Fang Wang | Nanomaterials for Medicine | Research Excellence Award

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Assoc. Prof. Dr. Fang Wang | Nanomaterials for Medicine | Research Excellence Award

China University of Petroleum | China

Assoc. Prof. Dr. Fang Wang is a highly cited researcher with significant contributions to nanotechnology and nanomedicine, reflected by 2,363 Scopus citations across 138 scholarly documents and an h-index of 27. Her research focuses on the design of multifunctional nanoplatforms for precision cancer therapy, integrating DNA nanotechnology, inorganic heterojunctions, and bioresponsive systems. She has made notable advances in targeted drug delivery, photothermal, photodynamic, chemodynamic, and synergistic chemo-therapeutic strategies using programmable nanocomplexes. Her work emphasizes structure–function relationships, catalytic enhancement, and light–matter interactions to achieve high therapeutic efficacy with minimal off-target effects. Assoc. Prof. Dr. Fang Wang’s research outcomes have been published in high-impact international journals, contributing to translational nanomedicine and advanced therapeutic design. She has actively contributed to interdisciplinary R&D, innovation-driven nanomaterial development, peer-review activities, and editorial and conference-related scholarly services, earning recognition for advancing next-generation smart nanotherapeutics.

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Featured Publications


Manganese-doped CeO2 nanoparticles with phosphatase-like activity for dual-mode detection of aluminum ions
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2025 | Citations: 2

Kumud Malika Tripathi | Nanomaterials for Energy | Excellence in Research Award

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Dr. Kumud Malika Tripathi | Nanomaterials for Energy | Excellence in Research Award

Ramalingaswami Faculty | Indian Institute of Technology (IIT) | India

Dr. Kumud Malika Tripathi is a leading nanotechnology researcher whose work spans green hydrogen production, carbon capture and utilization (CCUS), environmental remediation, biosensing technologies, and advanced nano-carbon materials. With more than 5,138 scopus citations, a strong 42 h-index, and over 100 peer-reviewed publications, she has established an international reputation for pioneering sustainable nanomaterials and carbon-based functional systems. Her research contributions center on the design of biomass-derived carbon nanostructures, including graphene aerogels, carbon nano-onions, carbon quantum dots, and hybrid heterostructures. These materials underpin breakthroughs in visible-light photocatalysis, wastewater treatment, degradation of emerging pollutants, flexible electronics, self-charging power units, and high-performance energy storage devices such as zinc-ion hybrid supercapacitors and zinc-air batteries. Her work has significantly advanced green routes for producing nano-carbons from waste sources, demonstrating strong circular-economy impact in environmental and energy applications. Dr. Kumud Malika Tripathi’s research group has made influential contributions to non-invasive disease diagnostics, particularly through graphene-quantum-dot-based optical sensors and FRET-based platforms for detecting biomarkers, gases, and trace analytes. She has authored multiple high-impact publications in journals such as Chemical Engineering Journal, Nanoscale, ChemComm, ACS Sustainable Chemistry & Engineering, Carbon, and Scientific Reports. Her innovations extend to patents on metal-air battery electrolytes, photocatalysts, flexible batteries, wastewater bioremediation, and graphene-based heterostructures, reflecting strong translational and R&D capabilities. A consistent recipient of prestigious research recognitions, she has been honored with RSC Emerging Investigator recognition, RSC Excellent Women Researcher awards, and the Ramalingaswami Re-entry Fellowship, among others. She has delivered invited talks across premier institutes and international conferences, and she serves as Associate Editor for several journals while reviewing extensively for ACS, RSC, Elsevier, Wiley, and Nature group journals. Her funded research projects-supported by DST, DBT, OIL India, Ministry of Coal, NRF-Korea, and others-focus on CO₂ conversion, biosensing, nano-carbon synthesis, pollution remediation, and renewable energy technologies. Through impactful publications, patents, collaborative projects, and editorial contributions, Dr. Kumud Malika Tripathi has become a prominent global figure in sustainable nanomaterials and advanced carbon technologies.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles

Featured Publications

1. Tyagi, A., Tripathi, K. M., Singh, N., Choudhary, S., & Gupta, R. K. (2016). Green synthesis of carbon quantum dots from lemon peel waste: applications in sensing and photocatalysis. RSC Advances, 6(76), 72423–72432. https://doi.org/10.1039/C6RA10488F

