Farzad Nasirpouri | Coatings | Best Researcher Award

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Prof. Dr. Farzad Nasirpouri | Coatings | Best Researcher Award

Prof. Dr. Farzad Nasirpouri, Sahand University of Technology, Iran

Farzad Nasirpouri is a distinguished professor of Materials Engineering at Sahand University of Technology, Iran. Born in Shiraz, Iran in 1976, he earned his PhD in Materials Science and Engineering from Sharif University of Technology, specializing in corrosion and nanomaterials. With over 15 years of academic leadership, Nasirpouri directs cutting-edge research on electrodeposition, corrosion protection, and functional nanomaterials. He has held prestigious visiting professorships in Canada, Germany, and the UK, contributing internationally recognized work on graphene composites and electrochemical energy devices. Nasirpouriā€™s research integrates advanced surface coatings and nanotechnology to develop sustainable materials with enhanced protective properties. He has secured multiple national and international grants and has been named among the top 2% highly cited scientists globally. A prolific author and mentor, he actively leads a research group supervising numerous graduate students, fostering innovation and scientific excellence in coatings and corrosion science.

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Suitability Summary for Research for Best Researcher Award: Farzad Nasirpouri

Dr. Farzad Nasirpouri stands out as an exceptionally qualified candidate for the Research for Best Researcher Award based on his extensive academic achievements, impactful research contributions, and international collaborations in the field of materials science and engineering, particularly corrosion science and nanomaterials. His solid academic background, including a PhD from the prestigious Sharif University of Technology and visiting scholar positions at leading institutions such as the University of Bristol, University of Bath, Simon Fraser University, and GSI Helmholtz Centre, demonstrates his deep expertise and commitment to advancing materials science research on a global scale.

Over his career, Dr. Nasirpouri has successfully led and supervised numerous postgraduate students, fostering the development of future researchers while maintaining a robust research output. His leadership roles, such as Director of International Affairs and MSc program director, reflect his academic stewardship and influence beyond research, emphasizing education and administrative excellence. Notably, his rapid promotion to full professor and multiple ā€œTop Researcherā€ awards at university and faculty levels underscore his recognized research excellence within his home country.

šŸŽ“ EducationĀ 

Farzad Nasirpouriā€™s educational foundation is rooted in premier Iranian and international institutions. He obtained his Bachelorā€™s degree with first-class honors in Materials Engineering from Sahand University of Technology in 1998. Continuing his academic journey, he earned an MSc in Materials Science and Engineering with a focus on corrosion and protection at Sharif University of Technology in 2000, where he researched silver coatings and their corrosion behavior. Nasirpouri then pursued his PhD at Sharif University of Technology, completing it in 2006 with a thesis on electrodeposition of magnetic multilayered nanowires and magneto-transport studies. During his doctoral studies, he enhanced his expertise through visiting scholar positions at the University of Bristol and University of Bath in the UK, gaining advanced knowledge in physics and nanotechnology under prominent professors. This robust educational background equips him with a multidisciplinary approach combining materials science, physics, and surface engineering for advanced coatings research.

šŸ’¼ Professional ExperienceĀ 

Since 2008, Farzad Nasirpouri has served as a full professor at Sahand University of Technology, leading research, teaching, and administration in materials engineering. His responsibilities include supervising graduate research, managing academic programs on corrosion and nanomaterials, and fostering international collaborations. Nasirpouri has successfully attracted top-tier students and secured significant research funding nationally and internationally. From 2019 onward, he has held visiting professorships at Simon Fraser University (Canada) focusing on graphene-based sensors and renewable energy devices, and at GSI Helmholtz Centre (Germany) working on template electrodeposition and nanostructures. Earlier, he gained postdoctoral experience at the University of Bath, UK, specializing in electrochemical fabrication of magnetic mesostructures. His research leadership has resulted in numerous high-impact publications, grants, and industrial collaborations, emphasizing sustainable coatings and advanced nanotechnologies. Nasirpouri is also actively involved in directing international affairs and MSc programs, reflecting his commitment to academic excellence and innovation.

šŸ… Awards and RecognitionĀ 

Professor Nasirpouriā€™s exemplary contributions have earned him numerous accolades. He has been recognized repeatedly as one of the Top 2% Highly Cited Scientists worldwide by Stanford University and Elsevier (2021, 2022, 2024). In 2024, he received the prestigious David Bensted Fellowship at Simon Fraser University. Nationally, he was awarded the Iran Science Elite Federation (ISEF) Top 100 Iranian Scientist Award in 2021. Nasirpouriā€™s leadership in research has been honored by Sahand University through multiple Top Researcher Awards and the Author of the Year Award for his scholarly books. Additionally, he has won several Electroplating Industry Awards in Iran, recognizing his advancements in coating technologies and electrochemical engineering. His outstanding poster presentations at international congresses highlight his scientific communication skills. These awards underscore Nasirpouriā€™s impact on materials science, corrosion protection, and functional nanomaterials at both national and international levels.

šŸŒ Research Skills On Coatings

Farzad Nasirpouriā€™s research skills span advanced materials synthesis, surface engineering, and electrochemical characterization. He is an expert in electrodeposition techniques, focusing on magnetic multilayered nanowires, graphene composites, and functional nanomaterials. His proficiency extends to electrochemical energy devices and corrosion protection strategies, leveraging in-situ analytical methods such as atomic force microscopy (AFM), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). Nasirpouri has strong skills in fabricating and analyzing electrochemical sensors and renewable energy devices, particularly involving MXene-based composites. His experience includes heavy ion tracking, template electrodeposition, and additive manufacturing of composites. He is adept at advanced spectroscopic and microscopic techniques such as impedance spectroscopy, dielectric spectroscopy, and holography. Nasirpouriā€™s research integrates nanotechnology and sustainability, aiming to develop novel coatings with superior anti-corrosion, anti-fouling, and magnetic properties. He successfully manages interdisciplinary projects and international collaborations, translating laboratory findings into industrial applications and knowledge transfer.

šŸ“–Ā Publication Top Notes

  • Title: Epoxy/polyanilineā€“ZnO nanorods hybrid nanocomposite coatings: Synthesis, characterization and corrosion protection performance of conducting paints
    Authors: A. Mostafaei, F. Nasirpouri
    Citation: Progress in Organic Coatings, 77(1), 146ā€“159
    Year: 2014
    Citations: 368

  • Title: Corrosion resistance of Niā€“Co alloy and Niā€“Co/SiC nanocomposite coatings electrodeposited by sediment codeposition technique
    Authors: B. Bakhit, A. Akbari, F. Nasirpouri, M.G. Hosseini
    Citation: Applied Surface Science, 307, 351ā€“359
    Year: 2014
    Citations: 182

  • Title: An investigation on the effect of surface morphology and crystalline texture on corrosion behavior, structural and magnetic properties of electrodeposited nanocrystalline ā€¦
    Authors: F. Nasirpouri, M.R. Sanaeian, A.S. Samardak, E.V. Sukovatitsina, A.V. Ognev, …
    Citation: Applied Surface Science, 292, 795ā€“805
    Year: 2014
    Citations: 119

  • Title: Electrodeposition of nanostructured materials
    Author: F. Nasirpouri
    Citation: Springer International Publishing
    Year: 2017
    Citations: 109

  • Title: Preparation and characterization of a novel conducting nanocomposite blended with epoxy coating for antifouling and antibacterial applications
    Authors: A. Mostafaei, F. Nasirpouri
    Citation: Journal of Coatings Technology and Research, 10, 679ā€“694
    Year: 2013
    Citations: 87

  • Title: On the growth sequence of highly ordered nanoporous anodic aluminium oxide
    Authors: M. Ghorbani, F. Nasirpouri, A. Saedi
    Citation: Materials & Design, 27(10), 983ā€“988
    Year: 2006
    Citations: 82

  • Title: GMR in multilayered nanowires electrodeposited in track-etched polyester and polycarbonate membranes
    Authors: F. Nasirpouri, P. Southern, M. Ghorbani, W. Schwarzacher
    Citation: Journal of Magnetism and Magnetic Materials, 308(1), 35ā€“39
    Year: 2007
    Citations: 79

  • Title: Caustic corrosion in a boiler waterside tube: Root cause and mechanism
    Authors: F. Daneshvar-Fatah, A. Mostafaei, R. Hosseinzadeh-Taghani, F. Nasirpouri
    Citation: Engineering Failure Analysis, 28, 69ā€“77
    Year: 2013
    Citations: 77

  • Title: Cyclic voltammetry deposition of nickel nanoparticles on TiO2 nanotubes and their enhanced properties for electro-oxidation of methanol
    Authors: H. Cheshideh, F. Nasirpouri
    Citation: Journal of Electroanalytical Chemistry, 797, 121ā€“133
    Year: 2017
    Citations: 76

  • Title: Accuracy of implant placement using a CAD/CAM surgical guide: an in vitro study
    Authors: S. Nokar, E. Moslehifard, T. Bahman, M. Bayanzadeh, F. Nasirpouri, A. Nokar
    Citation: International Journal of Oral & Maxillofacial Implants, 26(3)
    Year: 2011
    Citations: 66

Rimeh Ismail | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Rimeh Ismail | Materials Science | Best Researcher Award

Assoc. Prof. Dr. Rimeh Ismail, Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, ƜrĆ¼mqi, ChinaĀ 

Dr. Ismail Rimeh, a Tunisian-born materials scientist, is currently serving as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, China. She earned her joint Ph.D. from the University of Tunis El Manar and the University of Montpellier in 2020. Following that, she engaged in various postdoctoral and research positions across Czech Republic and Tunisia. Dr. Rimehā€™s research expertise spans membrane-based carbon capture, solid oxide electrolysis cells for COā‚‚ reduction, and catalytic oxidation of VOCs. Her interdisciplinary approach blends electrochemistry, polymer science, and nanomaterials. Recognized for her innovative work in COā‚‚ electrolysis and wastewater purification, she collaborates on international projects addressing energy and environmental challenges. With numerous publications and projects to her credit, Dr. Rimeh is advancing sustainable solutions through applied material science and engineering.

