Jin Luo | Dielectric Materials | Best Researcher Award

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Dr. Jin Luo | Dielectric Materials | Best Researcher Award

Associate Professor, Nanjing Tech University, China

Dr. Jin Luo (b. February 6, 1983) is an accomplished Associate Professor and Deputy Department Head of the Composite Materials Department at Nanjing Tech University. He earned his B.Sc. in Material Chemistry from Wuhan University of Technology (2002–2006), an M.Sc. in Material Science and Technology from Zhejiang University (2006–2009), and a Ph.D. from the University of Kentucky in Material Science and Technology (2010–2014). Following a postdoctoral appointment at Tsinghua University (2015–2018), he joined Nanjing Tech University in October 2018. Dr. Luo is also a recognized Master’s supervisor. With over 30 peer‑reviewed articles in leading journals and multiple national research grants, he is a respected figure in ferroelectric and piezoelectric thin‑film research.

Professional Profile

ORCID Profile

Education

Dr. Luo’s academic journey began at Wuhan University of Technology, where he completed his B.Sc. in Material Chemistry (2002–2006). He pursued a deeper specialization in materials by earning a Master’s degree in Material Science and Technology from Zhejiang University (2006–2009). His passion for advanced functional materials led him overseas to the University of Kentucky (USA), where he completed his Ph.D. in Material Science and Technology (2010–2014). His doctoral work equipped him with extensive experimental and analytical expertise in ferroelectric and piezoelectric ceramics and thin films. This strong foundation, spanning fundamental chemistry to cutting‑edge material engineering, underpins his current research and academic accomplishments.

Experience

Dr. Luo served as a postdoctoral researcher at Tsinghua University from August 2015 to April 2018, investigating domain structure and piezoelectric properties of ferroelectric ceramic thin films. In October 2018, he joined Nanjing Tech University as an Associate Professor and now Deputy Department Head in the Composite Materials Department. He developed and teaches graduate-level courses such as “Modern Testing Methods for Materials” and “Professional Writing for Materials Science.” As a Master’s supervisor, he mentors students in materials science research. Dr. Luo has successfully led several research initiatives, including National Natural Science Foundation of China grants, Nanjing Overseas Scholars Science & Technology Innovation Program awards, and collaborative funding from Tsinghua’s State Key Lab. His administrative role, teaching contributions, and leadership in national-level projects highlight his multifaceted academic career.

Research Focus

Dr. Jin Luo specializes in the design, synthesis, and characterization of ferroelectric ceramic thin films, with emphasis on piezoelectric and energy-storage applications. His research addresses key challenges in lead-free piezoelectric materials, such as domain engineering, strain modulation, and dielectric performance optimization. Employing advanced deposition (e.g., sol‑gel, spin‑coating, epitaxy) and testing techniques, he investigates intrinsic and extrinsic piezoelectric contributions, thermotropic phase behavior, and relaxor ferroelectric structures. His objective is to develop high-performance, environmentally friendly materials (e.g., (K,Na)NbO₃, Bi₀.₅Na₀.₅TiO₃, SrBiTiO₃ systems) for practical energy-harvesting, actuator, and capacitor devices. His work bridges fundamental materials science and applied functional thin films, with over 30 high-impact publications showcasing innovations in piezoelectric response enhancement and energy density improvements.

Publication Top Notes

  1. “A slush-like polar structure for high energy storage performance in a Sr₀.₇Bi₀.₂TiO₃ lead‑free relaxor ferroelectric thin film,” Journal of Materials Chemistry A (2022).
    DOI: 10.1039/d1ta10524h
    Summary: Introduces a novel “slush-like” polar domain arrangement in SBT thin films, yielding enhanced dielectric breakdown strength and recoverable energy density—paving the way for high-efficient, lead-free film capacitors.

  2. “Orientation dependent intrinsic and extrinsic contributions to the piezoelectric response in lead‑free (Na₀.₅K₀.₅)NbO₃ based films,” Journal of Alloys and Compounds (June 2022).
    DOI: 10.1016/j.jallcom.2022.164346
    Summary: Systematically disentangles orientation-dependent piezoelectric effects in KNN films, quantifying crystal orientation’s role in intrinsic vs extrinsic contributions, informing design of superior lead-free piezoelectrics.

  3. “Optimized energy-storage performance in Mn‑doped Na₀.₅Bi₀.₅TiO₃–Sr₀.₇Bi₀.₂TiO₃ lead‑free dielectric thin films,” Applied Surface Science (Jan 2022).
    DOI: 10.1016/j.apsusc.2021.151274
    Summary: Demonstrates Mn‑doping in BNT‑SBT films enhances dielectric breakdown strength and energy density, proposing an optimized composition for practical eco-friendly film capacitors.

  4. “Enhancement of piezoelectricity in spin‑coated Bi₁/₂Na₁/₂TiO₃–BaTiO₃ epitaxial films by strain engineering,” Journal of Materials Chemistry C (2021).
    DOI: 10.1039/d1tc03917b
    Summary: Utilizes strain engineering in BNT–BT epitaxial films to boost piezoelectric properties, revealing the mechanistic link between strain and domain structure—informing thin-film actuator development.