2. Das, G. S., Shim, J. P., Bhatnagar, A., Tripathi, K. M., & Kim, T.-Y. (2019). Biomass-derived carbon quantum dots for visible-light-induced photocatalysis and label-free detection of Fe(III) and ascorbic acid. Scientific Reports, 9, 15084. https://doi.org/10.1038/s41598-019-49266-y

3. Tyagi, A., Tripathi, K. M., & Gupta, R. K. (2015). Recent progress in micro-scale energy storage devices and future aspects. Journal of Materials Chemistry A, 3(45), 22507–22541. https://doi.org/10.1039/C5TA05666G

4. Tripathi, K. M., Kim, T.-Y., Losic, D., & Tung, T.-T. (2016). Recent advances in engineered graphene and composites for detection of volatile organic compounds (VOCs) and non-invasive disease diagnosis. Carbon, 110, 97–129. https://doi.org/10.1016/j.carbon.2016.08.040

5. Santhosh, C., Daneshvar, E., Tripathi, K. M., Baltrėnas, P., Kim, T.-Y., Baltrėnaitė, E., & Bhatnagar, A. (2020). Synthesis and characterization of magnetic biochar adsorbents for the removal of Cr(VI) and Acid orange 7 dye from aqueous solution. Environmental Science and Pollution Research, 27(26), 32874–32887. https://doi.org/10.1007/s11356-020-09275-1

Arulmozhi Rajaram | Nanomaterials for Energy | Women Researcher Award

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Dr. Arulmozhi Rajaram | Nanomaterials for Energy | Women Researcher Award

Assistant Professor | SRM Institute of Science and Technology | India

Dr. Arulmozhi Rajaram is an accomplished researcher in organic chemistry and nanomaterials, with strong contributions spanning photocatalysis, energy materials, perovskites, quantum dots, molecular sensors, supercapacitors, and biomedical nanotechnology. With 1,342+ Scopus citations, 67 publications, and an h-index of 20, her research impact continues to grow across interdisciplinary domains. Her scholarly work extensively explores 2D materials, heterojunction photocatalysts, boron nitride quantum dots, double perovskites, metal–organic frameworks, and multifunctional carbon nanomaterials for applications in wastewater remediation, hydrogen production, electrocatalysis, photoluminescence, and environmental sensing. She has published high-impact research in leading Q1 and Q2 journals, including ACS Applied Nano Materials, Langmuir, Ceramics International, Environmental Research, RSC Advances, Diamond & Related Materials, Surfaces and Interfaces, Journal of Water Process Engineering, and many others. Her research portfolio includes over 70 peer-reviewed journal articles, multiple international conference presentations, and book chapters on green nanotechnology, metal complexes, anticancer agents, and catalytic materials. A notable contribution includes work on interface-engineered g-C3N4-based heterostructures, advanced perovskite phosphors, and molecularly imprinted sensors, which advance sustainable energy and environmental technologies. She has demonstrated strong leadership in research projects and international collaborations, including projects funded under the SATU Joint Research Scheme, and co-investigator roles with researchers from the University of Malaya and National Taipei University of Technology on cutting-edge work in photocatalysts, nanobio-hybrids, and perovskite solar cells. Her innovative capabilities are further reflected in her published patent on a nanofluidic drug-delivery system, highlighting her contributions to translational nanotechnology. Dr. Arulmozhi Rajaram has earned numerous Best Paper Awards and institutional recognitions for research excellence at national and international levels, underscoring her sustained impact in chemical sciences and nanomaterials research. She has also guided multiple Ph.D., PG, and UG research projects, contributing significantly to research training and capacity building in advanced materials science.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles

Featured Publications

1. Ganesan, K., Jothi, V. K., Natarajan, A., Rajaram, A., Ravichandran, S., & Others. (2020). Green synthesis of copper oxide nanoparticles decorated with graphene oxide for anticancer activity and catalytic applications. Arabian Journal of Chemistry, 13(8), 6802–6814.