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Summary for Best Researcher Award Evaluation: ISMAIL RIMEH

Dr. Ismail Rimehā€™s credentials strongly align with the criteria for the Research for Best Researcher Award. Her academic journey, starting with a Ph.D. jointly awarded by the University of Tunis El Manar (Tunisia) and the University of Montpellier (France), laid a solid foundation for her diverse career. Since earning her doctorate in 2020, Dr. Rimehā€™s research trajectory has spanned prestigious global institutions, such as the Czech Academy of Sciences and the University of Chemistry and Technology in Prague, culminating in her current role as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry in China.

Her research expertise, focusing on materials science with an emphasis on energy and environmental science, is groundbreaking. Notably, her contributions to Direct Air Capture (DAC), CO2 electrolysis, and CO2 separation demonstrate her profound impact on pressing global challenges. Dr. Rimehā€™s postdoctoral work on the electrochemical reduction of CO2 by Solid Oxide Electrolysis Cells (SOEC) highlights her commitment to addressing climate change and advancing sustainable technologies. Furthermore, her current projects on membrane-based DAC solutions exhibit practical, innovative approaches that could significantly contribute to environmental conservation and energy efficiency.

EducationĀ 

Dr. Ismail Rimehā€™s academic path in Sciences and Technology reflects both excellence and international collaboration. She earned her Ph.D. jointly from the University of Tunis El Manar (Tunisia) and the University of Montpellier (France) between 2014 and 2020, focusing on catalysis and environmental material science. Prior to that, she pursued a Master's degree (2012ā€“2014) from the University of Tunis El Manar, gaining foundational expertise in advanced chemical technologies. Her Bachelor's degree (2009ā€“2012) was completed at the University of Carthage, Faculty of Science of Bizerte, Tunisia. She began her academic journey with a High School diploma in Experimental Sciences from Jendouba, Tunisia, in 2009. Throughout her academic training, Dr. Rimeh has consistently focused on materials chemistry, surface engineering, and nanotechnology, forming a robust educational base for her impactful research in materials science and environmental innovation.

Professional ExperienceĀ 

Dr. Ismail Rimehā€™s career spans prominent academic and research institutions across Tunisia, France, Czech Republic, and China. Since April 2024, she has been serving as an Associate Professor at the Xinjiang Technical Institute of Physics and Chemistry, where she leads projects on membrane-based Direct Air Capture and COā‚‚ electrolysis via solid oxide cells. Prior roles include a Postdoctoral Fellowship (2022ā€“2023) at the University of Chemistry and Technology, Prague, where she developed polymer films for adaptive materials. In 2021ā€“2022, she worked as a Research Assistant at the Czech Academy of Science focusing on implantable biosensors. She also participated in the U.S.-funded Innovation Post-Doc Program in Tunisia (2021). Earlier roles include teaching at the University of Jendouba (2017ā€“2018) and a doctoral research internship at the Institute of Charles Gerhardt, France (2015ā€“2017). These cumulative roles demonstrate her interdisciplinary expertise and research versatility in materials innovation.

Awards and RecognitionĀ 

Dr. Ismail Rimehā€™s contributions have earned her recognition in multiple international scientific communities. She has co-authored numerous high-impact journal publications and contributed significantly to emerging technologies in electrochemical systems, wastewater purification, and direct air capture. Her joint Ph.D. from two prestigious institutions in Tunisia and France underlines her academic excellence. Her postdoctoral appointments in the Czech Republic were awarded through competitive selection based on her proposed work in smart polymers and adaptive materials. Her active participation in the U.S.-funded Innovation Training Program demonstrates her appeal as a globally competent researcher. Furthermore, her recent appointment as Associate Professor at a leading Chinese research institute is a testament to her academic leadership. Dr. Rimeh is frequently invited to contribute to collaborative projects, reflecting her growing reputation in material science, environmental chemistry, and sustainable engineering practices.

Research Skill On Materials Science

Dr. Ismail Rimeh brings a powerful blend of interdisciplinary research skills to the fields of materials science, electrochemistry, polymer synthesis, and environmental technology. Her expertise includes membrane fabrication, COā‚‚ electrochemical reduction, and direct air capture systems. She has a deep understanding of polymer thin film deposition, supported catalysts, and nanostructured materials for environmental remediation. Her approach integrates experimental chemistry with real-world engineering applications, focusing on sustainability and efficiency. With proficiency in surface characterization techniques (SEM, FTIR, TGA, XRD), catalytic oxidation mechanisms, and adaptive systems chemistry, she contributes to cutting-edge projects aimed at solving energy and pollution crises. Dr. Rimehā€™s skills extend into data modeling, experimental design, and dynamic systems adaptationā€”critical areas in designing next-gen materials for climate-resilient technologies. Her collaborative mindset and multi-national research experience further amplify her impact in global scientific discourse.

Ā  Ā Publication Top Notes

  • Title: Ag/ZrOā‚‚ and Ag/Feā€“ZrOā‚‚ catalysts for the low temperature total oxidation of toluene in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Transition Metal Chemistry, Volume 45, Pages 501ā€“509

    • Citation Count: 15

    • Year: 2020

  • Title: Effect of the iron amount on the physicochemical properties of Feā€“ZrOā‚‚ aerogel catalysts for the total oxidation of Toluene in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Porous Materials, Volume 27, Pages 1847ā€“1852

    • Citation Count: 13

    • Year: 2020

  • Title: Potentiometric Performance of Ion-Selective Electrodes Based on Polyaniline and Chelating Agents: Detection of FeĀ²āŗ or FeĀ³āŗ Ions

    • Authors: R. Ismail, I. Å eděnkovĆ”, Z. ČernochovĆ”, I. Romanenko, O. Pop-Georgievski, et al.

    • Journal: Biosensors, Volume 12 (7), Article 446

    • Citation Count: 11

    • Year: 2022

  • Title: Acid-assisted polymerization: the novel synthetic route of sensing layers based on PANI films and chelating agents protected by non-biofouling layer for FeĀ²āŗ or FeĀ³āŗ detection

    • Authors: R. Ismail, I. Å eděnkovĆ”, J. Svoboda, M. LukeÅ”ovĆ”, Z. WalterovĆ”, E. TomÅ”Ć­k

    • Journal: Journal of Materials Chemistry B, Volume 11 (7), Pages 1545ā€“1556

    • Citation Count: 7

    • Year: 2023

  • Title: The promoting effect of Ce on Ag/ZrOā‚‚ catalyst for the total oxidation of toluene into COā‚‚ in the presence of water vapor

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Sol-Gel Science and Technology, Volume 105 (3), Pages 871ā€“880

    • Citation Count: 2

    • Year: 2023

  • Title: Effect of the amount of Ag on the performance of Ag/Ce-ZrOā‚‚ catalyst for the total oxidation of toluene

    • Authors: R. Ismail, J. Arfaoui, Z. Ksibi, A. Ghorbel, G. Delahay

    • Journal: Journal of Chemistry Letters, Pages 186ā€“191

    • Citation Count: 1

    • Year: 2024

  • Title: Invasive plant-derived carbon dots and carbon black co-deposited basalt fiber fabric as an efficient solar interface evaporator for high salinity water purification

    • Authors: Y.L. He, C.H. Zhou, Z. Chen, I. Rimeh, L. Xing, A. Yimingniyazi, A. Parkash, ...

    • Journal: Separation and Purification Technology, Volume 365, Article 132644

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: Highly conductive Cu-deposited continuous basalt fiber for electric power transmission and next-generation telecommunication applications

    • Authors: A. Parkash, R. Ismail, A. Kadier, P.C. Ma

    • Journal: Journal of Materials Science: Materials in Electronics, Volume 36 (11), Pages 1ā€“12

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: A solar-powered electrocoagulation process with a novel CNT/silver nanowire coated basalt fabric cathode for effective oil/water separation: From fundamentals to application

    • Authors: G. Achagri, R. Ismail, A. Kadier, P.C. Ma

    • Journal: Journal of Environmental Management, Volume 375, Article 124289

    • Citation Count: Not yet cited

    • Year: 2025

  • Title: Silver-based catalysts for toluene oxidation

    • Author: R. Ismail

    • Publisher: European University Publishing

    • Citation Count: Not available

    • Year: 2024

Abdelkhalek Barbouchi | Hydrometallurgy | Industry Innovator Recognition Award

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Dr. Abdelkhalek Barbouchi | Hydrometallurgy | Industry Innovator Recognition Award

Dr. Abdelkhalek Barbouchi, Cadi Ayyad University, Morocco

Abdelkhalek Barbouchi is a dedicated researcher in Materials and Process Engineering, currently pursuing his PhD at Cadi Ayyad University, Morocco. His work focuses on developing pretreatment processes for refractory gold ores. Since 2021, he has contributed significantly to REMINEX Research Center in the Mineral Processing & Extractive Metallurgy Department. Barbouchiā€™s projects emphasize sustainable metallurgy, focusing on biodegradable reagents, bioleaching, and the recovery of critical and precious metals such as gold, silver, tin, manganese, and rare earths. His collaborative work with industrial groups like Managem has had real-world applications, enhancing gold production performance in various mining operations. With strong involvement in academic teaching and supervision, he actively shares knowledge and trains future professionals. A multilingual professional with solid expertise in hydrometallurgy and electrochemistry, Abdelkhalek merges practical, theoretical, and innovative dimensions in his research, underpinned by a strong commitment to environmental responsibility and process optimization.