  5. “Ferroelectric Domain Structures in Monoclinic (K₀.₅Na₀.₅)NbO₃ Epitaxial Thin Films,” physica status solidi (RRL) (June 2021).
    DOI: 10.1002/pssr.202100127
    Summary: Characterizes unique monoclinic ferroelectric domain configurations in KNN films, correlating structural features to enhanced functional responses under electric fields.

Conclusion

Dr. Jin Luo is highly suitable for the Best Researcher Award, particularly in the field of materials science with specialization in ferroelectric and piezoelectric thin films. His contributions are technically advanced, academically consistent, and nationally recognized through competitive research funding. With added visibility in international collaborations and recognition, he could further cement his status as a leading researcher in his domain.

Jinxiang Li | Nanotechnology | Best Researcher Award

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Assoc. Prof. Dr. Jinxiang Li | Nanotechnology | Best Researcher Award

Associate Professor, Nanjing University of Science and Technology, China

Dr. Jinxiang Li is an accomplished Associate Professor at the School of Environmental and Biological Engineering, Nanjing University of Science and Technology, China. With a strong foundation in municipal engineering and environmental science, Dr. Li has been advancing cutting-edge research in nanotechnology applications for environmental remediation. His expertise lies in enhancing the performance of zero-valent iron (ZVI) for the selective and reactive removal of metalloids, particularly through magnetic field coupling and reactive species manipulation. He earned his Ph.D. in Municipal Engineering from Tongji University in 2016, following his Master’s and Bachelor’s degrees from Shandong Jianzhu University. Dr. Li’s postdoctoral work at Tongji University further solidified his innovative approaches in contaminant sequestration. He has published impactful articles in top-tier journals, contributed to interdisciplinary research, and remains at the forefront of sustainable engineering. His research continues to shape modern strategies for groundwater treatment using nanomaterials and reactive interfaces.

Professional Profile

Scopus Profile

🎓 Education

Dr. Jinxiang Li’s academic journey reflects a strong interdisciplinary foundation in engineering and environmental sciences. He earned his Bachelor’s degree in Water Supply and Drainage in 2010 from Shandong Jianzhu University, followed by a Master’s degree in Municipal Engineering in 2013 from the same institution. Building upon this, Dr. Li pursued his Ph.D. in Municipal Engineering from Tongji University, graduating in 2016. His doctoral studies focused on the application of engineered materials in municipal and environmental systems. From 2017 to 2019, he conducted postdoctoral research in Environmental Science at Tongji University, where he advanced studies on reactive materials for pollutant removal. In 2019, Dr. Li joined Nanjing University of Science and Technology as an Associate Professor, where he has continued his academic and research contributions. His educational path highlights a seamless integration of civil, environmental, and materials engineering with a specialization in nanotechnology-enhanced remediation techniques.

💼 Experience

Dr. Jinxiang Li has built a robust professional trajectory in academia and research since earning his Ph.D. His current role as an Associate Professor at the School of Environmental and Biological Engineering, Nanjing University of Science and Technology (2019–present), places him at the nexus of environmental remediation and nanomaterials development. Prior to this, Dr. Li completed a Postdoctoral Fellowship in Environmental Science at Tongji University (2017–2019), where he conducted high-impact research on zero-valent iron and its enhanced reactivity in environmental applications. His early career was shaped by his doctoral and master’s research in municipal engineering, giving him critical insights into applied environmental systems. Dr. Li has led and participated in several national and institutional research projects, focusing on pollution control, groundwater treatment, and nano-iron modifications. With a strong record of mentoring graduate students and publishing in renowned journals, his experience spans fundamental science and applied engineering.

🏆 Awards and Honors

Dr. Jinxiang Li’s innovative contributions to environmental nanotechnology have been recognized through numerous honors. He has been a recipient of research project funding from provincial and national science foundations in China, including support from environmental remediation-focused programs. His articles published in journals such as the Journal of Hazardous Materials and Environmental Research have received commendable citations, reflecting their impact in academia and environmental engineering practice. As a rising researcher in advanced materials, Dr. Li has also been invited to present at national conferences on zero-valent iron reactivity and metalloid sequestration techniques. Though a detailed list of formal honors is not fully disclosed here, his role as a principal investigator on multiple funded projects, peer-review contributions, and regular scholarly publications position him as a promising awardee for international recognitions such as the Nanotechnology Award.

🔍 Research Focus

Dr. Jinxiang Li’s research centers on nanotechnology for environmental remediation, particularly through the modification and application of zero-valent iron (ZVI). His work explores the coupling of reactive iron species to enhance the efficiency, reactivity, and selectivity of ZVI in removing contaminants like selenium and chromium from groundwater. He investigates innovative strategies such as ball milling with Fe₃O₄, application of weak magnetic fields, and green rust coupling with iron nanoparticles. These approaches are designed to boost the electron efficiency and longevity of reactive iron-based materials, making them suitable for scalable water treatment applications. Dr. Li’s interdisciplinary research bridges environmental science, chemistry, and nanotechnology, focusing on reducing ecological toxicity and improving remediation sustainability. His findings contribute to the global movement toward advanced pollutant control technologies, and his work continues to influence both theoretical advancements and practical solutions in the field of nano-enabled environmental engineering.