2. Kumar, J. V., Ajarem, J. S., Allam, A. A., Manikandan, V., R. Arulmozhi, R., & Abirami, N. (2022). Construction of SnO₂/g-C₃N₄ an effective nanocomposite for photocatalytic degradation of amoxicillin and pharmaceutical effluent. Environmental Research, 209, 112809.

3. Leelavathi, H., Muralidharan, R., Abirami, N., Tamizharasan, S., Sankeetha, S., R.Arulmozhi & Others. (2023). Construction of step-scheme g-C₃N₄/Co/ZnO heterojunction photocatalyst for aerobic photocatalytic degradation of synthetic wastewater. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 656, 130449.

4. Kumar, J. V., Kavitha, G., Arulmozhi, R., Arul, V., Singaravadivel, S., & Others. (2021). Green sources derived carbon dots for multifaceted applications. Journal of Fluorescence, 31(4), 915–932.

5. Leelavathi, H., Abirami, N., Muralidharan, R., Kavitha, H. P., Tamizharasan, S., R. Arulmozhi & Others. (2021). Sunlight-assisted degradation of textile pollutants and phytotoxicity evaluation using mesoporous ZnO/g-C₃N₄ catalyst. RSC Advances, 11(43), 26800–26812.

Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

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Dr. Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

Researcher, Center for Scientific and Technical Research in Physicochemical Analysis (CRAPC), Algeria

Dr. Amel Boudjemaa is a prolific Algerian researcher at the Centre de Recherche Scientifique et Technique en Analyses Physico-Chimiques (CRAPC), Bou Ismail, Algeria. Her scientific contributions lie primarily in photocatalysis, nanomaterials, surface chemistry, and environmental remediation. With a Scopus h-index of 20, 1,467 citations, and 90 peer-reviewed publications, her work has significantly influenced the fields of materials chemistry and sustainable environmental technologies. Her recent research focuses on the design and optimization of advanced nanostructured photocatalysts for water purification, pollutant degradation, and hydrogen generation under visible light. Notably, she has investigated heterojunction and doped oxide-based photocatalysts—such as Co₂SnO₄/Co₃O₄/SnO₂, ZnO–CuO–Al₂O₃, and Bi/Fe-doped aluminophosphates—demonstrating enhanced degradation efficiencies for pharmaceuticals and dyes like diclofenac, ibuprofen, and methyl orange. These studies integrate experimental synthesis, photochemical characterization, and mechanistic modeling to predict by-product toxicity and reaction kinetics, emphasizing both efficiency and environmental safety. Beyond photocatalysis, Dr. Amel Boudjemaa has explored hybrid and functional nanomaterials with applications in sensing, adsorption, and energy storage. Her works on platinum(IV)-carbon sphere hybrids and tin-based non-enzymatic sensors have expanded the potential of nanomaterials for electrochemical detection and clean energy technologies. Methodologically, her research combines advanced materials synthesis, surface modification, spectroscopic and electrochemical analysis, and computational prediction tools. Her interdisciplinary approach bridges materials science, environmental engineering, and green chemistry, contributing to cleaner production and pollution mitigation strategies. Overall, Dr. Amel Boudjemaa’s body of work demonstrates a consistent pursuit of innovative, sustainable solutions for environmental contaminants, positioning her among the leading North African researchers in applied photocatalysis and nanomaterial-based remediation.

Profile: Scopus | ORCID | Google Scholar | ResearcheGate | Loop | Web of Science | Linkedin

Featured Publications

Boumaza, S., Boudjemaa, A., Bouguelia, A., Bouarab, R., & Trari, M. (2010). Visible light induced hydrogen evolution on new hetero-system ZnFe₂O₄/SrTiO₃. Applied Energy, 87(7), 2230–2236.

Boudjemaa, A., Boumaza, S., Trari, M., Bouarab, R., & Bouguelia, A. (2009). Physical and photo-electrochemical characterizations of α-Fe₂O₃: Application for hydrogen production. International Journal of Hydrogen Energy, 34(10), 4268–4274.

Chezeau, B., Boudriche, L., Vial, C., & Boudjemaa, A. (2020). Treatment of dairy wastewater by electrocoagulation process: Advantages of combined iron/aluminum electrodes. Separation Science and Technology, 55(14), 2510–2527.