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Suitability for the Research for Industry Innovator Recognition Award

Abdelkhalek Barbouchiā€™s academic and professional journey positions him as an exceptional candidate for the Research for Industry Innovator Recognition Award. His current PhD research at Cadi Ayyad University focuses on the development of pretreatment processes for refractory gold ores, an area crucial to advancing the mining industry. His work, which involves the collaboration with the Reminex Research Center and Managem Group, exemplifies a commitment to bridging academic research with practical industry applications. Specifically, his projects on improving gold recovery and the development of more sustainable and efficient extraction methods are highly relevant to the ongoing challenges faced by the mining industry.

In terms of industry impact, Barbouchi has contributed significantly through his involvement in various large-scale research projects, such as the development of processes to recover precious metals, rare earths, and transition metals from ores. Notably, his work on substituting hazardous reagents in hydrometallurgical processes with biodegradable alternatives demonstrates his forward-thinking approach to sustainable industry practices. His contributions have the potential to transform mineral processing techniques, making them more environmentally friendly and cost-effective.

EducationĀ 

Abdelkhalek Barbouchi is pursuing a PhD in Materials and Process Engineering at the Department of Chemistry, Semlalia Faculty of Sciences, Cadi Ayyad University, focusing on the development of pretreatment processes for refractory gold ores in collaboration with REMINEX and the Managem Group. He holds a Masterā€™s degree in Chemistry of Inorganic Materials (2019ā€“2021) and a Bachelorā€™s degree in Materials Chemistry (2016ā€“2019), both from FSSM Marrakech. His academic journey began with a high school diploma in Physical Sciences in 2016. His education has provided a strong foundation in mineral processing, hydrometallurgy, and electrochemistry, enabling him to merge scientific research with industrial practices. Through this academic path, he has developed expertise in project planning, laboratory and pilot-scale experimentation, and the implementation of sustainable chemical processes. Barbouchi's continuous education supports his drive for innovation in metallurgical recovery techniques and environmentally friendly practices within extractive industries.

Professional ExperienceĀ 

Since 2021, Abdelkhalek Barbouchi has been working as a researcher at the REMINEX Research Center in the Department of Mineral Processing & Extractive Metallurgy. He manages research projects focused on precious metal ores, rare earth elements, and transition metals. His responsibilities include developing mineralurgical and hydrometallurgical processes, performing laboratory and pilot-scale studies, and supporting operational optimization at gold production sites like the Tri-K and CIL CTT plants. Barbouchi has led innovative projects such as substituting hazardous reagents with biodegradable alternatives, optimizing gold recovery at IAMGOLDā€™s Essakane mine, and developing bioleaching and flotation-based pretreatment methods for refractory ores. In 2023 and 2024, he contributed to recovering tin and manganese ores and valorizing rare earth elements. His hands-on experience in industrially relevant research bridges scientific advancement and environmental sustainability, making him a pivotal figure in process engineering within extractive metallurgy.

Awards and Recognition

Abdelkhalek Barbouchi has gained notable recognition through high-impact publications and active contributions to the field of hydrometallurgy. His scientific articles have been published in prestigious journals such as Acta Montanistica Slovaca, Acta Geodynamica et Geomaterialia, Ceramics International, and Chemical Papers. He also co-authored a comprehensive review on gold recovery published in the Canadian Metallurgical Quarterly. Barbouchi has been acknowledged for his innovative project contributions, especially in biodegradable reagent development and ore pretreatment processes. He is frequently involved in scientific conferences, having delivered oral presentations like the one at ICEEā€™24 on pyrite oxidation. Additionally, he plays an educational role, teaching and mentoring Master's students at Cadi Ayyad University. His recognition extends beyond academia into the industrial realm, where his collaborations with Managem Group have contributed to impactful metallurgical solutions. These accolades reflect his dual commitment to cutting-edge research and practical application in sustainable metal recovery.

Research Skills On Hydrometallurgy

Abdelkhalek Barbouchi possesses robust research skills in mineralurgical and hydrometallurgical processing. He is proficient in laboratory and pilot-scale project planning, metallurgical simulation (using HSC Chemistry), data analysis, bibliometric research, and uncertainty assessment following ISO/IEC guidelines. His technical capabilities span a wide array of ore beneficiation techniques, including flotation, densimetric, magnetic, and gravimetric separation, and hydrocycloning. In hydrometallurgy, he excels in cyanidation (CIL/CIP/CIC), carbon adsorption, cementation, and electrolysis for gold and silver recovery. Barbouchi has advanced expertise in oxidative pretreatment strategies for refractory ores, including chemical oxidation, thermal processing, and bioleaching. His soft skillsā€”communication, adaptability, team leadership, and stress managementā€”complement his scientific acumen. Trained in Lean Six Sigma and project management, he merges scientific innovation with operational excellence. His research aligns with global priorities in energy transition and environmental sustainability by targeting critical materials like manganese and rare earth elements, making him a key asset to academic and industrial research communities.

Ā Ā Publication Top Notes

  • Chemical Oxidation of Arsenopyrite by Strong Oxidizing Agents: For Oxidative Pretreatment of Refractory Arsenopyritic Gold Ores

    • Authors: A. Barbouchi, I. Er-Raqi, M. Hamchi, R. Idouhli, M. Khadiri, ...

    • Journal: Acta Geodynamica et Geomaterialia

    • Volume/Issue: 21 (3)

    • Year: 2024

  • Electrochemical Behavior of Silver During Cyanidation in the Presence of Sulfide Minerals

    • Authors: M. Mikali, A. Barbouchi, R. Idouhli, A. Abouelfida, A. Yaacoubi, I. Benzakour, ...

    • Journal: Chemical Papers

    • Volume/Issue: 77 (4), 2103-2113

    • Year: 2023

  • Enhancing SrBiā‚‚Nbā‚‚Oā‚‰ Ceramics: The Role of Neodymium Substitution in Structural, Dielectric, and Ferroelectric Properties

    • Authors: I. Anasser, M.A. Harech, T. Labbilta, A. Barbouchi, M. Afqir, Y. Hadouch, ...

    • Journal: Ceramics International

    • Volume/Issue: 51 (1), 1204-1213

    • Year: 2025

  • Advancements in Improving Gold Recovery from Refractory Gold Ores/Concentrates: A Review

    • Authors: A. Barbouchi, M. Louarrat, M. Mikali, L. Barfoud, M.A. El Alaoui-Chrifi, H. Faqir, ...

    • Journal: Canadian Metallurgical Quarterly

    • Pages: 1-18

    • Year: 2024

  • Chemical Oxidation of Pyrite by Strong Oxidizing Agents: For Pretreatment of Refractory Pyritic Gold Ores

    • Authors: A. Barbouchi, I. Er-Raqi, R. Idouhli, M. Khadiri, A. Abouelfida, M. Louarrat, ...

    • Journal: Acta Montanistica Slovaca

    • Volume/Issue: 29 (4), 773-786

    • Year: 2024

  • Highly Efficient Pretreatment for Refractory Gold Ores Using Persulfate, Catalyst, and Free Radical-Based Advanced Oxidation Processes to Improve Cyanidation

    • Authors: A. Barbouchi, S. Ayadi, R. Idouhli, M. Khadiri, A. Abouelfida, L. Barfoud, ...

    • Journal: Hydrometallurgy

    • DOI: 106488

    • Year: 2025

Youngkwon Kim | Materials Science | Best Researcher Award

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Dr. Youngkwon Kim | Materials Science | Best Researcher Award

Dr. Youngkwon Kim, Korea Research Institute of Chemical Technology, South Korea

Dr. Youngkwon Kim is a distinguished Senior Researcher at the Thin Film Materials Research Center, Korea Research Institute of Chemical Technology (KRICT), located in Daejeon, South Korea. His research focuses on developing cutting-edge materials for advanced photolithography, photoresist technology, and atomic layer deposition (ALD). With extensive experience in polymer and inorganic photoresists, Dr. Kim has made significant contributions to the semiconductor industry, particularly in developing low-dose EUV photoresists and inorganic PRs. His expertise is demonstrated through numerous high-impact publications, solidifying his reputation as an innovative researcher in materials science.

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Summary of Suitability for the Best Researcher Awards

Dr. Youngkwon Kim is highly suitable for the “Research for Best Researcher Award” due to his exceptional contributions to materials science, particularly in the field of photoresists, organic solar cells, and self-assembled polymers. As a senior researcher at the Korea Research Institute of Chemical Technology (KRICT), his work in developing advanced photoresists and contributing to the growth of thin film materials has been instrumental in shaping the future of semiconductor and solar technologies. His expertise in Atomic Layer Deposition (ALD) and self-assembled monolayers (SAM) positions him as a leader in his field, especially with the focus on next-generation materials.

Dr. Kim’s work in industry, particularly with Samsung Electronics, further highlights his suitability. Leading significant projects such as the development of low-dose EUV photoresists and the world’s first inorganic EUV PR application for memory devices demonstrates his capacity to translate cutting-edge research into practical, impactful technologies. His leadership in material development for semiconductor manufacturing reflects not only deep scientific knowledge but also a high level of innovation and impact on global industry standards.