📚 Publication Top Notes

  1. Reaction mechanism for the enhanced removal of selenite in water by ball-milling of zero-valent iron with Fe₃O₄
    Authors: Jinxiang Li, et al.
    Journal: Huagong Xuebao (Journal of Chemical Industry and Engineering – China), 2025
    Summary: This article investigates how ball-milling ZVI with Fe₃O₄ enhances selenite removal from water. The study reveals improved surface reactivity, enabling faster and more selective contaminant reduction.

  2. Relationships of ternary activities for the enhanced Cr(VI) removal by coupling nanoscale zerovalent iron with sulfidation and carboxymethyl cellulose
    Authors: Jinxiang Li, et al.
    Journal: Environmental Research, 2024
    Summary: This study explores the synergy between sulfidation and polymer stabilization of nZVI, leading to enhanced removal of hexavalent chromium. Ternary interactions were found critical in pollutant binding and electron transfer.

  3. Enhanced Reactivity and Electron Efficiency of Zerovalent Iron with Various Methods (Review Article)
    Authors: Jinxiang Li, et al.
    Summary: A comprehensive review covering advanced modification techniques to improve ZVI’s electron utilization efficiency, including doping, surface treatment, and hybrid material formation.

  4. Regulating the interlayer SO₄²⁻-induced rebound of SeO₄²⁻ in green rust coupled with iron nanoparticles for groundwater remediation
    Authors: Jinxiang Li, et al.
    Journal: Journal of Hazardous Materials, 2024
    Summary: The article delves into the unique rebound effect of selenium oxyanions and how SO₄²⁻ regulation in green rust–Fe systems offers new remediation possibilities.

Conclusion

Dr. Jinxiang Li is a strong candidate for the Best Researcher Award, especially for categories focusing on early- to mid-career researchers in environmental remediation and material-based solutions. His recent contributions are timely, scientifically sound, and aligned with pressing environmental challenges. While further outreach and higher citation metrics would strengthen his profile, the originality and technical excellence of his research make him deserving of recognition.

 

 

 

ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

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Dr. ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

PhD, Faculty of Sciences and Techniques of Tangier (FSTT), Morocco

Ilyace Korodowou is a Togolese PhD candidate in Materials Science and Engineering at the Faculty of Sciences and Techniques of Tangier, Morocco. With a background in Mathematics and Natural Sciences, Ilyace graduated with honors from Eyadema Military College in 2016. After completing studies in Biology, Chemistry, and Geology, he pursued a Bachelor’s and Master’s degree in Materials Science, focusing on materials recycling, biopolymer characterization, and sustainable technologies. His research interests include nonwoven processes, plastics, and environmental applications. Ilyace has gained valuable experience in academic research, as well as professional roles in scientific projects and laboratory environments. Outside of his studies, he enjoys reading, football, jogging, and watching crime series. His interdisciplinary approach and passion for impactful research make him a promising figure in the field of materials science.

Profile

Education

Ilyace Korodowou has pursued a diverse and rigorous educational journey in the field of Materials Science and Engineering. His academic path began at Eyadema Military College in Togo, where he completed his high school education in Mathematics and Natural Sciences in 2016. Afterward, he pursued studies in Biology, Chemistry, and Geology (DEUST), followed by a Bachelor’s degree in Chemical Analysis Techniques at Abdelmalek Essaâdi University in Tangier, Morocco. He furthered his education by obtaining a Master’s degree in Materials Engineering for Plastics and Metallurgy (GMPM), deepening his expertise in physics, chemistry, and mechanical engineering. Currently, he is a PhD candidate specializing in Materials Sciences and Engineering, focusing on the recycling, valorization, and characterization of biopolymers, as well as sustainable nonwoven processes. His research is grounded in scientific curiosity, innovation, and a commitment to environmental sustainability.

Experience

Ilyace Korodowou has developed extensive experience in materials science and research, gaining hands-on exposure in various labs and research projects. He is currently a PhD candidate at Abdelmalek Essaâdi University, where his research focuses on sustainable materials, particularly nonwoven technologies, plastics recycling, and biopolymer characterization. Ilyace also worked as a research assistant at the Technical Center of Plastics and Rubber in Casablanca, Morocco, from 2021 to 2023, gaining practical insights into plastic and rubber material processing. He has participated in a number of internships, including work at the Physico-Chemistry Laboratory of Natural Materials and the LAMSE Laboratory. His past roles also include laboratory assistance, where he supervised practical sessions for undergraduates and provided guidance on research methodologies. Additionally, Ilyace has contributed to several scientific conferences and is actively involved in mentoring students for their final-year projects, showcasing his commitment to advancing knowledge and fostering new talent in materials science.

Awards and Honors

Ilyace Korodowou has earned various academic and professional accolades in his field. Notably, he received the first prize at the third edition of the CESTOM-INNOVE project competition in 2022, awarded for his innovative ecoVALFI project, focusing on sustainable materials. His academic journey has been marked by several prestigious certifications, including a badge of achievement in “Optimization of Processes and Advanced Processes of Thermoplastics and Composites” from Institut Mines-Télécom in Paris (2024), and a series of research-focused certificates from Clarivate, University of Liège, and Paris-Saclay University. Ilyace has also excelled in numerous online learning platforms, including earning badges in Biomass and Green Chemistry, Nanoscience, and Advanced Chemistry. His ongoing academic success underscores his commitment to advancing in materials science and engineering, particularly in sustainable development and environmental preservation.