Boumaza, S., Boudjemaa, A., Omeiri, S., Bouarab, R., Bouguelia, A., & Trari, M. (2010). Physical and photoelectrochemical characterizations of hematite α-Fe₂O₃: Application to photocatalytic oxygen evolution. Solar Energy, 84(4), 715–721.

Boudjemaa, A., Bouarab, R., Saadi, S., Bouguelia, A., & Trari, M. (2009). Photoelectrochemical H₂-generation over spinel FeCr₂O₄ in X²⁻ solutions (X²⁻ = S²⁻ and SO₃²⁻). Applied Energy, 86(7–8), 1080–1086.

 

Dr. Wonder Dlamini | Nanotechnology | Excellence in Research

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Dr. Wonder Dlamini | Nanotechnology | Excellence in Research

Dr. Wonder Dlamini, National Yang Ming Chiao Tung University, Taiwan

Dr. Wonder Nathi Dlamini 🇸🇿 is an innovative research scientist and educator based in Taipei 🇹🇼, originally from Eswatini. With a Ph.D. in Environmental Science & Technology from NYCU 🎓 and a Master’s in Soil & Environmental Sciences from NCHU, he blends nanotechnology, microbial research, and environmental health in impactful ways. His work on antiviral nanomaterials, water purification, and indoor air quality 🌍💧 has gained international recognition through publications, global presentations 🌐, and leadership roles. As an Advanced HE Fellow and WERESA Taiwan Chapter Chair 👨‍🏫, he’s committed to sustainability, science diplomacy, and mentoring future environmental leaders 🌱🔬.

Professional Profile:

Scopus

Orcid

🏅 Summary of Suitability for Excellence in Research Award

Dr. Wonder Nathi Dlamini exemplifies the qualities of an outstanding researcher whose work bridges cutting-edge nanotechnology, microbial science, and environmental sustainability. With a global educational foundation and professional presence, he has consistently demonstrated innovation, leadership, and a commitment to addressing pressing environmental and public health challenges. His impactful research outputs, leadership in academic communities, and dedication to mentoring position him as an exceptional candidate for the Excellence in Research Award.

📚 Education & Experience 

🎓 Ph.D. in Environmental Science and Technology – NYCU, Taiwan (2021–2025)
🎓 M.Sc. in Soil and Environmental Sciences – NCHU, Taiwan (2019–2021)
🧪 Research Scientist – Specializing in antiviral nanomaterials and microbial research
👨‍🏫 Educator – Advanced HE Fellow, mentoring and teaching in multidisciplinary fields
🌏 Conference Chair & Presenter – MIREC, IEEE NANO, ISIAQ, ISEE

🚀 Professional Development 

r. Dlamini actively advances his professional journey through diverse global platforms 🌍. As Chair of the Taiwan Chapter for WERESA (2024–2025) and a member of esteemed organizations like IEEE Nanotechnology Council, ISIAQ, and ISEE 🤝, he cultivates international collaboration. He contributes as a reviewer and editorial board member for top journals including Sustainable Cities & Society and Journal of Environmental Management 📄. His commitment to ethical research, interdisciplinary leadership, and environmental stewardship 🌱 empowers him to inspire innovation and change in both academic and applied environmental science 🌐🔬.

🔬 Research Focus

Dr. Dlamini’s research lies at the intersection of nanotechnology, environmental science, and microbial biotechnology 🔬🌱. His primary focus is on engineering multifunctional nanomaterials like Cu/Ag/TiO₂ and chitosan-based composites for viral and bacterial inactivation 🦠, water purification 💧, and indoor air decontamination 🌬️. He also explores microbial interactions for sustainable agriculture 🌾, developing endophytic bacteria to enhance crop resilience under climate stress ☀️. With a deep commitment to climate-resilient ecosystems and public health, his work bridges lab-based innovation and real-world environmental solutions 🌍⚗️.