šŸŽ“ Education

  • Ph.D. in Chemical & Biomolecular Engineering (2016 ā€“ 2020)
    Korea Advanced Institute of Science and Technology (KAIST)
    Advisor: Prof. Bumjoon J. Kim
    Thesis: Self-Assembly Behaviors of Polythiophene-based Homopolymers and Block Copolymers by Tuning Regioregularity and Molecular Weight.
  • M.S. in Chemical & Biomolecular Engineering (2014 ā€“ 2016)
    Korea Advanced Institute of Science and Technology (KAIST)
    Advisor: Prof. Bumjoon J. Kim
    Thesis: Solution assembly behaviors of poly(3-hexylthiophene)-graft-poly(2-vinylpyridine) rod-coil copolymer.
  • B.S. in Chemical & Biomolecular Engineering (2010 ā€“ 2014)
    Korea Advanced Institute of Science and Technology (KAIST)

šŸ’¼ Professional Experience

  • Senior Researcher (April 2023 ā€“ Present)
    Thin Film Materials Research Center, KRICT
  • Researching polymer & inorganic photoresists, atomic layer deposition, and self-assembled monolayers.
  • Senior Research Engineer (Sep. 2021 ā€“ Mar. 2023)
    DRAM Process Architecture Team, Samsung Electronics Co.
  • Led material development for D1b (12.8nm) and EUV PR projects for high EUV-absorption and profile-uniformity.
  • Developed worldā€™s first inorganic PR application for memory devices.
  • Senior Research Engineer (Mar. 2020 ā€“ Aug. 2021)
    Material Development Group, Samsung Electronics Co.
  • Developed DUV photoresists and photo-sensitive polyimides (PSPI).
  • Visiting Student (May 2018 ā€“ Nov. 2018)
    Material Research Laboratory, University of California, Santa Barbara.
  • Worked on polymer synthesis and electron transfer chain reactions.

šŸ… Awards and Recognition

  • Significant contributor to developing worldā€™s first inorganic PR for memory devices.
  • Published multiple high-impact research articles in prestigious journals.
  • Led numerous successful projects on photoresists, ALD, and polymers at KRICT and Samsung Electronics.
  • Recognized for innovative research techniques in semiconductor materials development.
  • Collaborative work with international research groups and universities.

šŸŒ Research Skills On Materials Science

  • Advanced materials development for semiconductor manufacturing.
  • Expertise in polymer and inorganic photoresists, particularly in EUV and DUV lithography.
  • Strong background in atomic layer deposition (ALD) and self-assembled monolayers (SAM).
  • Experience in polymer synthesis, structural control, and solution assembly.
  • Collaborative research with global research groups for high-impact studies.

Ā Ā šŸ“– Publication Top Notes

  • Title: Architectural engineering of rodā€“coil compatibilizers for producing mechanically and thermally stable polymer solar cells
    Authors: HJ Kim, JH Kim, JH Ryu, Y Kim, H Kang, WB Lee, TS Kim, BJ Kim
    Journal: ACS Nano
    Citation Count: 103
    Year: 2014

  • Title: Controlling energy levels and blend morphology for all-polymer solar cells via fluorination of a naphthalene diimide-based copolymer acceptor
    Authors: MA Uddin, Y Kim, R Younts, W Lee, B Gautam, J Choi, C Wang, …
    Journal: Macromolecules
    Citation Count: 73
    Year: 2016

  • Title: Efficient and Airā€Stable Aqueousā€Processed Organic Solar Cells and Transistors: Impact of Water Addition on Processability and Thinā€Film Morphologies of Electroactive Materials
    Authors: C Lee, HR Lee, J Choi, Y Kim, TL Nguyen, W Lee, B Gautam, X Liu, …
    Journal: Advanced Energy Materials
    Citation Count: 61
    Year: 2018

  • Title: Regioregular-block-Regiorandom Poly(3-hexylthiophene) Copolymers for Mechanically Robust and High-Performance Thin-Film Transistors
    Authors: H Park, BS Ma, JS Kim, Y Kim, HJ Kim, D Kim, H Yun, J Han, FS Kim, …
    Journal: Macromolecules
    Citation Count: 52
    Year: 2019

  • Title: Highā€Performance, Flexible NO2 Chemiresistors Achieved by Design of Imineā€Incorporated nā€Type Conjugated Polymers
    Authors: H Park, DH Kim, BS Ma, E Shin, Y Kim, TS Kim, FS Kim, ID Kim, BJ Kim
    Journal: Advanced Science
    Citation Count: 44
    Year: 2022

  • Title: Mechanistic study on the shape transition of block copolymer particles driven by length-controlled nanorod surfactants
    Authors: KH Ku, JH Ryu, J Kim, H Yun, C Nam, JM Shin, Y Kim, SG Jang, WB Lee, …
    Journal: Chemistry of Materials
    Citation Count: 43
    Year: 2018

  • Title: Regioregularity-control of conjugated polymers: from synthesis and properties, to photovoltaic device applications
    Authors: Y Kim, H Park, JS Park, JW Lee, FS Kim, HJ Kim, BJ Kim
    Journal: Journal of Materials Chemistry A
    Citation Count: 41
    Year: 2022

  • Title: Chain-length-dependent self-assembly behaviors of discrete conjugated oligo (3-hexylthiophene)
    Authors: Y Kim, H Park, A Abdilla, H Yun, J Han, GE Stein, CJ Hawker, BJ Kim
    Journal: Chemistry of Materials
    Citation Count: 37
    Year: 2020

  • Title: Disintegrable nā€type Electroactive Terpolymers for highā€performance, transient organic electronics
    Authors: H Park, Y Kim, D Kim, S Lee, FS Kim, BJ Kim
    Journal: Advanced Functional Materials
    Citation Count: 35
    Year: 2022

  • Title: Aqueous soluble fullerene acceptors for efficient eco-friendly polymer solar cells processed from benign ethanol/water mixtures
    Authors: Y Kim, J Choi, C Lee, Y Kim, C Kim, TL Nguyen, B Gautam, K Gundogdu, …
    Journal: Chemistry of Materials
    Citation Count: 35
    Year: 2018

SREEKANTH Rajagopalachar | Materials Science | Best Researcher Award

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Dr. SREEKANTH Rajagopalachar | Materials Science | Best Researcher Award

Dr. SREEKANTH Rajagopalachar, REVA University, India

Dr. Sreekanth R., an esteemed Associate Professor in the Department of Chemistry at REVA University, Bengaluru, India, is a highly accomplished researcher specializing in Physical Chemistry. With over 23 years of teaching experience, Dr. Sreekanth has made significant contributions to Material Science, particularly in fine-tuning structural properties of binary/ternary mixed metal oxides for enhanced antimicrobial applications. As a corresponding author, he has published 10 original research articles and co-authored 12 additional publications. Guiding three postgraduate students and one Ph.D. candidate, Dr. Sreekanth continues to expand his research horizon, focusing on the development of innovative methodologies in material synthesis. His extensive expertise and dedication to scientific discovery have established him as a respected figure in the field of chemistry, particularly in antimicrobial nanocomposites and heterogeneous catalysis.

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Summary of Suitability for the Award

Dr. Sreekanth R., an Associate Professor in the Department of Chemistry at REVA University, Bengaluru, India, presents a strong candidacy for the ‘Research for Best Researcher Award.’ With 23 years of teaching experience, he has significantly contributed to the field of Physical Chemistry, particularly in material science. His research work focuses on enhancing antimicrobial applications through innovative methodologies, such as optimizing the structural properties of mixed metal oxides.

He has published 10 research articles as the corresponding author and 12 as a co-author, showcasing his ability to lead collaborative research efforts. Notable publications include studies on antimicrobial activity of nanocomposites, biodiesel synthesis from novel feedstocks, and the synthesis of polyaniline-based composites with impressive structural and dielectric properties. His works are published in reputed journals such as Inorganic Chemistry Communications, Journal of Materials Chemistry B, and ChemistrySelect, demonstrating a high level of scientific rigor and contribution to knowledge advancement.

šŸŽ“ Education

Dr. Sreekanth R. holds a distinguished academic background with a Master of Science (M.Sc.) and Master of Philosophy (M.Phil.) in Chemistry, followed by a Ph.D. in Physical Chemistry. His specialization in Physical Chemistry laid a strong foundation for his research pursuits in material science. Throughout his academic journey, he has been actively involved in the design and development of chemistry syllabi for B.Sc., M.Sc., and B.Tech. programs as a member of the Board of Studies (BOS). Furthermore, Dr. Sreekanth has trained several undergraduate and postgraduate students, leading to published research papers through their collaborative project work. His commitment to academic excellence and innovative research has contributed significantly to advancing knowledge in material science and chemistry education.

šŸ’¼ Professional Experience

Currently serving as an Associate Professor at REVA University, Bengaluru, Dr. Sreekanth R. has over two decades of teaching experience. His academic career includes guiding postgraduate and Ph.D. students in various research projects within the field of Material Science. Notable research contributions involve optimizing precipitation methodologies to enhance antimicrobial properties of mixed metal oxides. Dr. Sreekanth has actively participated in faculty development programs (FDPs) and international conferences focused on material science, analytical techniques, and renewable energy. His work has not only enriched the academic curriculum but also propelled interdisciplinary research in antimicrobial nanocomposites and catalytic processes. His expertise and dedication have earned him recognition as a leading researcher and educator, striving to bridge the gap between theoretical knowledge and practical application.