Research Focus

Ilyace Korodowou’s research focuses on the sustainable recycling and valorization of materials, particularly in the fields of biopolymers, nonwoven technologies, and plastic materials processing. His work explores environmentally friendly alternatives to traditional materials, such as the use of sisal fibers and recycled materials in industrial applications. Ilyace is dedicated to characterizing and functionalizing biopolymers, with a focus on improving their properties for various applications in sustainability. He is also exploring innovative nonwoven processes, specifically in the context of filtration membranes and absorbent materials, that can help reduce the environmental impact of plastic waste. Additionally, his research includes the design and optimization of materials for specific applications, including the development of composite materials and the study of life cycle assessments (LCA) for environmental impact evaluation. Ilyace’s interdisciplinary approach combines materials science, engineering, and environmental science to create a more sustainable future through innovative material design and processing.

Publication Top Notes

  • Evaluating sisal fibers as an eco-friendly and cost-efficient alternative to cotton for the Moroccan absorbent hygiene and textile industries 🌱 (Industrial Crops and Products, 2024)
  • Industrial ecology in Morocco: wet laying composite air filter membrane based on cottonized sisal fibers and recycled nonwoven supermarket bag 🌿 (Biomass Conversion and Biorefinery, 2024)
  • Stabilization of Argan Oil Nanoemulsions Using Chitosan Extracted from Pink Shrimp Shells 🐚 (Applied Science, 2025)
  • Cottonized sisal fibers: a more economic and sustainable alternative to natural cotton, – for absorbent textile and hygienic products, in Morocco 🌱 (2024)
  • Industrial Ecology in Morocco: Wet Laying Composite Filter Membrane Based on Cottonized Sisal Fibers and Recycled Non-Woven Supermarket Bag 🧵 (2023)
  • Composite membrane based on cellulose fibers and recycled polypropylene: a more economic and sustainable alternative for the filtration of particles in the air 🌍 (8th International Symposium on Sediment Management, 2024)

 

 

RUMA DAS | Graphene Quantum Dots | Best Researcher Award

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Assist.Prof.Dr RUMA DAS | Graphene Quantum Dots | Best Researcher Award

Assistant Professor, Haldia Institute of Technology, India

Dr. Ruma Das is an Assistant Professor at Haldia Institute of Technology, West Bengal, India. With a passion for material science and nanotechnology, she specializes in the study of nanostructures, quantum dots, metal-semiconductor heterostructures, and charge transfer dynamics. Dr. Das completed her PhD in Physics (Material Science) from IIT Guwahati in 2021, following an MSc in Physics (2015) from the same institution and a BSc (Physics Hons.) from the University of Calcutta (2013). She has over 7 years of research experience and 3 years of teaching experience. Dr. Das has made significant contributions to the development of advanced materials for bio-sensing and optical applications. Apart from academia, she is skilled in software tools like Microsoft Office, Origin, and Adobe Creative Cloud, which she integrates into her teaching and research work. Her academic work is centered on advancing innovative technologies with practical applications in science and healthcare.

Profile

orcid

Strengths for the Researcher Award

  1. Strong Academic Foundation:
    • Dr. Das holds a PhD in Physics (Material Science) from IIT Guwahati, which indicates a solid and advanced understanding of both theoretical and applied physics.
    • Her MSc in Physics and BSc in Physics Hons. from prestigious institutions further underscore her deep grounding in the field of physics, particularly in material science.
  2. Expertise in Cutting-edge Research Areas:
    • Her research areas are highly relevant to current trends in material science and nanotechnology. She specializes in nanostructures, quantum dots, metal-semiconductor heterostructures, and bio-sensing—fields with significant potential for practical applications.
    • The focus on charge transfer dynamics and optical applications suggests a strong grasp of fundamental physics and its applied aspects, which are crucial for innovations in electronics, sensing, and biotechnologies.
  3. Research Publications and Impact:
    • Dr. Das has contributed to notable publications in high-impact journals such as Carbon (2024) and Journal of Materials Chemistry C (2020), reflecting her active involvement in impactful research.
    • Her research on sensitive detection of metal ions and bio-sensing applications through novel materials like nitrogen-doped graphene quantum dots showcases the cutting-edge nature of her work.
    • The inclusion of interdisciplinary aspects like machine learning for sensing and bio-detection further strengthens her profile, indicating a cross-domain expertise and innovative approach.
  4. Teaching Experience and Contributions:
    • With over 3 years of teaching experience, Dr. Das has effectively contributed to educating the next generation of scientists and engineers, specifically in the areas of physics.
    • Her involvement in teaching core courses such as Physics-1 and Physics-1 Lab showcases her commitment to academia and her ability to communicate complex concepts effectively.
  5. Recognitions:
    • Dr. Das has earned recognition in the form of competitive exams such as GATE in Physics (2015) and CSIR-NET in Physics (2016), which demonstrate her expertise and competitiveness in the field.

