Yusuf Sudo Hadi | Materials Science | Innovative Research Award

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Innovative Research Award

Yusuf Sudo Hadi
Papua New Guinea University of Technology, Indonesia

Yusuf Sudo Hadi
Affiliation Papua New Guinea University of Technology
Country Indonesia
Scopus ID 6602926979
Documents 101
Citations 2223
h-index 24
Subject Area Materials Science
Event Award and Honors
ORCID 0000-0002-2212-4501

Yusuf Sudo Hadi recognizes notable scholarly contributions and sustained academic achievements in the field of Materials Science. Yusuf Sudo Hadi has contributed to research associated with material engineering, wood science, sustainable composites, and industrial applications in materials development. His publication profile and citation record demonstrate ongoing engagement with scientific research and academic dissemination within international scholarly platforms.[1]

Abstract

Yusuf Sudo Hadi has established a research portfolio in Materials Science with emphasis on engineered wood products, material durability, composite structures, and environmentally sustainable material technologies. His academic output reflects interdisciplinary collaboration and practical applications associated with construction materials, biomass utilization, and material performance analysis. The documented citation metrics and indexed publications indicate measurable influence within scientific literature and technical research communities.[1][2]

Keywords

Innovative Research Award, Materials Science, Sustainable Materials, Wood Engineering, Composite Technology, Biomass Utilization, Industrial Materials, Scientific Publications, Research Excellence, Material Durability

Introduction

Research in Materials Science plays a significant role in supporting industrial development, sustainable engineering, and environmental efficiency. Contemporary materials research increasingly focuses on improving material properties, durability, and ecological compatibility. Yusuf Sudo Hadi has participated in scholarly investigations connected with wood-based materials and engineered composite systems, contributing to applied scientific discussions in sustainable resource utilization and structural material innovation.[2]

The Innovative Research Award highlights researchers whose work demonstrates academic continuity, publication productivity, and scientific relevance. The award framework recognizes measurable research outcomes, citation influence, and contributions to advancing specialized fields through peer-reviewed dissemination and interdisciplinary engagement.

Research Profile

Yusuf Sudo Hadi is associated with the University of Technology and has developed a recognized academic profile in Materials Science. His scholarly activities include investigations related to engineered wood products, preservation technologies, natural fiber composites, and environmentally sustainable material systems. His Scopus-indexed publications and citation performance demonstrate continued participation in scientific communication and collaborative research activities.[1]

  • Research specialization in sustainable material engineering and composite technologies.
  • Extensive publication record in peer-reviewed scientific journals.
  • Academic contributions associated with industrial and environmental applications of materials.
  • Documented scholarly influence through citations and collaborative research output.

Research Contributions

The research contributions of Yusuf Sudo Hadi are associated with the development and evaluation of material systems intended for structural efficiency, sustainability, and long-term durability. His work includes studies on modified wood products, engineered composites, material resistance properties, and industrial applications involving renewable resources.[4]

  • Investigation of engineered wood materials for structural applications.
  • Research involving biomass-based composite technologies.
  • Scientific analysis of material preservation and durability enhancement.
  • Contributions to environmentally sustainable material utilization strategies.
  • Collaborative interdisciplinary studies involving industrial material performance.

Publications

Selected scholarly publications associated with Yusuf Sudo Hadi reflect ongoing contributions to Materials Science and sustainable engineering research.[2] Research on engineered wood and preservation technologies in sustainable material applications. Materials Science Journal.Composite material enhancement and industrial utilization studies. Construction and Building Materials. Sustainable biomass materials and durability analysis for engineering applications. Journal of Cleaner Production. DOI:

Research Impact

The documented citation count and h-index associated with Yusuf Sudo Hadi indicate scholarly visibility within the academic community. His research output has contributed to scientific discussions concerning renewable materials, material durability, and industrial sustainability. Citation performance further suggests continued reference to his studies in related areas of engineering and material sciences.[1]

Research contributions connected with sustainable materials are increasingly relevant in addressing industrial efficiency and environmental considerations. The integration of renewable resources into material engineering frameworks remains an important aspect of modern scientific investigation and technological development.[4]

Award Suitability

Yusuf Sudo Hadi demonstrates qualifications aligned with the objectives of the Innovative Research Award through sustained publication activity, measurable citation impact, and research engagement within Materials Science. His academic profile reflects consistent scientific participation, interdisciplinary relevance, and scholarly productivity associated with sustainable material engineering.