šŸ… Awards and Recognition

Dr. Sreekanth R. has earned recognition for his extensive contributions to the field of Material Science and Physical Chemistry. He has actively participated in numerous international conferences, including sessions on global trends in applied sciences and renewable energy technology. His dedication to enhancing antimicrobial applications through innovative material synthesis has led to multiple publications as a corresponding author, establishing his credibility within the scientific community. Moreover, his role as a Board of Studies (BOS) committee member has been instrumental in designing chemistry syllabi for various educational programs. His efforts in training both undergraduate and postgraduate students have resulted in collaborative publications, further solidifying his reputation as a dedicated researcher and educator.

šŸŒ Research Skills On Materials Science

Dr. Sreekanth R.’s research skills are centered around Material Science, with expertise in optimizing structural properties of metal oxides for antimicrobial applications. His focus on fine-tuning binary/ternary mixed metal oxides through precipitation methodologies has led to improved antimicrobial properties, showcasing his proficiency in experimental design and data analysis. Additionally, his research extends to heterogeneous catalysis and nanocomposites, where he applies advanced synthesis techniques to enhance material properties. With a solid grasp of various analytical methods and a deep understanding of physical chemistry principles, Dr. Sreekanth continues to contribute valuable insights to the field. His guidance of postgraduate and Ph.D. students further emphasizes his research mentorship capabilities.

šŸ“– Publication Top NoteĀ 

Title: Engineering Z-scheme SnSā‚‚/rGO/g-Cā‚ƒNā‚„ ternary photocatalysts for efficient degradation of malachite green and murexide dyes under visible light
  • Authors: S.C. Shyagathur, Sarvesha Chandra, J. Pattar, Jayadev, A.H. Nagaraja Rao, Anil Halaudara, K. Mahendra, K., G. Nagaraju, Ganganagappa
  • Journal: Journal of Molecular Structure
  • Year: 2025

 

Je-ho Shim | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Je-ho Shim | Materials Science | Best Researcher Award

Assist. Prof. Dr. Je-ho Shim, Department of physics, South Korea

Shim Je-Ho, born on April 5, 1982, is an Assistant Professor in the Department of Physics at Yanbian University, China. With a strong background in condensed matter physics, he has made significant contributions in ultrafast magnetization dynamics and magnetic vortex observation. Dr. Shim earned his Ph.D. from Chungbuk National University, South Korea, under the guidance of Dong-Hyun Kim. He has previously worked as a researcher at the Max Planck Center for Attosecond Science at Pohang University of Science and Technology in Korea. His research is renowned for its focus on micromagnetic simulations, femtosecond time-resolved magneto-optic Kerr effects, and ferromagnetic resonance studies. His scientific endeavors have earned him national recognition, including a commendation from the Korean Ministry of Science and Information and Communications Technology. Dr. Shim has a proven track record of advancing knowledge in materials science and physics, with numerous impactful publications and projects.

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Research for Best Researcher Award: Shim Je-Ho’s Suitability

Shim Je-Ho’s extensive background in condensed matter physics, with a particular focus on ultrafast magnetization dynamics, makes him an excellent candidate for the Research for Best Researcher Award. He completed his Ph.D. in Condensed Matter Physics at Chungbuk National University, South Korea, under the guidance of Professor Dong-Hyun Kim, which laid a solid foundation for his expertise. His academic experience, combined with his work as a researcher at the Max Planck Center for Attosecond Science and his current role as an Assistant Professor at Yanbian University, illustrates his capacity to drive forward significant advances in the field of magnetic phenomena, specifically regarding ferromagnetic materials.

One of his most notable contributions is his groundbreaking work on magnetic vortex observation using X-ray microscopy, as well as his exploration of ultrafast magnetization dynamics through femtosecond time-resolved magneto-optic Kerr effect and micromagnetic simulations. These areas represent cutting-edge research in condensed matter physics, with implications for data storage and quantum computing technologies. His research has led to numerous publications in high-impact journals such as Nature Communications, Science Reports, and Physical Review B, further establishing his reputation as a leader in the field. Notably, his 2017 work on the “Ultrafast Giant Magnetic Cooling Effect in Ferromagnetic Co/Pt Multilayers” and his contributions to understanding ultrafast spin dynamics have expanded our understanding of magnetism at the nanoscale.

šŸŽ“ Education

Dr. Shim Je-Ho completed his Ph.D. in Condensed Matter Physics at Chungbuk National University, Korea, in September 2015, after obtaining a Master’s degree in the same field from the same institution in 2010. Under the mentorship of Dong-Hyun Kim, his graduate work focused on magnetic dynamics and micromagnetic simulations. He also earned his bachelor’s degree in physics from Chungbuk National University in 2008. His education laid the foundation for his in-depth understanding of ultrafast magnetization dynamics, magnetic vortex systems, and related phenomena. Dr. Shim’s academic journey not only equipped him with technical expertise in physics but also sparked his long-term interest in ferromagnetic resonance, X-ray microscopy, and ultrafast dynamics. His education at Chungbuk National University remains an integral part of his scientific career and continues to shape his innovative research directions.

šŸ’¼ Professional ExperienceĀ 

Dr. Shim Je-Ho has an extensive academic and research career spanning various roles in South Korea and China. After completing his Ph.D. in 2015, he served as a researcher at the Max Planck Center for Attosecond Science at Pohang University of Science and Technology, Korea, from 2015 to 2022. In this role, he advanced ultrafast magnetization dynamics research, including studies on femtosecond time-resolved magneto-optic Kerr effects and micromagnetic simulations. In 2022, he took on his current role as an Assistant Professor in the Department of Physics at Yanbian University in China, where he continues to expand his research on ultrafast magnetization dynamics, magnetic vortex observation, and ferromagnetic materials. Dr. Shimā€™s experience spans both theoretical and experimental work in condensed matter physics, making him a highly regarded expert in his field. His contributions have solidified his reputation in the global physics and materials science communities.

šŸ… Awards and RecognitionĀ 

Dr. Shim Je-Ho has received notable recognition for his contributions to the field of materials science. In April 2019, he was awarded the Minister of Science, Technology, and Information and Communications Technology Commendation during the Korea Science Day, a prestigious accolade for his groundbreaking work in natural sciences. His research on ultrafast magnetization dynamics and magnetic vortex systems has garnered attention and respect within the scientific community. The recognition of his work by the Korean Ministry of Science highlights his contributions to advancing the understanding of magnetic properties at ultrafast timescales. Additionally, Dr. Shim has been invited to present his research at leading conferences, further establishing his position as an influential figure in condensed matter physics. His award-winning research continues to shape developments in ultrafast dynamics, ferromagnetic materials, and magneto-optic technologies.

šŸŒ Research Skill On Materials Science

Dr. Shim Je-Hoā€™s research focuses on ultrafast magnetization dynamics and magnetic vortex systems, particularly their behavior at femtosecond timescales. He is proficient in utilizing advanced tools such as femtosecond time-resolved magneto-optic Kerr effects, X-ray microscopy, and micromagnetic simulations to study ferromagnetic materials and multilayers. His work on the ultrafast manipulation of exchange stiffness and the role of non-thermal electrons in spin dynamics has led to significant insights in materials science. Additionally, his research on ferromagnetic resonance (FMR) and optical-pump THz-probe studies highlights his expertise in characterizing ferromagnetic films. Dr. Shim also brings a broad range of experience in simulating various ferromagnetic patterns, contributing to both theoretical and experimental advancements in the field. His ability to combine computational methods with experimental techniques enables him to explore novel phenomena in materials science and condensed matter physics.

šŸ“– Publication Top Notes

  • Size-dependent shifts of the NĆ©el temperature and optical band-gap in NiO nanoparticles
    Authors: S. Thota, J.H. Shim, M.S. Seehra
    Journal of Applied Physics 114 (21), 99
    Year: 2013
  • Antiferromagnetic layer thickness dependence of noncollinear uniaxial and unidirectional anisotropies in NiFe/FeMn/CoFe trilayers
    Authors: H.C. Choi, C.Y. You, K.Y. Kim, J.S. Lee, J.H. Shim, D.H. Kim
    Physical Review Bā€”Condensed Matter and Materials Physics 81 (22), 224410
    Year: 2010
  • Intrinsic pinning behavior and propagation onset of three-dimensional Bloch-point domain wall in a cylindrical ferromagnetic nanowire
    Authors: H.G. Piao, J.H. Shim, D. Djuhana, D.H. Kim
    Applied Physics Letters 102 (11)
    Year: 2013
  • Induced versus intrinsic magnetic moments in ultrafast magnetization dynamics
    Authors: M. Hofherr, S. Moretti, J. Shim, S. HƤuser, N.Y. Safonova, M. Stiehl, A. Ali, …
    Physical Review B 98 (17), 174419
    Year: 2018
  • Direct observation of terahertz emission from ultrafast spin dynamics in thick ferromagnetic films
    Authors: L. Huang, J.W. Kim, S.H. Lee, S.D. Kim, V.M. Tien, K.P. Shinde, J.H. Shim, Y. Shin, …
    Applied Physics Letters 115 (14)
    Year: 2019
  • Nonlinear motion of coupled magnetic vortices in ferromagnetic/nonmagnetic/ferromagnetic trilayer
    Authors: S.H. Jun, J.H. Shim, S.K. Oh, S.C. Yu, D.H. Kim, B. Mesler, P. Fischer
    Applied Physics Letters 95 (14)
    Year: 2009
  • Domain wall propagation in wavy ferromagnetic nanowire
    Authors: H.G. Piao, J.H. Shim, S.H. Lee, D. Djuhana, S.K. Oh, S.C. Yu, D.H. Kim
    IEEE Transactions on Magnetics 45 (10), 3926-3929
    Year: 2009
  • Ultrafast dynamics of exchange stiffness in Co/Pt multilayer
    Authors: J.H. Shim, A.A. Syed, Y. Shin, J.W. Kim, H.G. Piao, S.H. Lee, K.M. Lee, J.R. Jeong, …
    Communications Physics 3 (1), 74
    Year: 2020
  • Ratchet effect of the domain wall by asymmetric magnetostatic potentials
    Authors: H.G. Piao, H.C. Choi, J.H. Shim, D.H. Kim, C.Y. You
    Applied Physics Letters 99 (19)
    Year: 2011
  • Universal field-tunable terahertz emission by ultrafast photoinduced demagnetization in Fe, Ni, and Co ferromagnetic films
    Authors: L. Huang, S.H. Lee, S.D. Kim, J.H. Shim, H.J. Shin, S. Kim, J. Park, S.Y. Park, …
    Scientific Reports 10 (1), 15843
    Year: 2020