Areas for Improvement

  1. Broader Research Collaborations:
    • While Dr. Das has made significant contributions in material science, expanding collaborations with international research groups or industry partners could further broaden the scope and impact of her research.
    • Greater interdisciplinary collaboration, particularly with researchers in the fields of bioengineering, machine learning, or materials science, could enhance the real-world applications of her work, particularly in sensors and diagnostics.
  2. Increased Research Visibility:
    • While she has made valuable contributions to journals, Dr. Das could consider engaging in more global forums, conferences, and research seminars. Presenting her findings at international stages would help raise her profile and foster connections for future collaborations.
  3. Development of Patents and Commercialization:
    • Given the applied nature of her research on sensing and biosensing, it may be beneficial for Dr. Das to pursue opportunities for patenting her innovations and exploring commercial applications. This would not only increase the societal impact of her work but also contribute to the advancement of technology in real-world settings.
  4. Mentorship and Guidance for Young Researchers:
    • As an assistant professor with over 3 years of teaching experience, Dr. Das could consider establishing more formal mentoring programs for graduate students and junior researchers. Providing such guidance will help cultivate the next generation of researchers in her field.

Education 

Dr. Ruma Das pursued her PhD in Physics (Material Science) from the prestigious Indian Institute of Technology (IIT) Guwahati, completing it in 2021. Her doctoral research focused on cutting-edge topics like nanostructures, quantum dots, and charge transfer dynamics. She obtained her MSc in Physics in 2015 from IIT Guwahati, where she developed a strong foundation in material science, solid-state physics, and quantum mechanics. Prior to that, she earned a BSc in Physics Hons. from the University of Calcutta in 2013. Dr. Das’s academic journey has been marked by a deep interest in the intersection of theoretical physics and applied material science, particularly in the fields of nanomaterials and bio-sensing. Through her higher education, she cultivated the skills required for research in innovative materials, which she now applies to her academic and research endeavors at Haldia Institute of Technology.

Experience 

Dr. Ruma Das has over 7 years of research experience and 3 years of teaching experience in the field of material science and nanotechnology. After completing her PhD at IIT Guwahati, Dr. Das joined Haldia Institute of Technology as an Assistant Professor in the Department of Applied Science, where she imparts knowledge in the field of physics. She teaches undergraduate courses such as Physics-1 (PH 101/201) and the corresponding Physics-1 Lab (PH 191/291), playing a pivotal role in the academic development of her students. Dr. Das’s research experience spans various facets of material science, including quantum dots, metal-semiconductor heterostructures, and their applications in bio-sensing. She has worked on developing advanced nanomaterials with a focus on their optical properties, charge transfer mechanisms, and their use in sensitive detection technologies. Her academic and research roles have allowed her to bridge theoretical concepts with practical, real-world applications in science and technology.

Awards 

Dr. Ruma Das has earned several prestigious awards and honors throughout her academic career. In 2015, she cleared the GATE examination in Physics, a highly competitive national exam, which recognized her aptitude in the field of physics. This was followed by her success in the CSIR-NET (Council of Scientific and Industrial Research – National Eligibility Test) in Physics in 2016, further cementing her academic credentials. These achievements reflect her strong understanding of theoretical and applied physics, and they opened the door for her to pursue advanced research. Dr. Das has been an active participant in various national and international conferences, where her work on nanostructures and quantum dots has gained recognition. These accolades not only highlight her research excellence but also reinforce her contributions to advancing the field of material science. Her career continues to be marked by academic distinction, innovation, and commitment to teaching and research.

Research Focus 

Dr. Ruma Das’s primary research focus lies in the field of nanomaterials, particularly nanostructures and quantum dots, and their applications in advanced technologies. Her research interests include the development of metal-semiconductor and semiconductor-semiconductor heterostructures, with a focus on charge transfer dynamics, which are critical for the functioning of modern electronic devices and sensors. A key area of her work involves the optical properties of nanomaterials and their use in bio-sensing and environmental monitoring. She has made significant strides in the development of innovative sensing platforms, including the use of nitrogen-doped graphene quantum dots for the selective detection of metal ions. Her research also delves into the integration of machine learning frameworks for improving the sensitivity and selectivity of sensors. Dr. Das’s work has both scientific and practical implications, especially in fields like healthcare, environmental monitoring, and the development of new materials for next-generation electronic devices.

Publications

  1. Machine Learning Framework for Selective and Sensitive Metal Ion Sensing with Nitrogen-doped Graphene Quantum Dots Heterostructure
    Carbon (2024)
    [DOI: 10.1016/j.carbon.2024.119800] 🧪
  2. Quantitative Understanding of the Ultra-sensitive and Selective Detection of Dopamine using a Graphene Oxide/WS2 Quantum Dot Hybrid
    Journal of Materials Chemistry C (2020)
    [DOI: 10.1039/D0TC01074J] 🔬

Conclusion:

Dr. Ruma Das is a highly qualified and dedicated researcher whose work in the fields of material science, nanotechnology, and biosensing is both cutting-edge and impactful. With a strong academic foundation, a diverse range of research interests, and notable publications, she is undoubtedly a strong candidate for the “Best Researcher Award.” While there is room for growth in areas like global collaborations, visibility, and patenting, her achievements to date position her as a promising and valuable asset to the academic and research community.

Prashanth Konda Gokuldoss | Additive Manufacturing | Best Innovation Award

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Prof Dr Prashanth Konda Gokuldoss | Additive Manufacturing | Best Innovation Award

Professor, Tallinn University of Technology, Estonia

Prof. Dr.-Ing. Prashanth Konda Gokuldoss is a distinguished expert in materials science and engineering, specializing in additive manufacturing. He is currently a Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology in Estonia. With extensive experience in selective laser melting, he has contributed significantly to the fields of materials joining and sustainable manufacturing. Prashanth holds a PhD from the Technical University of Dresden and has held various prestigious positions globally, including guest professorships in Europe and Asia. His research focuses on the mechanical properties and corrosion resistance of advanced materials, particularly aluminum alloys. A dedicated educator, he emphasizes the integration of sustainability in manufacturing processes. Prashanth is also actively involved in editorial work for multiple scientific journals and is committed to advancing knowledge in his field.

