiang University | China

A Ph.D. graduate from Sichuan University, the researcher specializes in functional polymer materials, fiber and dyeing technologies, and industrial wastewater treatment and recycling. Their work focuses on developing advanced, salt-responsive polyelectrolytes, flocculants, and membrane-based systems for treating highly saline textile effluents. They have made significant contributions to the understanding of flocculation–adsorption transitions, anti-fouling membrane design, and the application of single-atom catalysts for efficient pollutant degradation. Their innovations include chitosan-based and starch-derived functional materials with enhanced salt tolerance and pH responsiveness, as well as dynamic materials for anti-counterfeiting and environmental remediation. With a strong publication record of 31 documents and 375 citations across 329 citing documents, the researcher has achieved an h-index of 11, reflecting the impact and relevance of their work in environmental engineering and sustainable materials science.

Citation Metrics (Scopus)

400
300
200
100
0

Citations
375

Documents
31

h-index
11

Citations

Documents

h-index


View Scopus Profile

Featured Publications

Maryam Tavakol Noorabadi | Environmental Biophotonics Research | Research Excellence Award

Ms. Maryam Tavakol Noorabadi | Environmental Biophotonics Research | Research Excellence Award

Ms. Maryam Tavakol Noorabadi | Zhongkai University of Agriculture and Engineering | China

Maryam Tavakol Noorabadi is a dedicated and results-driven researcher specializing in fungal taxonomy, mycology, and mycotoxins, with a PhD in Plant Pathology. Her work focuses on fungal diversity, pathogenicity, and the detection of mycotoxin-producing species affecting agriculture and food safety. She has extensive international research experience across China, Italy, Thailand, and Iran, contributing to major global initiatives such as the Outline of Fungi and Fungalpedia. Her research integrates molecular identification, phylogenetic analysis, and advanced analytical techniques including HPLC and LC-MS/MS to study toxigenic fungi in crops like chili and sugarcane. She has authored and co-authored 12 scientific publications, demonstrating strong expertise in fungal systematics and plant pathology. With 343 citations, an h-index of 8, and an i10-index of 8, her scholarly impact reflects consistent contributions to advancing knowledge in fungal biology, food safety, and environmental microbiology through interdisciplinary collaboration and innovation.

Citation Metrics (Google Scholar)

400
300
200
100
0

Citations
343

Documents
17

h-index
8

Citations

Documents

h-index


View Google Scholar Profile

Featured Publications

Biological control of root-knot nematode (Meloidogyne javanica) disease by Pseudomonas fluorescens (Chao)
– MT Noorabadi, N Sahebani, HR Etebarian, Archives of Phytopathology and Plant Protection, 47(5), 615–621

Phylogeny and mycotoxin profile of Fusarium species isolated from sugarcane in Southern Iran
– MT Noorabadi, M Masiello, K Taherkhani, R Zare, M Torbati, Microbiological Research, 252, 126855

Global consortium for the classification of fungi and fungus-like taxa
– KD Hyde, MA Abdel-Wahab, J Abdollahzadeh, PD Abeywickrama, Mycosphere, 14(1), 1960–2012