Chu Cheng | Copper alloy | Best Researcher Award

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Assoc. Prof. Dr. Chu Cheng | Copper alloy | Best Researcher Award

šŸ‘¤Ā Assoc. Prof. Dr. Chu Cheng, Henan University of Science and Technology, China

Chu Cheng, an Associate Professor at Henan University of Science and Technology, specializes in materials science and engineering. Her research focuses on the key preparation technologies of high-purity copper and copper alloys, particularly for electronic information, as well as the development of high-performance copper matrix composites. Chu has presided over six major national and provincial projects, contributing significantly to the advancement of metallurgy and materials science. Her work has earned her several prestigious awards, including the first prize of the Henan Provincial Science and Technology Progress Award. With over 40 academic papers published in top journals and more than 20 invention patents, she is recognized as a leading figure in her field. Chu Cheng is also an active member of several editorial boards and technology innovation alliances, further cementing her influence in the materials science community.

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šŸŒŸĀ Suitability for the Research for Best Researcher Award

Chu Cheng is highly qualified for the Research for Best Researcher Award due to her exceptional accomplishments in the field of materials science and engineering. As an associate professor at the School of Materials Science and Engineering, Henan University of Science and Technology, she has made significant contributions to the development of high-purity copper and copper alloys, particularly for electronic information applications. Her work on high-performance copper matrix composites and integrated metallurgy and materials preparation processes stands out in advancing the field.

Dr. Cheng’s academic and professional background is robust. She has successfully led over six national and provincial research projects, including those funded by prestigious organizations like the Natural Science Foundation of China and the Zhongyuan Youth Talent Support Program. Her innovative contributions have earned her multiple recognitions, such as the first prize in the Henan Provincial Science and Technology Progress Award and the third prize in the Henan Provincial Patent Award.

šŸŽ“Ā Ā EducationĀ 

Chu Cheng completed her academic journey at Northeastern University, where she earned both her Masterā€™s and Doctorate degrees in Materials and Metallurgy. She began her studies at Qinghai University, obtaining a Bachelor’s degree in Mechanical Engineering. During her time at Northeastern University, Cheng developed a solid foundation in materials science, which has been integral to her research in copper alloys and composites. Her advanced education and research have positioned her at the forefront of her field, enabling her to contribute extensively to the development of high-performance copper matrix composites and the preparation technologies of high-purity copper alloys. As a passionate educator, she continues to inspire the next generation of materials scientists at Henan University of Science and Technology, where she holds the position of Associate Professor in the School of Materials Science and Engineering.

šŸ’¼ Professional ExperienceĀ 

Chu Chengā€™s professional experience spans several years, during which she has worked in diverse roles contributing to research, education, and industry innovation. After completing her academic studies, she joined Henan University of Science and Technology as a Lecturer in 2018 and advanced to Associate Professor in 2023. She has led six national and provincial projects, including those funded by the Natural Science Foundation of China and the Zhongyuan Youth Talent Support Program. Chuā€™s technical expertise lies in the preparation and processing technology of copper alloys and composites. Her innovations in integrated metallurgy and material preparation processes have led to significant advancements in her field. Additionally, she has held various leadership roles on editorial boards of prestigious journals such as Rare Metals and cMat, and she is an active member of strategic technology alliances in the non-ferrous metals and renewable resources industries.

šŸ…Awards and RecognitionĀ 

Chu Chengā€™s groundbreaking contributions to the field of materials science have been widely recognized through numerous awards and honors. She has received the prestigious first prize of the Henan Provincial Science and Technology Progress Award for her work in metallurgy. She was also honored with the third prize of the Henan Provincial Patent Award and the Science and Technology Achievement Award by the Henan Provincial Department of Education. Her innovative approach to high-performance copper matrix composites and high-purity copper alloys has not only advanced scientific knowledge but also contributed to practical applications in the electronics industry. Furthermore, Chengā€™s work in materials science has been celebrated by the Luoyang Youth Science and Technology Award, reinforcing her reputation as a leading researcher in the field. These accolades underscore her significant impact in the areas of scientific innovation, patent development, and applied materials technology.

šŸŒ Ā Research Skills On Copper Alloy

Chu Cheng possesses a diverse set of research skills that span multiple aspects of materials science, with a particular focus on metallurgy and composite materials. Her expertise includes the preparation and processing of high-purity copper and copper alloys for electronic applications, as well as the development of high-performance copper matrix composites. She has led several projects that incorporate cutting-edge technologies in integrated metallurgy and material preparation, making significant contributions to both theoretical and practical advancements. In addition to her technical proficiency, Cheng has a strong track record of innovation, having authored more than 40 academic papers in top international journals and securing over 20 invention patents. Her research skills are complemented by her leadership abilities, as demonstrated by her role in overseeing national and provincial projects. She is also well-versed in scientific communication and collaboration, serving on the editorial boards of several prestigious journals and technology alliances.

šŸ“– Publication Top Notes

  • Phase Transformation, Microstructural Evolution and Tensile Properties of a TiH2-Based Powder Metallurgy Pure Titanium
    • Authors: Zhang, H., Wang, C., Guo, J., Zhang, D., Chen, F.
    • Journal: Metals
    • Year: 2024
    • Volume: 14
  • Metal-slag separation strengthening through in situ slagging during CuW composite preparation by metallothermic reduction
    • Authors: Cheng, C., Wang, X.-Y., Zhang, T.-A., Li, X.-H., Li, K.
    • Journal: Rare Metals
    • Year: 2024
    • Volume: 4
  • Effect of APMImBr ionic liquid on the migration of silver in copper electrorefining
    • Authors: Chen, C., Cheng, C., Liu, H., Cui, Y., Song, K.
    • Journal: Journal of Materials Research and Technology
    • Year: 2024
    • Volume: 32
  • First-principles study on the structural, mechanical and thermodynamic properties of Cu-Cr-Zr alloy
    • Authors: Song, Y., Wang, G., Ni, J., Li, X., Cheng, C.
    • Journal: Physica B: Condensed Matter
    • Year: 2024
    • Volume: 685
  • Impact of 5-Amino-1H Tetrazole on Reducing Silver in Copper Cathodes during Electrorefining with High Silver Content Anode Plates
    • Authors: Chen, C., Cheng, C., Wang, M., Li, X., Song, K.
    • Journal: Metals
    • Year: 2024
    • Volume: 14
  • Novel Synthesis of CuW Composite Containing Micro- and Nano-tungsten Particles Coated with SixWy Phase via Silicothermic Coupling with Aluminothermic Reduction
    • Authors: Cheng, C., Zhang, M.-E., Wang, X.-Y., Zhang, T.-H., Song, Y.-L.
    • Journal: JOM
    • Year: 2024
    • Volume: 76
  • Strategy for co-enhancement of corrosion resistance-strength of Cu-7Ni-3Al-1Fe-1Mn alloy: Rare earth Sm microalloying
    • Authors: Han, Q., An, S., Song, K., Cheng, C., Zhang, Y.
    • Journal: Materials Today Communications
    • Year: 2024
    • Volume: 39
  • Research Progress on Corrosion and Protection of Copper-Nickel Alloys for Marine Engineering | ęµ·ę“‹å·„ē؋ē”Ø铜镍合金ēš„腐蚀äøŽé˜²ęŠ¤ē ”ē©¶čæ›å±•
    • Authors: Han, Q., An, S., Song, K., Cheng, C., Zhang, Y.
    • Journal: Cailiao Daobao/Materials Reports
    • Year: 2024
    • Volume: 38
  • Research progress in preparation technology of micro and nano titanium alloy powder
    • Authors: Jisen, Y., Minghui, W., Tingan, Z., Gang, L., Chu, C.
    • Journal: Nanotechnology Reviews
    • Year: 2024
    • Volume: 13
  • Novel Insight into the Preparation of Ti-6Al-4V Alloy Through Thermite Reduction Based on the Mass Action Concentration
    • Authors: Song, Y., Dou, Z., Cheng, C., Zhang, T.
    • Journal: Journal Wuhan University of Technology, Materials Science Edition
    • Year: 2023
    • Volume: 38

Samir Kamel | Materials Science | Best Researcher Award

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Prof. Samir Kamel | Materials Science | Best Researcher Award

šŸ‘¤Ā Prof. Samir Kamel, National Research Center, Egypt

Prof. Samir Kamel Mohamed Elzayati, Ph.D., is an eminent scientist specializing in cellulose chemistry and materials science. As the Head of the Cellulose and Paper Department at the National Research Centre (NRC) in Egypt, he has significantly contributed to research in smart materials, nanocomposites, and sustainable biomaterials. Prof. Elzayati has served as the Vice President of the Chemical Industries Research Division and has over three decades of academic and research excellence. His global collaborations span leading institutions in France, China, and the USA, enriching his work on advanced materials and green technologies. A prolific scholar, Prof. Elzayati has consistently ranked among the top 2% of scientists globally by Stanford University. His commitment to education, scientific innovation, and international collaboration positions him as a leader in materials science and cellulose technology.