Profile

Google Scholar

Strengths for the Award

  1. Extensive Academic Background:
    • PhD in Materials Science and Engineering with a focus on Selective Laser Melting, supported by a strong educational foundation from prestigious institutions.
  2. Fellowships and Awards:
    • Recipient of notable fellowships and awards, including the Leibniz Fellowship and the S.K. Tamotia Award, showcasing recognition in the field of materials science.
  3. Leadership in Additive Manufacturing:
    • Current position as Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology highlights leadership and innovation in this rapidly evolving field.
  4. Broad Research Experience:
    • Over a decade of research in various domains including metal matrix composites, sustainable manufacturing, and tribology, contributing to a diverse and impactful body of work.
  5. Editorial Contributions:
    • Active involvement as an editor and board member for numerous high-impact journals indicates a commitment to advancing knowledge and quality in materials science.
  6. International Collaboration:
    • Extensive experience as a visiting professor in multiple countries, fostering global research collaboration and knowledge exchange.
  7. Innovative Research Areas:
    • Focus on cutting-edge topics such as circular economy, sustainable materials, and advanced additive manufacturing techniques positions his work at the forefront of current challenges in materials science.

Areas for Improvement

  1. Commercial Application of Research:
    • While there is significant academic output, enhancing the translation of research findings into practical applications and collaborations with industry could further bolster impact.
  2. Interdisciplinary Collaboration:
    • Exploring partnerships beyond materials science, such as with environmental science or economics, could broaden the scope and applicability of his research on sustainability.
  3. Engagement in Public Awareness:
    • Increasing efforts in public engagement and education about the implications of his research on sustainability and manufacturing could raise awareness and support for innovation.
  4. Funding Acquisition:
    • While active in research, targeting larger grants or funding opportunities for innovative projects could expand the reach and resources available for groundbreaking work.

Education

Prashanth Konda Gokuldoss earned his PhD in Materials Science and Engineering from the Technical University of Dresden, Germany, focusing on selective laser melting and the properties of Al-12Si alloy. He completed his Master of Technology (M. Tech.) in Materials Joining from the Indian Institute of Technology Madras, India. Prior to this, he obtained his Bachelor of Engineering (B.E.) in Metallurgical Engineering from the Government College of Engineering, Salem, India. His academic journey was supported by several prestigious fellowships, including the Leibniz Fellowship and the DAAD Fellowship, which allowed him to conduct research and dissertation work in Germany. This robust educational background equips him with a comprehensive understanding of materials science, enabling him to contribute significantly to research and academia.

Experience

Prof. Dr.-Ing. Prashanth Konda Gokuldoss has extensive experience in academia and research. Currently, he serves as a Full Professor and Head of the Additive Manufacturing Laboratory at Tallinn University of Technology, Estonia. His career includes roles as an Adjunct Professor at Vellore Institute of Technology in India and various visiting professorships across Europe and Asia. He has previously held positions as an Associate Professor in Additive Manufacturing at the Norwegian University of Science and Technology and as a Senior Scientist at the Erich Schmid Institute of Materials Science in Austria. His industrial experience includes R&D roles at Sandvik AB in Sweden and the Helmholtz Center Berlin. Prashanth has contributed to numerous research projects and has been involved in high-profile international collaborations, significantly advancing the field of additive manufacturing and materials science.

Awards and Honors

Prof. Dr.-Ing. Prashanth Konda Gokuldoss has received numerous awards recognizing his contributions to materials science and engineering. He was honored as a Fellow of the International Association of Advanced Materials in July 2023 and received the S.K. Tamotia Award for research in aluminum metallurgy from the Indian Institute of Metals in August 2020. His exceptional work in additive manufacturing earned him the Distinguished Scientist award from the International Research Council in January 2020. In 2018, he received the Young Scientist Award at the International Symposium on Metastable, Amorphous and Nanostructure Materials in Rome. Additionally, he was awarded the IAAM Scientist Medal in 2017. His editorial contributions have also been recognized, with certificates for outstanding reviewing from various reputable journals. These accolades reflect his dedication to advancing knowledge and research in his field.

Research Focus

Prof. Dr.-Ing. Prashanth Konda Gokuldoss focuses on advancing materials science through sustainable manufacturing practices and innovative technologies. His primary research areas include additive manufacturing, particularly selective laser melting, powder metallurgy, and metal matrix composites. He investigates the mechanical, tribological, and corrosion properties of materials, emphasizing the development of lightweight alloys and meta-stable materials. Prashanth is dedicated to exploring the circular economy in manufacturing, integrating sustainability into the design and production of materials. His research also encompasses the behavior of nano-crystalline materials, bulk metallic glasses, and the effects of severe plastic deformation. By bridging the gap between theoretical research and practical applications, he aims to enhance the performance and reliability of advanced materials in various industries, contributing significantly to the evolution of modern manufacturing techniques.