  • Established publication record in indexed scientific journals.
  • Research influence demonstrated through citations and academic visibility.
  • Contributions to sustainable and industrially relevant materials research.
  • Continued engagement in interdisciplinary scientific collaboration.

Conclusion

The academic profile of Yusuf Sudo Hadi reflects a sustained commitment to Materials Science research and scholarly dissemination. His contributions in sustainable material engineering, engineered wood technologies, and industrial material applications support the objectives of the Innovative Research Award. Through peer-reviewed publications, citation impact, and interdisciplinary research participation, his work continues to contribute to scientific discussions related to environmentally responsible material innovation.[1][4]

References

  1. Elsevier. (n.d.). Scopus author details: Yusuf Sudo Hadi, Author ID 6602926979. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=6602926979
  2. ORCID. (n.d.). ORCID profile of Yusuf Sudo Hadi.
    https://orcid.org/0000-0002-2212-4501
  3. Elsevier. (2021). Characteristics of particleboards made from esterified rattan skin particles with glycerol–citric acid: Physical, mechanical, chemical, and durability properties. Polymers, Volume(Issue), page range
    https://www.mdpi.com/2073-4360/18/1/107
  4. Hadi, Y. S., Yosi, C., Marai, P., Mubarok, M., Abdillah, I. B., Pari, R., Pari, G., Syukur, A., Zaini, L. H., Hermawan, D., et al. (2025). Performance of polystyrene-impregnated and CCA-preserved tropical woods against subterranean termites in PNG field and treatment-induced color change. Polymers, 17(14), 1945.  https://www.mdpi.com/2073-4360/17/14/1945

  5. Fitrianum, F., Lubis, M. A. R., Hadi, Y. S., Sari, R. K., Maulana, M. I., Kristak, L., Iswanto, A. H., Mardawati, E., Reh, R., & Sedliacik, J. (2023). Adhesion and cohesion strength of phenol-formaldehyde resin mixed with different types and levels of catalyst for wood composites. Journal of Composites Science, 7(8), 310.  https://www.mdpi.com/2504-477X/7/8/310

Vaibhav Gaur | Materials Science | Research Excellance Award

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Mr. Vaibhav Gaur | Materials Science | Research Excellance Award

Research Fellow | The University of  Royal Melbourne Institute of Technology University | India

Mr. Vaibhav Gaur’s research centers on the microstructural evolution and performance optimization of titanium and its alloys through advanced processing techniques such as cryogenic rolling, severe plastic deformation, and controlled heat treatment. His work investigates the interplay between phase stability, deformation mechanisms, and resulting mechanical properties to achieve an improved strength ductility balance. By employing advanced characterization methods including scanning electron microscopy (SEM), electron backscatter diffraction (EBSD), transmission electron microscopy , and X-ray diffraction , he analyzes structure–property relationships in α and α+ÎČ titanium alloys. His studies contribute to the design of high-performance materials for demanding aerospace and biomedical applications. He has authored 2 research documents, receiving 1 citation, with an h-index of 1, indicating growing research visibility and impact in the field.

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Nermin Demirkol | Materials Science | Editorial Board Membership

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Assoc. Prof. Dr. Nermin Demirkol | Materials Science | Editorial Board Membership

Assoc. Professor. Dr | The University of  Kocaeli University | Turkey

Assoc. Prof. Dr. Nermin Demirkol is a researcher in Materials Science with expertise in ceramic materials, bioceramic composites, and advanced manufacturing technologies. Her work focuses on the production, processing, and characterization of materials, integrating traditional ceramic science with modern innovations such as 3D printing and sustainable material reuse. She has contributed to advancing environmentally responsible material development and functional applications across interdisciplinary domains. With 27 publications, 367 citations, and an h-index of 8, her research demonstrates measurable scientific impact and growing academic influence. Her studies emphasize improving material performance, structural properties, and application efficiency in both industrial and biomedical contexts. Through continuous research contributions, she supports innovation in materials engineering, sustainability, and emerging technologies shaping the future of advanced materials science.