🏆 Awards & Honors 

🥇 Chairman – Taiwan Chapter, WERESA (2024–2025)
🧑‍🏫 Advanced HE Fellow – Higher Education recognition for teaching excellence
🎤 Keynote Speaker – Multiple international conferences (ISIAQ, IEEE NANO)
📢 Conference Chair – 3rd MIREC Conference, Taipei (2025)
🌟 Featured Author – Multiple high-impact journal publications and conference proceedings

Publication Top Notes:

  • Endophytic Bacteria Derived from Oryza sativa: Implications for Sustainable Agriculture
  • Enhancing Indoor Air Quality using Ag/TiO₂-CS Nanocomposite Filter Efficacy against Viral Aerosols
  • Enhancing Hospital Air Quality Through Advanced Purification Systems and Cloud-Enabled Monitoring: Strategies and Innovations
  • Enhanced Removal of Viral Aerosols using Nanosilver/TiO₂-Chitosan Filters Combined with a Negative Air Ionizer
  • Assessment of Air Pollution Emitted During Cooking Using Biomass and Cleaner Fuels in the Shiselweni Region of Eswatini (Swaziland)

Dr. Shivangi Srivastava | Nanotechnology | Women Researcher Award

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Dr. Shivangi Srivastava | Nanotechnology | Women Researcher Award

Dr. Shivangi Srivastava, IIT Maadras, India

Dr. Shivangi Srivastava is a dedicated Postdoctoral Fellow in the Department of Applied Mechanics and Biomedical Engineering at IIT Madras, India 🇮🇳. She earned her Ph.D. in Materials Science from the University of Lucknow, where she focused on nanotechnology-driven gas sensing applications 🏅. Her research expertise includes metal oxide heterostructures for gas sensors and optical fiber-based heavy metal ion detection ⚛️. Dr. Srivastava has collaborations with leading international and Indian institutions, contributing to impactful research in nanomaterials, biosensors, and computational analysis 🌍📡.

Professional Profile:

Scopus

Suitability for Best Researcher Award 🏆

Dr. Shivangi Srivastava is highly suitable for a Best Researcher Award due to her outstanding contributions to nanotechnology-driven gas sensing and biosensing applications. Her expertise spans advanced nanomaterials synthesis, optical fiber sensing, and computational analysis, making significant strides in environmental and biomedical sensor development.

Education & Experience 🎓📚

B.Sc. in Physics & MathematicsUniversity of Lucknow (2016) 🏛️
M.Sc. in PhysicsDr. Shakuntala Mishra National Rehabilitation University (2019) 🎓
Ph.D. in Materials ScienceUniversity of Lucknow 🧪
Postdoctoral FellowIIT Madras, India (Current) 🏅
Senior Research FellowDepartment of Applied Mechanics and Biomedical Engineering, IIT Madras 🔬
Research CollaborationsFrance 🇫🇷, Canada 🇨🇦, Malaysia 🇲🇾, Taiwan 🇹🇼
Collaborated with Indian institutesIIT BHU, Delhi University, IIT Madras, and BHU 🏛️

Professional Development 🚀🔬

Dr. Shivangi Srivastava has expertise in advanced nanomaterial synthesis techniques such as Hydrothermal, Chemical Vapor Deposition, and Atomic Layer Deposition 🧪. She has hands-on experience with XRD, UV-Visible Spectroscopy, FTIR, Gas Chromatography, and Optical Fiber Sensing 🏗️📡. Her computational analysis includes DFT calculations and Rietveld Refinement 🖥️. Passionate about interdisciplinary research, she has published in top-tier journals like Sensors and Actuators B: Chemical, Materials Chemistry and Physics, and ECS Sensors Plus 📑. Her work extends to developing biosensors for disease diagnosis and environmental monitoring, making significant contributions to the field of nanotechnology 🌱🌍.

Research Focus 🧑‍🔬⚛️

Dr. Shivangi Srivastava specializes in nanotechnology-based gas sensing and biosensing applications 🏗️🔬. Her Ph.D. research focused on the synthesis of metal oxide heterostructures for gas detection 🏭. Currently, she is developing nanomaterial-coated optical fibers for detecting heavy metal ions in environmental and biomedical applications 💧🩸. She also explores chemiresistor-based sensors for disease detection via human breath analysis 😷. Her work integrates computational simulations, material characterization, and real-world sensor applications 🌐. With collaborations across leading research institutes worldwide, her contributions are advancing next-generation nanomaterials and sensing technologies 🌍📡.