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Ā šŸŒŸĀ Assessment of Suitability for the “Research for Best Researcher Award”

Summary of Suitability
Prof. Samir Kamel Mohamed Elzayati demonstrates an exceptional record of academic and professional achievements that position him as a strong contender for the “Research for Best Researcher Award.” His expertise in cellulose chemistry, biomaterials, and nanocomposites aligns closely with the award’s emphasis on impactful and innovative research. Prof. Elzayati’s prolific contributions include high-impact publications, international collaborations, and supervision of advanced research, which highlight his leadership in his field.

His inclusion on Stanford University’s global list of the top 2% of scientists for four consecutive years underscores his global recognition and scholarly influence. Prof. Elzayatiā€™s leadership roles, such as his tenure as the Head of the Cellulose and Paper Department and Vice President of the Chemical Industries Research Division, further reflect his commitment to advancing scientific research and mentoring future generations.

šŸŽ“Ā EducationĀ 

Prof. Elzayati’s academic journey reflects his dedication to chemistry and materials science. He earned his B.Sc. in Chemistry in 1989 from Ain Shams University, Egypt, followed by an M.Sc. in Chemistry in 1994. His doctoral degree, awarded in 1996, focused on advanced chemical processes, laying the foundation for his specialization in cellulose and biomaterials. Prof. Elzayatiā€™s educational background equipped him with expertise in macromolecular chemistry, enabling breakthroughs in smart materials and hydrogels. His passion for education and mentorship has led to supervising M.Sc. and Ph.D. students across Egypt and internationally, fostering the next generation of scientists. Through academic rigor and interdisciplinary collaboration, Prof. Elzayati continues to advance innovations in sustainable and advanced materials.

šŸ’¼Ā  Professional ExperienceĀ 

Prof. Elzayati has a distinguished career spanning over 30 years. He currently serves as the Head of the Cellulose and Paper Department at NRC, where he leads cutting-edge research in cellulose chemistry and nanocomposites. Previously, he held the position of Vice President of the Chemical Industries Research Division, overseeing significant advancements in applied chemical research. His international teaching roles include positions at Sabha University and Omar El-Mukhtar University in Libya, as well as the University of Malakand, Pakistan. His global engagements extend to scientific missions in France, China, and the USA, fostering collaborations that drive innovation in sustainable materials. Prof. Elzayatiā€™s dedication to academia, combined with his leadership in applied sciences, has cemented his reputation as a trailblazer in cellulose technology and materials science.

šŸ… Awards and RecognitionĀ 

Prof. Elzayatiā€™s contributions to materials science have earned him numerous accolades. Among these are the prestigious Al-Shorouk Academy Award for Scientific and Technological Creativity (2023) and the Award for Scientific Excellence in Basic Sciences from NRC (2013). Recognized globally, he has consistently featured on Stanford University’s list of the top 2% of scientists since 2019. His pioneering work in cellulose chemistry earned him the Prof. Fardus Mubark Award for Smart Materials and the Prof. Yehia Fahmy Award for excellence in cellulose, paper, and wood research. These honors highlight his dedication to advancing sustainable materials and his profound impact on scientific innovation.

šŸŒ Research Skills On Material Science

Prof. Elzayatiā€™s research skills encompass diverse areas in materials science, including cellulose chemistry, biomaterials, nanocomposites, and hydrogels. His expertise extends to developing smart materials with applications in sustainable technologies and sensors. He excels in synthesizing macromolecular structures and engineering advanced materials for renewable and environmentally friendly applications. With proficiency in multidisciplinary methodologies, Prof. Elzayati integrates chemical analysis, polymer science, and material engineering to create innovative solutions. His global collaborations and extensive publication record reflect his ability to translate complex scientific concepts into impactful research, addressing challenges in green chemistry and sustainable development.

šŸ“– Publication Top Notes

  • Pharmaceutical significance of cellulose: A review
    Authors: S. Kamel, N. Ali, K. Jahangir, S.M. Shah, A.A. El-Gendy
    Citations: 551
    Year: 2008
  • Nanotechnology and its applications in lignocellulosic composites, a mini review
    Authors: S. Kamel
    Citations: 329
    Year: 2007
  • Mechanical and antibacterial properties of novel high-performance chitosan/nanocomposite films
    Authors: A.M. Youssef, H. Abou-Yousef, S.M. El-Sayed, S. Kamel
    Citations: 197
    Year: 2015
  • Thermal behaviour and infrared spectroscopy of cellulose carbamates
    Authors: A.A.M.A. Nada, S. Kamel, M. El-Sakhawy
    Citations: 172
    Year: 2000
  • Evaluation of corn husk fibers reinforced recycled low-density polyethylene composites
    Authors: A.M. Youssef, A. El-Gendy, S. Kamel
    Citations: 150
    Year: 2015
  • Infra-red spectroscopic study of lignins
    Authors: A.A.M.A. Nada, M. El-Sakhawy, S.M. Kamel
    Citations: 145
    Year: 1998
  • Recent advances in cellulose-based biosensors for medical diagnosis
    Authors: S. Kamel, T.A. Khattab
    Citations: 137
    Year: 2020
  • Novel method of preparation of tricarboxylic cellulose nanofiber for efficient removal of heavy metal ions from aqueous solution
    Authors: R.E. Abou-Zeid, S. Dacrory, K.A. Ali, S. Kamel
    Citations: 136
    Year: 2018
  • Preparation and application of acrylonitrile-grafted cyanoethyl cellulose for the removal of copper (II) ions
    Authors: S. Kamel, E.M. Hassan, M. El-Sakhawy
    Citations: 111
    Year: 2006
  • Protective role of zinc oxide nanoparticles-based hydrogel against wilt disease of pepper plant
    Authors: A.M. Abdelaziz, S. Dacrory, A.H. Hashem, M.S. Attia, M. Hasanin, H.M. Fouda, …
    Citations: 106
    Year: 2021

Sarah Chaba Mouna | Materials Science | Academic Excellence Award

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Ms. Sarah Chaba Mouna | Materials Science | Academic Excellence Award

Medea at Dr Yahia Fares University of Medea Faculty of Science and Technology, AlgeriašŸŽ“

Sarah Chaba Mouna is an accomplished Algerian researcher with a strong academic background in Physics, particularly in Material Sciences. She holds both a Bachelor’s and a Master’s degree in Physics, with a specialization in Condensed Matter Physics and the Physics of Materials. Her expertise lies in Computational Materials Science, where she uses advanced simulation software like CASTEP to investigate the structural, electronic, elastic, optical, and thermodynamic properties of various perovskite compounds.

Professional ProfileĀ 

šŸŽ“Education

Sarah completed her high school education at Dr. Muhammed Ben Cheneb High School, Medea, in 2012, where she obtained her Baccalaureate in Experimental Sciences. She pursued higher education at Dr. Yahia Fares University of Medea, earning a Bachelor’s degree in Material Sciences (Physics) in 2015, followed by a Masterā€™s degree in the same field with a specialization in Physics of Materials in 2017.

šŸ’¼Work Experience

Sarah has built a solid foundation in computational materials science, particularly through her work on the structural, electronic, elastic, optical, and thermodynamic properties of perovskite compounds using simulation software such as CASTEP. Her research has contributed significantly to understanding the behavior of these materials under varying conditions.

šŸ› ļø Skills

Sarah possesses advanced skills in computational materials science, with expertise in using CASTEP for first-principles calculations. She is proficient in various operating systems, including Windows 7 and 10, and has a strong command of MS Office applications such as Word, Excel, and PowerPoint

šŸ†Awards and Honors

Throughout her academic and research career, Sarah has been recognized for her contributions to the field of materials science. Her work has been published in several high-impact journals, reflecting her commitment to excellence in research.

šŸ‘©ā€šŸ« Teaching Experience

While primarily focused on research, Sarah has also engaged in teaching activities, sharing her knowledge of materials science and condensed matter physics with students and peers.

šŸ‘„ Memberships

Sarah is actively involved in the scientific community, collaborating with other researchers and contributing to the collective understanding of materials science through her work.

šŸ”Research FocusĀ 

Sarahā€™s research primarily centers on computational studies of materials, with a specific interest in the structural, electronic, and thermodynamic properties of perovskites. She has explored various aspects of these materials, including their potential applications in superconductivity and other advanced technologies.