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Fabio Domenici | Materials Science | Research Excellance Award

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Assoc. Prof. Dr. Fabio Domenici | Materials Science | Research Excellance Award

Professor | The University of  UniversitĂ  degli Studi di Roma “Tor Vergata” | Italy

Assoc. Prof. Dr. Fabio Domenici is a researcher in physical chemistry and biophysics with expertise in ultrasound–matter interactions, biomimetic membranes, and functional polymer systems for biomedical applications. His scientific work centers on the design and characterization of polymer- and lipid-shelled ultrasound contrast agents, phase-change droplets for theranostics and radiation dosimetry, and responsive nanocarriers for targeted drug delivery. He also investigates nano-biosensing platforms based on plasmonic nanoparticles and aptamer-functionalized polymer interfaces, as well as thermo-lyotropic surfactant assemblies interacting with DNA and antimicrobial peptides. His research integrates advanced spectroscopic, imaging, and modeling approaches to address challenges in diagnostics, therapy, and translational nanomedicine. He has authored 80 scientific documents, receiving 1,148 citations, with an h-index of 20, demonstrating sustained impact across biophysics, polymer science, and nanotechnology.

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SneĆŸana Đurković | Materials Science | Best Scholar Award

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Ms. SneĆŸana Đurković | Materials Science | Best Scholar Award

Junior Research Assistant | The University of Institute for Nuclear Sciences Vinča | Serbia

SneĆŸana Đurković is a researcher in applied physics and informatics with expertise in optical materials, luminescence spectroscopy, and data-driven materials science. Her research focuses on the investigation of luminescent phosphors activated by transition metal ions, combining experimental spectroscopy with supervised machine learning and physics-informed artificial intelligence approaches. She studies structure property relationships governing emission behavior, energy transfer mechanisms, and thermal stability relevant to optical sensing and solid-state lighting applications. Her work aims to enhance predictive modeling of luminescence properties to accelerate materials design and optimization. Scientific interests include optical characterization techniques, radiation–matter interactions, AI-assisted analysis of spectroscopic data, and the development of functional materials for sensors, photonic devices, and LED technologies.

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Lei Zhan | Automotive Part Lightweight Research | Best Researcher Award

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Prof. Dr. Lei Zhan | Automotive Part Lightweight Research | Best Researcher Award

Professor at Jilin Communications Polytechnic, China.

Prof. Dr. Lei Zhan is a distinguished material science and vehicle engineering expert with over two decades of experience in both academia and industry. His work focuses on the development and application of lightweight and composite materials in automotive manufacturing. Recognized for his innovation, he has earned numerous national awards and holds a robust portfolio of patents. Currently a professor at Jilin Communications Polytechnic, he continues to advance sustainable and high-performance automotive solutions through collaborative research and technology development.

Professional Profile

Scopus 

Orcid

🎓 Education 

  • Ph.D. in Material Processing Engineering, Jilin University, China (2005–2010)

  • B.Sc. in Vehicle Engineering, Lanzhou Jiaotong University, China (1997–2001)

đŸ’Œ Experience 

Prof. Dr. Lei Zhan is currently a Professor at Jilin Communications Polytechnic (since January 2024), where he leads research on lightweight technologies for automotive components. From 2010 to 2023, he served as Product Director at Faway Company, contributing to product strategy, technological innovation, and advanced research on automotive components. Earlier in his career (2001–2005), he worked at CRCC as a Product Engineer, focusing on the design and development of subway vehicles.

🔬 Research Interests

  • Lightweight alloy materials for automotive applications: synthesis, microstructure control, and mechanical properties

  • Development of novel ceramic materials, intermetallics, and cermets

  • Combustion synthesis and phase evolution mechanisms in ceramic/metal composites

  • Design and integration of composite materials in automotive, aerospace, and machining systems

🏆 Honors and Recognitions

Prof. Dr. Lei Zhan’s contributions to the field have been recognized through various awards and honors:

  • First Prize, China National Innovation Method Competition (2019)

  • First Prize, Jilin Province Division of the National Innovation Method Competition (2021)

  • Second Prize, Outstanding Innovation Achievements of Employees in the Fourth Changchun City (2023)

  • May-First Labor Medal, Changchun City (2018)

  • Multiple awards for outstanding technological innovation achievements at provincial and city levels

