Damandeep Kaur | Technological Networks | Best Researcher Award

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Dr. Damandeep Kaur | Technological Networks | Best Researcher Award

Institute of Applied Physics 'Nello Carrara' | Italy

Dr. Damandeep Kaur is a dedicated researcher in Materials Science and Engineering, currently serving as a Postdoctoral Fellow at the Institute of Applied Physics, CNR, Florence (since July 2024). She earned her Ph.D. (2017–2022) from Thapar Institute of Engineering & Technology, Patiala, India, where her thesis focused on biobased silica from rice husk and straw for the synthesis of biocompatible glasses. She also holds an M.Sc. in Physics (2011–2013) from Kanya Maha Vidyalaya, Jalandhar, affiliated with Guru Nanak Dev University, where she studied the optical properties of magnesium borate glasses. With over a decade of academic and research experience, she previously served as a Postdoctoral Fellow at the University of Trento, Italy (2022–2024), and as a Teaching Associate at Thapar Institute of Engineering & Technology (2018–2021). Dr. Kaur has actively participated in numerous international conferences, workshops, and schools across Europe and North America, including events organized by the American Ceramics Society and European Ceramics Society. She is an active member of several professional bodies such as the American Ceramics Society, European Ceramics Society (Italy chapter), and the Royal Society of Chemistry, and contributes to the research community as a reviewer for Frontiers in Oncology. Her technical skills are enhanced through specialized training in COMSOL Multiphysics, MATLAB, and IELTS C1 certification, reflecting her strong interdisciplinary expertise in materials science, optics, and applied research.

Profiles: ScopusOrcid | Google Scholar

Featured Publications

"Structural, luminescent and in vitro studies of europium-doped soda lime phosphate glasses, Luminescence, Priya, R.; Kaur, D.; Attri, K.; Kaur, S.; Sharda, D.; Choudhury, D.; Pandey, O.P., 2024"

"Production of silica nanoparticles from rice husk and rice straw by fungal-mediated biotransformation using Pleurotus florida, Biomass Conversion and Biorefinery, Kaur, D.; Pandey, O.P.; Reddy, M.S., 2023"

"Effect of Crystalline Ceramic Oxide on the Densification-Crystallization Behavior of Binary Lithium-Di Silicate Glass Compositions, Proceedings of the American Society for Composites - 37th Technical Conference, ASC 2022, Rahman, A.; Kaur, D., 2022"

"In-vitro Reactivity and Antibacterial Activity of Agro-waste Derived Silicate and Phosphate Glasses, Research Square, Kaur, D.; Reddy, M.S.; Pandey, O.P., 2021"

"Agro waste as a source of bioactive glass for targeted drug delivery and bone implantation, Journal of Drug Delivery Science and Technology, Damandeep Kaur, 2021"

Peyala Dharmaiah | Thermoelectric Materials | Best Researcher Award

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Dr. Peyala Dharmaiah | Thermoelectric Materials | Best Researcher Award

Changwon National University | South Korea

Author Profiles

Scopus

Orcid ID

Google Scholar

Early Academic Pursuits

Dr. Peyala Dharmaiah began his academic journey with a strong foundation in physics, earning a Bachelor’s and Master’s degree from Sri Venkateswara University, India, where he demonstrated excellence with consistently high grades. His curiosity for advanced materials research led him to pursue a Ph.D. in Advanced Materials Engineering at Kongju National University, South Korea. During his doctoral studies, he worked extensively on thermoelectric materials, focusing on enhancing performance in BiSbTe-based alloys through structural optimization. His early academic path reflects a strong blend of theoretical understanding and practical experimentation, laying the groundwork for his distinguished research career.