šŸ“–Publications :Ā 

  1. šŸ§Ŗ Structural, elastic, and thermodynamic properties of BaXCl3 (X= Li, Na) perovskites under pressure effect: ab initio exploration
    • Year: 2023
    • Journal: Physica Scripta, 98(6), 065949
  2. šŸ”¬ First-principles calculations to investigate structural, elastic, electronic, optical and thermal properties of La-based ternary intermetallic superconductors LaM2Si2 (M= Co, Cu, Rh, Pd, Ag, Ir, Pt, Au)
    • Year: 2023
    • Journal: Journal of Materials Research and Technology, 26, 3840-3862
  3. šŸŒŸ First principles study on the structural, elastic, electronic, optical and thermal properties of lead-free perovskites CsCaX3 (X= F, Cl, Br)
    • Year: 2023
    • Journal: Physica B: Condensed Matter, 669, 415260
  4. āš›ļø Structural, mechanical, electronic, optical and thermodynamic features of lead free oxide perovskites AMnO3 (A= Ca, Sr, Ba): DFT simulation based comparative study
    • Year: 2023
    • Journal: Physica B: Condensed Matter, 668, 415215
  5. šŸ” Physical properties of Be-based fluoroperovskite compounds XBeF3 (X= K, Rb): a first-principles study
    • Year: 2023
    • Journal: Journal of Physics: Condensed Matter, 36(5), 055701
  6. šŸ’” Structural, electronic, and optical characteristics of BaXCl3 (X= Li, Na) perovskites
    • Year: 2024
    • Journal: Materials Science and Engineering: B, 308, 117578
  7. šŸ”§ DFT study on the structural, mechanical, electronic, optical and thermodynamic properties of recently synthesized MAX Phase compounds A3InC2 (A= Zr, Hf) under ambient and ā€¦
    • Year: 2024
    • Journal: Materials Today Communications, 109964
  8. āœØ Electronic and optical characteristics of CaLiX3 (X= Cl, Br, I) perovskite compounds using the Tranā€“Blaha modified Beckeā€“Johnson potential
    • Year: 2024
    • Journal: Physica Scripta, 99(8), 085935
  9. šŸ”— Ab Initio Prediction of the Structural, Elastic and Thermodynamic Properties Under Hydrostatic Pressure of the Ternary Tetragonal Phosphides XRh2P2 (X= Ca, Ba) for Superconducting Application
    • Year: 2024
    • Journal: Journal of Superconductivity and Novel Magnetism, 1-16
  10. šŸ“š Structural, Elastic, And Electronic Properties Of LiPbBr3 Under Pressure
    • Year: 2024
    • Journal: 2nd National Conference on Materials, Energy & Environment
  11. šŸ”Ž Structural, elastic, and electronic properties under the pressure of the BaKCl3 compound
    • Year: 2023
    • Journal: International Conference on Solar Energy and Hybrid Systems (icsehs22)
  12. šŸ–„ļø First-principles calculations on structural and elastic properties of AgSrF3
    • Year: 2023
    • Journal: 3rd International Conference on Engineering and Applied Natural Sciences

 

 

Sebastian S | Materials Science | Best Researcher Award

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Dr. Sebastian S | Materials Science | Best Researcher Award

Assistant Professor at Arul Anandar College, IndiaĀ šŸŽ“

Dr. S. Sebastian is an Assistant Professor in the Department of Physics at Arul Anandar College, with over a decade of teaching experience at both undergraduate and postgraduate levels. He holds a Ph.D. from Madurai Kamaraj University and has a strong background in the field of Physics, particularly in the study of thin films for solar cell applications. Dr. Sebastian has published extensively in international journals and has actively participated in numerous conferences, workshops, and seminars. He is also involved in the development of e-content and has held several academic positions, including Consumer Club Coordinator.

Professional ProfileĀ 

šŸŽ“EducationšŸ§‘ā€šŸŽ“

Dr. S. Sebastian has a robust and comprehensive educational background that has laid the foundation for his successful career in research and teaching. He earned his Ph.D. in Physics from Arul Anandar College, Karumathur, under Madurai Kamaraj University in 2020, where his research likely focused on thin films for solar cell applications, a topic reflected in his extensive publication record. Prior to his doctoral studies, he completed an M.Phil. in Physics from Madura College, Madurai, in 2011, which provided him with a deeper understanding of advanced physics topics and prepared him for his Ph.D. research. In addition to his strong foundation in physics, Dr. Sebastian also holds significant qualifications in education. He earned an M.Ed. from JK College of Education, Dindigul, affiliated with Tamil Nadu Teachers Education University in 2010, equipping him with the pedagogical skills necessary for effective teaching. This was preceded by a B.Ed. from St. Xavier College of Education, Palayamkottai, under Manonmaniam Sundaranar University in 2008, which laid the groundwork for his career in education. Dr. Sebastianā€™s journey in physics began with a B.Sc. in Physics from GTN Arts College, Dindigul, followed by an M.Sc. in Physics from Arul Anandar College, Karumathur, both under Madurai Kamaraj University, completed in 2005 and 2007, respectively. These degrees provided him with a strong foundation in the fundamentals and advanced concepts of physics, which he has continually built upon throughout his academic and professional journey.

šŸ’¼Work Experience

Dr. S. Sebastian has a significant and stable career in academia, with over a decade of experience in teaching and research. Since June 2010, he has been serving as an Assistant Professor in the Department of Physics at Arul Anandar College, Karumathur, Madurai. His tenure at this institution has been marked by a strong commitment to education and research, particularly in the field of Physics. During his time at Arul Anandar College, Dr. Sebastian has taught both undergraduate and postgraduate courses, amassing 10 years of experience in undergraduate teaching and 9 years in postgraduate instruction. His role as an educator is complemented by his active involvement in research, where he has contributed significantly to the study of thin films for solar cell applications. Dr. Sebastianā€™s consistent and dedicated work at Arul Anandar College highlights his deep-rooted passion for teaching and his ongoing contribution to the field of Physics.

šŸ”Research FocusĀ 

Dr. S. Sebastian’s research primarily revolves around the study of thin films, with a significant focus on their applications in solar cell technology. His work involves the synthesis and characterization of various doped tin sulfide (SnS) thin films, exploring their optoelectronic properties to enhance their efficiency in photovoltaic applications. Dr. Sebastian employs innovative techniques like nebulizer spray pyrolysis (NSP) to prepare these films, which are critical in advancing low-cost, high-performance solar energy devices. His research contributions extend to understanding the microstructural and electrical properties of these materials, which are pivotal in improving their functionality and broadening their applicability in renewable energy solutions. Through his publications in reputed international journals, Dr. Sebastian has made significant strides in the field of material science, particularly in developing sustainable energy technologies.

šŸ†Awards and Honors

Dr. S. Sebastian has been recognized for his exceptional contributions to research and academia. One notable achievement is winning the First Prize in Oral Presentation at the 2nd International Conference on Recent Trends in Applied Science and Technology held at Periyar University, Salem, during August 23-25, 2018. This award highlights his ability to effectively communicate complex scientific concepts and his commitment to advancing research in the field of Physics, particularly in the area of thin film technology for solar cell applications. This recognition, among others, underscores Dr. Sebastianā€™s dedication to excellence in both research and teaching, making him a respected figure in his academic community.

Conclusion

Dr. S. Sebastian is a highly suitable candidate for the Best Researcher Award, given his extensive research output, active participation in the academic community, and commitment to teaching and student development. His achievements and contributions to the field of Physics, particularly in thin film technology, position him as a deserving recipient of this award. By focusing on collaborative research and seeking external funding, he could further elevate his research impact, making an even stronger case for future recognition.

šŸ“–Publications :Ā 

Effect of different solvents on ZnO thin films for gas sensing application by nebulizer spray pyrolysis method

Authors: Sebastian, S., Raj, C.S.A., Jacob, S.S.K., Diana, P., Ganesh, V.

Year: 2024

Citations: 0

Hydrothermal synthesis of cerium-doped Znā‚‚SiOā‚„ phosphor for futuristic lighting applications

Authors: Diana, P., Sebastian, S., Sivaganesh, D., Kumar, A., Shkir, M.

Year: 2024

Citations: 2

Unveiling the luminescence of Ī±-Znā‚‚SiOā‚„ phosphor: Profound influence of sintering temperatures

Authors: Diana, P., Sebastian, S., Sivaganesh, D., AlAbdulaal, T.H., Shkir, M.

Year: 2023

Citations: 1

UV-induced photoluminescence and X-ray-induced thermoluminescence of Znā‚‚SiOā‚„: Mn phosphor

Authors: Diana, P., Sivaganesh, D., Sivakumar, V., Sebastian, S., Saravanakumar, S.

Year: 2023

Citations: 1

Sol-gel synthesized rare earth LaĀ³āŗ ions doped Znā‚‚SiOā‚„ phosphors for lighting applications

Authors: Diana, P., Sebastian, S., Saravanakumar, S., Robert, M.C., Shkir, M.

Year: 2023

Citations: 3

Zinc silicate phosphor: Insights of X-ray induced and temperature enabled luminescence

Authors: Diana, P., Saravanakumar, S., Sivaganesh, D., Sangeetha, L., Praneeth, V.K.K.

Year: 2023

Citations: 2

Novel Znā‚‚SiOā‚„: Nb phosphor for light emitting applications

Authors: Diana, P., Sebastian, S., Saravanakumar, S., Ganesh, V., AlAbdulaal, T.H.

Year: 2023

Citations: 2

Photoluminescence and quantum yield behaviour of vanadium doped Znā‚‚SiOā‚„ phosphors facilely synthesized by sol-gel method

Authors: Diana, P., Sebastian, S., Saravanakumar, S., Shkir, M., Alqahtani, A.N.

Year: 2023

Citations: 1

Enhancement in photovoltaic properties of Nd: SnS films prepared by low-cost NSP method

Authors: Sebastian, S., Kulandaisamy, I., Arulanantham, A.M.S., Shkir, M., AlFaify, S.

Year: 2022

Citations: 16

Physical and electrical propertiesā€™ evaluation of SnS: Cu thin films

Authors: Sebastian, S., Kulandaisamy, I., Valanarasu, S., Kim, H.-S., Vikraman, D.

Year: 2021

Citations: 7