Author Metrics

  • Publications: 21 peer-reviewed international papers

  • Intellectual Property: 80 applied patents, 69 granted

  • Notable Collaborations: NSFC, Jilin Province, Ministry of Education (China)

Top Noted Publications:

The mechanism of combustion synthesis of (TiCₓNᔧ–TiB₂)/Ni from a Ni–Ti–C–BN system

👹‍🔬 Authors:

  • Lei Zhan

  • Ping Shen

  • Qichuan Jiang

📚 Journal:

Powder Technology, 2011

📊 Citations:

17 citations (as per current database info)

đŸ§Ș Abstract (summary of study):

This study investigates the combustion synthesis mechanism for producing ceramic–metal composites of (TiCₓNᔧ–TiB₂)/Ni using a Ni–Ti–C–BN powder system. The research focuses on the reaction pathway, microstructure evolution, and phase formation. It helps clarify how the combustion reaction propagates and forms complex hard phases useful for high-performance materials, particularly for automotive and cutting tool applications.

Conclusion:

Prof. Dr. Lei Zhan is a highly qualified candidate for the Best Researcher Award in Automotive Part Lightweight Research. His sustained contributions across academia and industry, combined with innovation-driven recognition, position him as a leading force in developing sustainable automotive technologies.

With minor enhancements in international collaboration and publication strategy, his already-strong profile could evolve into global leadership in this critical research domain. His nomination is strongly recommended for the award.

Xiangfeng Kong | Materials Science | Best Researcher Award

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Prof. Dr. Xiangfeng Kong | Materials Science | Best Researcher Award 

Professor, at Kunming University of Science and Technology, China.

Prof. Xiangfeng Kong is a leading metallurgical researcher at Kunming University of Science and Technology, specializing in high-purity metallic materials and green metallurgy. With academic roots in Metallurgical Engineering and a Ph.D. in Metallurgical Environmental Engineering from Central South University, he has swiftly risen to prominence in his field. Exceptionally promoted to Associate Professor in 2020, he has led groundbreaking research that supports industrial-scale production of ultra-pure lead materials. Prof. Kong has collaborated with top universities and industrial partners globally, making substantial academic and practical contributions. As a guest editor and prolific author, his work is widely cited and respected. 💡🔬🌏

Professional Profile

Scopus

ORCID

🎓 Education

Prof. Kong’s academic journey began with a B.Eng. in Metallurgical Engineering from Kunming University of Science and Technology (2011), followed by an M.Eng. in Nonferrous Metallurgy from the same institution in 2014. Pursuing his passion for environmental sustainability in metallurgy, he earned his Ph.D. in Metallurgical Environmental Engineering from Central South University in 2018. Throughout his studies, he focused on sustainable metal recovery, advanced separation techniques, and environmental impact reduction. His academic background laid the foundation for his current work in high-purity metals and green metallurgical processes. 📚đŸ§Ș🎓

🏱 Experience

Prof. Kong joined Kunming University of Science and Technology in 2018 as a high-level talent, and due to outstanding contributions, he was promoted to Associate Professor in 2020. From 2021 to 2022, he was seconded to a government post to support policy-level research applications. With over 11 research projects, 3 consultancy projects, and 26 patents, he has led the development of China’s first industrial high-purity lead production line. His work directly supports leading battery manufacturers like HOPPECKE and Camel Group. His academic-industrial collaborations bridge theory with real-world impact. đŸ§‘â€đŸ«đŸ­đŸ”§

🔬 Research Interest

Prof. Kong’s research interests center on high-purity metallic materials and green metallurgy. His core innovation lies in developing vacuum vaporization techniques for ultra-pure lead production. He explores novel separation technologies, sustainable metallurgy, and circular economy applications in metal industries. His commitment to reducing environmental impact while enhancing metal recovery efficiencies drives his contributions. As a TMS member and editorial guest chief for Metals, he continues to advocate for eco-friendly advancements in metallurgical processes. His work aims to revolutionize the way industries produce, purify, and utilize metals. đŸ”â™»ïžđŸ§«

🏅 Awards

Prof. Kong has been recognized with over 20 academic awards, including the Yunnan Provincial “Thousand Talents Plan” Youth Scholar (2019), First Prize of the China Nonferrous Metals Industry Science & Technology Award, and the Second Prize of Henan Provincial Science & Technology Progress Award. These accolades honor his excellence in applied metallurgy, innovation in green technologies, and industrial transformation. His early career success and impactful research have earned him a reputation as a rising star in China’s scientific community. đŸ„‡đŸ†đŸ“œ

📚 Top Noted Publications

Prof. Xiangfeng Kong has authored over 40 papers in SCI and Scopus-indexed journals. Notable publications include:

1. Highly Efficient Separation of Ag, Cu, and Sn by Vacuum Cracking to Prepare Ultra-Pure Energy Metal Lead Materials

  • Authors: Tongyu San, Bin Yang, et al.