Publication Top Notes

  1. Additive manufacturing processes: Selective laser melting, electron beam melting and binder jetting—Selection guidelines 📄
  2. Microstructure and mechanical properties of Al–12Si produced by selective laser melting: Effect of heat treatment 🛠️
  3. Mechanical behavior of selective laser melted 316L stainless steel 🧪
  4. Formation of metastable cellular microstructures in selective laser melted alloys 🏗️
  5. Simultaneous enhancements of strength and toughness in an Al-12Si alloy synthesized using selective laser melting 💪
  6. Is the energy density a reliable parameter for materials synthesis by selective laser melting? 🔋
  7. Defining the tensile properties of Al-12Si parts produced by selective laser melting 🧬
  8. Fabrication of Fe-based bulk metallic glass by selective laser melting: A parameter study 📊
  9. Mechanical properties of Al-based metal matrix composites reinforced with Zr-based glassy particles produced by powder metallurgy 🏆
  10. Mechanical behavior of porous commercially pure Ti and Ti–TiB composite materials manufactured by selective laser melting 🦾

Conclusion

Prof. Dr.-Ing. Prashanth Konda Gokuldoss stands out as a leading figure in the field of materials science and additive manufacturing, demonstrated by his impressive academic credentials, significant contributions to research, and active role in editorial duties. His focus on innovative and sustainable materials positions him well for the Research for Best Innovation Award. By enhancing the commercial applicability of his work and pursuing interdisciplinary collaborations, he can further maximize his impact in the field. His recognition as a Fellow of the International Association of Advanced Materials and various other accolades solidify his reputation as a deserving candidate for this prestigious award.

 

 

Christos Mytafides | Materials Engineering Award | Excellence in Innovation

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Dr Christos Mytafides | Materials Engineering Award | Excellence in Innovation

Dr Christos Mytafides , University of Ioannina, Greece

Christos Mytafides is a distinguished researcher in advanced multifunctional materials and energy-harvesting technologies. Born on July 14, 1985, in Xanthi, Greece, he currently resides in Chania, Crete. Christos earned his Ph.D. from the University of Ioannina, focusing on printed electronics and energy-harvesting composites. His work is well-regarded for its innovation in integrating advanced materials into structural composites. He has held various roles, including Postdoctoral Research Scientist at Technical University of Crete and R&D Engineer at ARCO/Murray. Christos has been a Fulbright Scholar at the University of Miami and has collaborated with leading institutions like Eindhoven University of Technology. His research has led to multiple publications and patents, and he continues to push the boundaries of material science and sustainability.

Publication Profile

Google Scholar

Education

Christos Mytafides holds a Ph.D. in Materials Science & Engineering from the University of Ioannina, where he specialized in advanced multifunctional energy-harvesting materials (2018-2023). His Master’s Degrees include one in Advanced Materials from the University of Ioannina (2016-2018), focusing on optoelectronic and magnetic materials, and another in Environmental Engineering & Science from Democritus University of Thrace (2013-2015), emphasizing energy-efficient designs. He also has a Bachelor’s Degree in Structural Engineering from the International Hellenic University (2003-2009), where he studied structural analysis and restoration. Additionally, Christos completed online courses in Quantum Physics, Sustainable Energy, and other relevant fields from prestigious institutions like Stanford and MIT. His comprehensive education reflects a strong foundation in both theoretical and applied aspects of materials science and engineering.

Experience 

Christos Mytafides has a diverse professional background in materials science and engineering. Currently a Postdoctoral Research Scientist at Technical University of Crete, he works on advanced composite materials. Previously, he served as a Research & Development Engineer at ARCO/Murray, focusing on structural and sustainability engineering. He was involved in several projects at the University of Ioannina, including Horizon 2020 and NSRF projects related to energy harvesting and smart materials. Christos also gained valuable experience during his Fulbright Scholarship at the University of Miami, researching multifunctional composites. His work as a Lab Assistant and Teaching Assistant at various universities, including Eindhoven University of Technology and Democritus University of Thrace, further underscores his expertise in both research and education. His experience spans across different research laboratories and practical engineering roles, reflecting a robust career in material science.

Awards and Honors

Christos Mytafides has received significant recognition for his contributions to materials science and energy-harvesting technologies. He was awarded the Fulbright Scholarship for his research at the University of Miami, which highlights his innovative work in multifunctional composites. His research has been recognized in various prestigious journals, underscoring the impact of his contributions to advanced materials and energy-harvesting technologies. Christos has also been involved in notable projects such as Horizon 2020 and NSRF, further cementing his reputation in the field. His work on advanced composites and energy-harvesting materials has earned him several accolades, including publication in high-impact journals like Materials Advances and Journal of Power Sources. His commitment to advancing the field of materials science is reflected in the numerous awards and honors he has received throughout his career.

Research Focus 

Christos Mytafides’s research focuses on advanced multifunctional materials and energy-harvesting technologies. His work primarily explores the integration of printed electronics with structural composites to develop innovative energy-harvesting solutions. He is particularly interested in developing and characterizing materials that can efficiently convert and store energy. His research includes the design and fabrication of high-performance solar cells, thermoelectric generators, and other energy-harvesting devices. Christos’s work also encompasses optoelectronic and magnetic materials, with applications in sustainable energy systems and smart textiles. His contributions to the field have led to significant advancements in the efficiency and functionality of composite materials. By combining theoretical knowledge with practical applications, Christos aims to push the boundaries of materials science and engineering, addressing contemporary challenges in energy sustainability and advanced material development.