Awards & Honors 🏆🎖️

🏅 Recipient of multiple research fellowships 🔬
Published in top-tier scientific journals 📑
🏅 Presented at over 10 international and national conferences 🌍
🏅 Active collaboration with prestigious global research institutions 🏛️
🏅 Significant contributions to gas sensing and biosensing research 🧑‍🔬

Publication Top Notes:

Bio-based fabrication of palladium nanoparticles by using Aegle marmelos leaf extract for biomedical applications: Cytotoxicity, cell imaging studies in HeLa cells and antioxidant activity

Mr. Mehrdad Faraji | Nanoscale Awards | Best Researcher Award

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Mr. Mehrdad Faraji | Nanoscale Awards | Best Researcher Award

Mr. Mehrdad Faraji, University of Padova, Italy

Mehrdad Faraji, born on September 3, 1994, is a dedicated researcher and materials engineer currently pursuing a Ph.D. at the University of Padova, Italy, under the supervision of Irene Calliari. His expertise spans aluminum alloys, electrochemical and corrosion studies, and 2D materials. Mehrdad is also the CEO of Azmano, an educational group fostering scientific learning through virtual workshops. His academic journey, from a Bachelor’s at Hamedan University of Technology to a Master’s at Iran University of Science and Technology, has been marked by exceptional achievements and contributions to materials engineering. Fluent in Persian and English, Mehrdad is proficient in software like Microsoft Office, ZView, and CES Edupack, and has a strong passion for machine learning applications in his field.

Professional Profile:

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Evaluation for “Best Researcher Award”

Suitability Summary

Mehrdad Faraji is a promising candidate for the “Best Researcher Award,” showcasing a comprehensive profile with academic excellence, impactful research contributions, and significant achievements in materials engineering. Here’s an analysis of his qualifications

🎓Education :

Mehrdad Faraji is currently pursuing his Ph.D. in Materials Engineering at the University of Padova, Italy, focusing on advanced materials and corrosion studies. He earned his M.Sc. in Materials Engineering from Iran University of Science and Technology, Tehran, under the guidance of Professors Saeed Shabestari and S.H. Razavi, where his research emphasized thermomechanical treatments for AA5083 alloys. Mehrdad obtained his B.Sc. in Materials Engineering from Hamedan University of Technology, where his thesis explored anti-wear composites. His academic journey began with a diploma in Mathematics and Physics from Bu-Ali Sina High School, Hamedan, where he achieved a CGPA of 17.82/20.

🏢Experience :

Mehrdad Faraji has gained substantial experience in materials engineering, teaching, and research. He is the CEO of Azmano Educational Group, where he leads workshops on gas chromatography, atomic absorption spectroscopy, and materials selection using CES Edupack software. As a research assistant at Hamedan University of Technology, Mehrdad contributed to projects on aluminum alloy composites and carbide-derived nanocarbons. His industry experience includes an internship in casting and mold design at Zobrizan Company. In academia, he has authored multiple peer-reviewed articles and presented his work at international conferences. Mehrdad’s teaching endeavors include virtual and in-person workshops, emphasizing applied materials science and analytical techniques.

🏅Awards and Honors :

Mehrdad Faraji has achieved remarkable accolades throughout his academic career. He ranked 181st among 6000 candidates in Iran’s national entrance exam for a master’s degree and secured 7th and 6th places in doctoral entrance exams in 2020 and 2022, respectively. His consistent academic excellence earned him recognition as a top-ranking student during his undergraduate and master’s studies. Mehrdad has also been honored for his innovative contributions to materials engineering, with achievements highlighted through numerous conference presentations and impactful publications in renowned journals.

🔬Research Focus :

Mehrdad Faraji’s research centers on aluminum alloys, 2D materials, and electrochemical corrosion studies. His Ph.D. work at the University of Padova explores the role of natural inhibitors in enhancing the corrosion resistance of titanium and magnesium alloys. Previously, his master’s research delved into the effects of thermomechanical treatments on AA5083 alloys, enhancing their microstructure and mechanical properties. Mehrdad’s work has also advanced the understanding of carbide-derived nanocarbon structures, produced through HF electrochemical etching of MAX phases. Through innovative approaches, Mehrdad aims to bridge the gap between fundamental materials science and practical engineering applications.