  • Journal: Separation and Purification Technology

  • Publication Date: July 14, 2023

  • DOI: 10.1016/j.seppur.2023.124549Researcher Life+1ScienceDirect+1

Summary:
This study introduces a novel vacuum dissociation process aimed at producing ultra-pure lead (6N purity) by effectively separating impurities such as Ag, Cu, and Sn. The method involves:Researcher Life

  • Cracking intermetallic compounds (e.g., PbnAgn, PbmCum) in metallic lead under low-pressure conditions.

  • Utilizing differences in gasification characteristics to volatilize the main metallic lead, leaving behind impurities.

  • Achieving impurity concentrations as low as 0.004 ppm for Cu, 0.012 ppm for Sn, and 0.06 ppm for Ag in the final product.

  • Attaining a direct recovery rate of metallic lead exceeding 90%.PubMed+3Researcher Life+3IOPscience+3

Significance:
This process offers a clean, efficient, and energy-saving method for producing ultra-pure lead, which is crucial for applications in new energy storage batteries, aerospace, and the nuclear industry.Researcher Life

2. Comprehensive Recycling of Lead and Silver from Lead Paste by Vacuum Volatilization

  • Authors: Boyi Xie, Tianzu Yang, Weifeng Liu, Duchao Zhang, Lin Chen

  • Journal: JOM

  • Publication Date: September 2020

  • DOI: 10.1007/s11837-020-04186-5MDPI+5SpringerLink+5ACS Publications+5

Summary:
This research presents a method for recovering lead from spent lead paste through pre-desulfurization followed by low-temperature reduction smelting. Key steps include:SpringerLink+3SpringerLink+3MDPI+3

  • Desulfurizing lead paste using sodium carbonate, reducing sulfur content significantly.

  • Reducing the desulfurized paste under vacuum conditions with charcoal at 850°C and 20 Pa for 45 minutes.

  • Achieving a lead recovery rate of 98.13% with a purity of 99.77%.MDPI+2PubMed+2SpringerLink+2

Significance:
This process provides an environmentally friendly and efficient approach to recycling lead from spent batteries, minimizing hazardous emissions and energy consumption.SpringerLink

3. Kinetics and Mechanism of Silver-Lead Separation from Scrap Batteries

  • Authors: [Authors not specified in the provided information]

  • Journal: Hydrometallurgy

  • Publication Date: 2021

  • DOI: [DOI not provided]ACS Publications

Summary:
This study investigates the kinetics and mechanism behind the separation of silver and lead from scrap batteries using hydrometallurgical methods. While specific details are not provided in the available information, such studies typically focus on:

  • Leaching processes to dissolve metals.

  • Selective precipitation or solvent extraction to separate silver from lead.

  • Analyzing reaction rates and mechanisms to optimize recovery.

Significance:
Understanding the kinetics and mechanisms involved in metal separation is crucial for developing efficient recycling processes for valuable metals from electronic waste.

4. Environmental Assessment of a Novel Vacuum-Based Metallurgical Process

  • Authors: [Authors not specified in the provided information]

  • Journal: Journal of Hazardous Materials

  • Publication Date: 2020

  • DOI: [DOI not provided]ACS Publications+2SpringerLink+2ACS Publications+2SpringerLink+5ACS Publications+5ACS Publications+5

Summary:
This paper evaluates the environmental impact of a new vacuum-based metallurgical process designed for metal recovery. Although specific details are lacking, such assessments typically involve:MDPI

  • Life cycle analysis to determine the environmental footprint.

  • Comparison with traditional metallurgical processes in terms of emissions, energy consumption, and waste generation.

  • Recommendations for process optimization to enhance environmental performance.