Publication Top Notes

“A hierarchically modified fibre-reinforced polymer composite laminate with graphene nanotube coatings operating as an efficient thermoelectric generator” 🌐 Energy Advances, 2024

“Integrated architectures of printed electronics with energy-harvesting capabilities in advanced structural composites” 📚 University of Ioannina, 2023

“Carbon fiber/epoxy composite laminates as through-thickness thermoelectric generators” 🛠️ Composites Science and Technology, 2023

“Fully printed and flexible carbon nanotube-based thermoelectric generator capable for high-temperature applications” ⚡ Journal of Power Sources, 2022

“Printed single-wall carbon nanotube-based Joule heating devices integrated as functional laminae in advanced composites” 🔬 ACS Applied Materials & Interfaces, 2021

“A high performance flexible and robust printed thermoelectric generator based on hybridized Te nanowires with PEDOT: PSS” 🔋 Applied Energy, 2021

Anuradha Singh | Chemistry Award | Women Researcher Award

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Assist Prof Dr Anuradha Singh | Chemistry Award | Women Researcher Award

Assist Prof Dr Anuradha Singh, University of Allahabad, India

Anuradha Singh 🌟 is an Assistant Professor at S.S. Khanna Girls’ Degree College, University of Allahabad. She holds a D. Phil. in Chemistry from the University of Allahabad and specializes in Bioorganic and Medicinal Chemistry. Her research focuses on designing antimicrobial and antiviral agents, including HIV and HCV inhibitors. Anuradha has secured grants from UGC and DST, contributing significantly to the field with over a dozen publications in reputed journals. She is a recipient of the Research Excellence Award and Swarna Jayanti Puraskar, recognized for her scientific contributions.

 

Publication Profile

Orcid

Education

Anuradha Singh completed her educational journey with a strong foundation in chemistry, culminating in a D. Phil. from the University of Allahabad in 2015. Her thesis, titled “Design and Synthesis of Antimicrobial Compounds & Studies on their Therapeutic Applications,” underscored her expertise in bioorganic chemistry. Prior to her doctoral studies, she obtained an M. Sc. in Chemistry from Rani Durgavati University, Jabalpur, in 2005, following a B. Sc. in Chemistry, Zoology, and Environmental Science from the same institution in 2003. Anuradha’s academic pursuits reflect her commitment to advancing medicinal chemistry with a focus on combatting infectious diseases. 📚

 

Experience

Anuradha Singh brings a wealth of research experience to her role at SS Khanna Degree College, where she teaches a spectrum of chemistry topics at both undergraduate and postgraduate levels. Her teaching repertoire includes General Chemistry, Inorganic Chemistry, and Organic Chemistry at the undergraduate level, while at the postgraduate level, she covers specialized areas such as Oligonucleotide Synthesis, Synthetic approaches in organic synthesis, and Spectroscopy. Alongside her teaching commitments, Anuradha has been actively involved in pioneering research projects funded by prestigious bodies like UGC, DST, and DBT. Her current UGC Start-up Grant project focuses on the green synthesis and antimicrobial assessment of 4-thiazolidinone derivatives, contributing significantly to the field of medicinal chemistry. 🎓

Awards

Anuradha Singh has been honored with several prestigious awards and fellowships throughout her career, highlighting her contributions to scientific research and academia. In 2023, she participated in the Visiting Scientist Programme at the Indian National Science Academy (INSA), New Delhi. Her dedication and excellence were recognized with the Research Excellence Award by the Institute of Scholars, Bengaluru in 2020. Anuradha’s early achievements include receiving the Swarna Jayanti Puraskar at the 84th Annual Session of the National Academy of Sciences, Jodhpur in 2014, and the HIV Symposium Fellowship from YRG care, Chennai in 2012. She was also awarded the Late M.H. Mahalaha Memorial Gold Medal for Best Presentation at a seminar hosted by RDVV in 2005. 🏆

Research Focus

Anuradha Singh’s research primarily centers around medicinal chemistry, with a specialized focus on designing novel compounds to combat infectious diseases and other health challenges. Her work spans the synthesis and evaluation of antimicrobial and antiviral agents, including inhibitors targeting HIV, SARS-CoV-2, and other viruses. Employing molecular dynamics simulations and computational methods, she explores the structural and functional aspects of these compounds to enhance their efficacy and safety profiles. Anuradha’s research contributions extend to exploring natural product-based therapies and developing innovative drug delivery systems. Her multidisciplinary approach integrates chemistry, pharmacology, and computational biology to advance therapeutic interventions. 🧪

Publication Top Notes
Pharmacological Properties of Curcumin (2020) 🌿
In silico studies on new oxathiadiazoles as potential anti-HIV agents (2019) 🧬
Design, Synthesis, and Antibacterial Activities of Novel Heterocyclic Arylsulphonamide Derivatives (2018) 🦠
Human Immunodeficiency Virus Reverse Transcriptase (HIV-RT): Structural implications for drug development (2018) 🧬
In silico studies on N-(Pyridin-2-yl) thiobenzamides as NNRTIs against HIV-1 strains (2018) 🧬
Molecular modeling, synthesis, and evaluation of sulfonamide derivatives (2018) 🦠