Publication Top Notes:

  • “Effect of Natural Inhibitors on the Corrosion Properties of Grade 2 Titanium Alloy
  • “Simultaneous Improvement of Mechanical Strength and Corrosion Resistance in Aluminum Alloy 5083 via Severe Plastic Deformation”.
  • “Investigation of the Microstructure and Corrosion Behaviors of Composite Hard-Faced Layers on Al5052 Using SiC and TiB2 in 3.5% NaCl and 0.5 M H2SO4 Solutions”
  • “The Effects of Cold Rolling and Stabilization Treatment on the Improvement of Microstructure, Mechanical Properties, and Corrosion Behavior of AA5083 Sheet”
  • “The Electrochemical and Microstructure Effects of TiB2 and SiC Addition to AA5052/Al2O3 Surface Composite Coatings in 0.5 M H2SO4 Solution”

 

 

 

Prof. Goo-Hwan Jeong | Nanomaterials Awards | Best Researcher Award

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Prof. Goo-Hwan Jeong | Nanomaterials Awards | Best Researcher Award

Prof. Goo-Hwan Jeong, Kangwon National University, South Korea

Goo-Hwan Jeong, Ph.D., is a tenured professor in the Department of Battery Convergence Engineering at Kangwon National University, Korea. He earned his B.E. and M.E. degrees in Metallurgical Engineering from Inha University, Korea, and completed his Ph.D. in Electronic Engineering at Tohoku University, Japan, where he was also awarded the Best Graduate Student Award. Dr. Jeong has held various prestigious positions, including research roles at NTT Basic Research Lab in Japan and Gothenburg University in Sweden, as well as a visiting professorship at Drexel University in the USA. His research focuses on the synthesis and functionalization of nanomaterials, plasma processes, and the development of advanced materials for lithium-ion batteries. He has received multiple awards, including the Best Paper Award from the Korean Society of Surface Science and Engineering in 2022.

Professional Profile:

Orcid

Summary of Suitability for the Award

Dr. Jeong is a highly suitable candidate for the Research for Best Researcher Award due to his significant contributions to the field of nanomaterials and battery convergence engineering. His academic and professional trajectory, beginning with a B.E. and M.E. in Metallurgical Engineering from Inha University and culminating in a Ph.D. in Electronic Engineering from Tohoku University, reflects his deep expertise in materials science and engineering. His interdisciplinary background is further enriched by postdoctoral research and professorial roles across globally recognized institutions.

🎓Education:

Goo-Hwan Jeong earned his Bachelor of Engineering (B.E.) in Metallurgical Engineering from Inha University, Korea, in 1997. He continued his studies at Inha University, obtaining a Master of Engineering (M.E.) in Metallurgical Engineering in 1999. Dr. Jeong then pursued his Ph.D. in Electronic Engineering at Tohoku University, Japan, completing it in 2003. His educational background laid the foundation for his expertise in nanomaterials and advanced materials research.

🏢Work Experience:

Goo-Hwan Jeong has held several significant academic and research positions throughout his career. From 2002 to 2004, he was a JSPS Research Fellow (DC2) at Tohoku University in Japan. He then served as a Research Associate at NTT Basic Research Lab, Japan, from 2004 to 2006. Between 2006 and 2008, he was a Postdoctoral Researcher in the Department of Physics at Gothenburg University, Sweden. Since 2008, Dr. Jeong has been a Professor in the Department of Battery Convergence Engineering at Kangwon National University, Korea. He also held a Visiting Professorship at Drexel Plasma Institute, Drexel University, USA, from 2016 to 2017.

🏅Awards and Honors:

Goo-Hwan Jeong has been recognized with several prestigious awards throughout his career. In 2003, he received the Best Graduate Student Award from the President of Tohoku University, Japan, and the 21 CEO Prize from the School of Electrical and Electronic Engineering at Tohoku University. More recently, in 2022, he was honored with the Best Paper Award by The Korean Society of Surface Science and Engineering. In 2023, Dr. Jeong was appointed Chair of the ‘Semiconductor & Thin Film Division’ within the Korean Vacuum Society, further highlighting his leadership in the field.