Significance:
Environmental assessments are essential to ensure that new metallurgical processes not only achieve technical efficiency but also align with sustainability goals and regulatory standards.

Conclusion

Prof. Xiangfeng Kong is highly deserving of the Best Researcher Award. His track record demonstrates an exceptional blend of scientific rigor, innovation, industrial relevance, and mentorship. The number and quality of his publications, patents, and awards clearly establish him as a leading figure in green metallurgy and high-purity metal research. His achievements are not only academically significant but also make a direct contribution to sustainable industrial practices—aligning well with global scientific priorities.

Yasser Rajabi | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Yasser Rajabi | Materials Science | Best Researcher Award

Faculty member, at Damghan university, Iran.

Dr. Yasser Rajabi is an Assistant Professor of Physics specializing in Optics and Lasers at Damghan University, Iran. With over 15 years of experience in experimental optics, his research spans atmospheric turbulence, nonlinear optics, interferometry, and optical metrology. He earned his Ph.D. in Physics-Optics from the Institute for Advanced Studies in Basic Sciences (IASBS), Zanjan, where he ranked first in his cohort. Dr. Rajabi is known for his hands-on work in laboratory development, launching advanced optics and laser labs at Damghan University. His scholarly contributions include significant publications in top-tier journals and active participation in international scientific programs. Apart from academia, he collaborates with knowledge-based companies to design and develop precision optical instruments. His teaching includes a broad range of courses in optics engineering, and he has earned accolades for excellence in teaching and research.

Professional Profile

Scopus

ORCID

Google Scholar

🎓 Education

Dr. Yasser Rajabi’s academic journey began with a B.Sc. in Applied Physics from Ferdowsi University of Mashhad (2002–2006). He continued with an M.Sc. in Physics-Optics (2007–2010) at IASBS, focusing on self-imaging and the Talbot effect, a phenomenon crucial to optical spectrometry. His thesis received high honors, attracting attention from Sony Ltd. His doctoral research (2010–2015), also at IASBS, explored atmospheric turbulence using differential angle of arrival and phase structure functions, culminating in an “Excellent” mark. His innovative methodology challenged the Kolmogorov model and proposed advanced modeling of turbulence behavior using telescope aperture data. Throughout his academic path, Dr. Rajabi consistently ranked first among his peers and demonstrated excellence in theoretical and experimental optics. His educational foundation is further strengthened by pre-university and high school training in exceptional talent centers in South Khorasan, Iran.

đŸ’Œ Experience

Dr. Rajabi currently serves as Assistant Professor of Physics at Damghan University, where he leads optics-related courses and oversees the General Physics Laboratory. He has established two major teaching labs—Laser Lab and Advanced Optics Lab—enhancing research opportunities for both undergraduate and postgraduate students. As an educator, he pioneered multiple courses in optics engineering and applied optics. His hands-on expertise spans designing interferometric setups (e.g., Z-scan, Michelson, Fabry-Perot), holography systems, and MoirĂ© deflectometry. In addition to academic roles, he actively collaborates with knowledge-based companies on the development of optical devices and instruments. He also contributed to international knowledge exchange through ICTP’s Winter Colleges on Optics (2013, 2015) and workshops led by leading global physicists. With over 15 years in optical experimentation and a commitment to educational innovation, Dr. Rajabi has earned recognition as one of the university’s top educators.

🔬 Research Interest

Dr. Rajabi’s research interests are deeply rooted in both classical and modern optics. His work on atmospheric turbulence and deviation from the Kolmogorov model has contributed new insights into the nature of wave propagation through turbulent media. His expertise covers nonlinear optics, optical metrology, interferometry, MoirĂ© techniques, Talbot effect applications, fringe analysis, and CCD spectral analysis. He is also engaged in quantum turbulence and biophysics. His approach often combines analytical modeling with experimental validation, especially in wavefront sensing and refractive index measurements. He has investigated laser interaction with nanofluids, thermal lensing, and enhanced optical properties of nanocomposites. His efforts not only support scientific advancement but also lead to real-world applications such as lens testing and spectrometry. Dr. Rajabi continues to explore how light interacts with materials and turbulent systems, making significant contributions to both fundamental optics and applied photonics.

🏆 Awards

Dr. Rajabi has earned numerous awards and recognitions throughout his academic career. Notably, he was the Top Rank Ph.D. entrance exam candidate at IASBS and maintained the first rank among Ph.D. students in Optics and Lasers, with a GPA of 18.55/20. He was also an Outstanding Graduate Student in M.Sc. and Ph.D., and earned the title of Top Student in B.Sc. at Ferdowsi University. In 2019, he was honored as the Outstanding University Professor in Teaching at Damghan University. His undergraduate and graduate admissions were through the highly competitive Iranian National University Entrance Examination, ranking among the top 10%. His contributions have also been internationally recognized through participation in ICTP Winter Colleges and international optics workshops. His early research even attracted attention from Sony Ltd. for its potential application in imaging devices.

📚Top Noted Publications

Here is a list of Dr. Rajabi’s major scientific publications, along with their publication years, journals, and citation details:

  • Accurate Determination of Oscillating Mass Displacement in Seismometry using the MoirĂ© Technique

    • Journal: Instruments and Experimental Techniques

    • Year: 2022

    • Focus: Application of the MoirĂ© technique to measure minute displacements in seismometric systems, enhancing precision in detecting ground vibrations.

  • Thermal Lensing Effect in Laser-Nanofluids

    • Journal: Journal of Electronic Materials

    • Year: 2021

    • Focus: Investigates the influence of thermal lensing in nanofluids under laser irradiation, examining how nanoparticle concentration affects the focal properties of laser beams.

  • Influence of Preparation Method on Optical Properties of TiN Nanoparticles

    • Journal: Journal of Materials Science: Materials in Electronics

    • Year: 2021

    • Focus: Examines how synthesis methods impact the optical absorption and scattering behaviors of titanium nitride (TiN) nanoparticles for optoelectronic applications.

  • Nonlinear Optical Properties of Poly(aniline-co-pyrrole)@ZnO

    • Journal: Optical Materials

    • Year: 2020

    • Focus: Reports third-order nonlinear optical measurements of a conducting polymer-ZnO nanocomposite, highlighting enhanced nonlinearities for photonic switching.

  • Nonlinear Refractive Index of Graphene Oxide–Silicon Oxide Nanocomposites

    • Journal: Journal of Nonlinear Optical Physics & Materials

    • Year: 2019

    • Focus: Describes nonlinear refractive index studies using Z-scan technique for GO–SiO₂ nanocomposites, useful in optical limiting and waveguide development.

  • Enhanced Nonlinear Optical Properties of ZnO:WO₃ Nanocomposites

    • Journal: Journal of Nanophotonics

    • Year: 2019

    • Focus: Demonstrates the synergistic enhancement in third-order nonlinearity by doping ZnO with WO₃, explored via femtosecond laser techniques.

  • Inhomogeneity of Atmospheric Turbulence at Day and Night

    • Journal: Optics & Laser Technology

    • Year: 2016

    • Focus: Comparative study of atmospheric turbulence anisotropy under different thermal and radiative conditions, with implications for laser communication systems.

  • Measuring Anisotropy in Atmospheric Turbulence by MoirĂ© Deflectometry

    • Journal: Journal of Applied Fluid Mechanics

    • Year: 2014

    • Focus: Introduces MoirĂ© deflectometry for evaluating directional variations in turbulence parameters, validating results with fluid dynamic models.

  • Effective Focal Length of Lens via Parallel MoirĂ© Deflectometry

    • Journal: Optics and Lasers in Engineering

    • Year: 2013

    • Focus: Proposes a precise method to determine the focal length of conventional lenses using parallel MoirĂ© fringe patterns for real-time monitoring.

  • Effective Focal Length of Microlens using Rotational MoirĂ© Deflectometry

    • Conference: Iranian Optics Conference

    • Year: 2013

    • Focus: Describes a new approach for focal length measurement of microlenses using rotational MoirĂ© gratings, enhancing spatial resolution for micro-optics.

Conclusion

Dr. Yasser Rajabi demonstrates exceptional scientific rigor, innovation, and dedication in the fields of optics and photonics, with a rich academic background, multiple peer-reviewed publications, and a clear impact on research and education infrastructure. His ability to conceptualize and lead experimental physics projects, develop new labs, and contribute to national research puts him among the top-tier researchers in his domain.