🔬Research Focus:

Dr. Jeong’s research centers on the synthesis and functionalization of nanomaterials, including C60, carbon nanotubes (CNT), graphene, and zinc oxide (ZnO). He is also involved in plasma processes and diagnostics, focusing on atmospheric pressure and microwave plasmas. His work contributes to developing highly efficient cathode and anode materials for lithium-ion batteries, cost-effective chemical vapor deposition (CVD) processes, and applications such as photo- and gas-sensors, thermal interface materials, and transparent conductive films.

Publication Top Notes:

1.One-Pot Fabrication of Nanocomposites Composed of Carbon Nanotubes and Alumina Powder Using a Rotatable Chemical Vapor Deposition System

2. Low-Power Complementary Inverter Based on Graphene/Carbon-Nanotube and Graphene/MoS₂ Barristors

3. Single-Walled Carbon Nanotube Synthesis Yield Variation in a Horizontal Chemical Vapor Deposition Reactor

4. Investigation of Early Stage of Carbon Nanotube Growth on Plasma-Pretreated Inconel Plates and Comparison with Other Superalloys as Substrates

 

 

Prof. Smita Acharya | Nanomaterials Awards | Women Researcher Award

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Prof. Smita Acharya | Nanomaterials Awards | Women Researcher Award

Prof. Smita Acharya, Department of Physics and Materials science, RTM Nagpur university, India

Dr. Smita A. Acharya is a Professor of Physics at RTM Nagpur University, specializing in advanced materials, particularly multifunctional ceramics, polymer-ceramic composites, and energy materials. With over two decades of teaching and research experience, her work focuses on fuel cells, energy storage, and nanostructured materials. Dr. Acharya has led significant research projects funded by agencies like SERB and UGC, and her contributions to solid oxide fuel cells and multiferroic materials are widely recognized. She has received prestigious awards, including the Young Scientist Award and the Raman Fellowship, and serves in various administrative roles at her university.

Professional Profile:

Scopus

Suitability of Dr. (Mrs.) Smita A. Acharya for the Research for Women Researcher Awards

Summary of Suitability: Dr. Smita A. Acharya is an outstanding candidate for the Research for Women Researcher Awards. She holds an impressive academic and professional background as a Professor in the Department of Physics at RTM Nagpur University and leads advanced material research, particularly in ceramics and nanocomposites for energy applications. Her role as a C.V. Raman Fellow in the USA and her postdoctoral work at prestigious institutions such as Pennsylvania State University demonstrate her international recognition and commitment to scientific excellence.

🎓Education:

Dr. Smita A. Acharya earned her Ph.D. in Physics/Materials Science from RTM Nagpur University in 2008, where she focused on advanced materials and their applications in energy technologies. This foundational education has been pivotal in shaping her research trajectory and expertise in multifunctional ceramics, polymer-ceramic composites, and energy materials.

🏢Work Experience:

Dr. Smita A. Acharya has held the position of Professor in the Department of Physics at RTM Nagpur University since 2015, where she has been instrumental in advancing research and education in materials science. Prior to this, she served as an Associate Professor from 2009 to 2015. In addition to her roles at RTM Nagpur University, she has been a visiting faculty member at prestigious institutions such as Pennsylvania State University and Delaware State University in the USA, further enhancing her academic influence and collaboration in the field.

🏅Awards & Honors:

Dr. Smita A. Acharya has received several prestigious awards throughout her career, including the Young Scientist Award from the Department of Science and Technology (DST) and the Raman Fellowship from the University Grants Commission (UGC). She has also been honored with multiple Best Paper and Poster Awards, reflecting her significant contributions to the fields of materials science and energy technology.

Publication Top Notes:

  • Green and Traditional Synthesis of Copper Oxide and Its Effect on Optical Properties of CuO
  • PVDF–Novel Double Perovskite (Nd₂MnFeO₆) Organic–Inorganic Nano-Composite Membrane: For Flexible Energy Storage Devices
  • Investigation of Sr Doping Effect on Oxygen Ion De-Localization in Gd₂Ti₂O₇ Pyrochlore System and Its Influence on Charge Relaxation Dynamics and Ionic Conductivity: As Electrolyte for IT-SOFCs
  • Study of Dielectric and Electrical Properties of Novel Lead-Free Double Perovskite Oxide
  • Effect of Compaction Pressure on Sinterability, Microstructure and Electrical Behavior of Ba₀.₅Na₀.₄₈Sr₀.₀₂TiO₃ System