Professional Endeavors

Dr. Dharmaiah’s professional trajectory spans prestigious institutions in India and South Korea. Beginning as a UGC project fellow at Sri Venkateswara University, he gained valuable experience in luminescent materials and photonic applications. Post-Ph.D., he contributed significantly as a postdoctoral fellow at Kongju National University and later at the Korea Institute of Science and Technology (KIST), where he specialized in advanced thermoelectric materials and device fabrication. Currently, as a G-LAMP Post-Doctoral Fellow at Changwon National University, he continues to refine his expertise in 2D layered Zintl phase materials and their thermoelectric applications. His career reflects continuous growth, innovation, and leadership in material sciences.

Contributions and Research Focus

The central theme of Dr. Dharmaiah’s research is thermoelectric materials for power generation and cooling applications. He has developed advanced synthesis and processing methods such as spark plasma sintering, hot pressing, and atomization techniques to produce high-performance materials suitable for commercialization. His innovations include hierarchical structures, nanocomposites, and microstructural engineering for performance enhancement. Beyond BiSbTe alloys, his research extends to layered Zintl phases, manganese silicides, and doped glass-ceramics, showcasing versatility. His patents on thermoelectric alloys and multi-layered structures highlight his contribution to both academic and industrial applications.

Impact and Influence

Dr. Dharmaiah’s work has advanced the field of thermoelectrics by bridging laboratory-scale research with industrial-scale production methods. His ability to produce high-quality thermoelectric powders in bulk and fabricate large-diameter samples demonstrates the commercialization potential of his research. His awards for oral and poster presentations, including recognition from the Korean Institute of Metals and Materials, underscore the impact of his findings in global scientific forums. Moreover, his guidance to students and collaborative projects have amplified his influence within the research community.

Academic Citations and Recognition

With numerous conference presentations across Korea, the USA, Canada, China, and India, Dr. Dharmaiah has established himself as a global voice in thermoelectric materials research. His published patents serve as a benchmark for innovative manufacturing methods in the field. Recognitions such as the Research Note Award at KIST, best presentation awards, and photography excellence awards highlight his multifaceted talent in both technical and creative aspects of research dissemination. His citations and continued participation in high-level academic conferences reinforce his credibility as a leading researcher.

Legacy and Future Contributions

Dr. Dharmaiah’s legacy lies in his systematic contributions to advancing thermoelectric technology from conceptual research to real-world applications. His pioneering methods of powder synthesis, consolidation, and device fabrication have set a strong foundation for next-generation renewable energy solutions. Looking ahead, his ongoing work on 2D layered Zintl materials promises breakthroughs in sustainable energy harvesting technologies. With his blend of technical expertise, innovative patents, and academic mentorship, he is poised to make impactful contributions that will shape the future of energy materials research globally.

Conclusion

Dr. Peyala Dharmaiah exemplifies the qualities of a dedicated researcher whose career reflects academic brilliance, technical innovation, and global impact. From his early academic pursuits to his current advanced research roles, he has consistently contributed to the progress of thermoelectric materials science. His patents, publications, and awards highlight both originality and practical relevance. With a promising trajectory, Dr. Dharmaiah stands out as a strong candidate for recognition such as the Best Researcher Award, symbolizing excellence, innovation, and lasting influence in the field of advanced materials.

Notable Publications

“Development of two-dimensional layered ZnSb-based thermoelectric materials via alkali metal alloying

  • Author: P. Dharmaiah*, G.M. Park, M. Heo, J. Ju, H.S. Kim, H.J. Park, S.O. Won, T.H. Kim, S.K. Kim, J.S. Kim, S.H. Baek
  • Journal: Journal of Alloys and Compounds
  • Year: 2025

"Enhancement of thermoelectric properties in p-type ZnSb alloys through Cu-doping and synthesis of layered structure materials

  • Author: R Yemmi, BEK Swamy, KM Manjunath, K Yusuf, AM Aljuwayid
  • Journal: Journal of Alloys and Compounds
  • Year: 2024

"Why is it challenging to improve the thermoelectric properties of n-type Bi2Te3 alloys?

  • Author: P Dharmaiah, SJ Jung, JS Kim, SK Kim, SH Baek
  • Journal: Applied Physics Reviews
  • Year: 2024

"Advancement of thermoelectric performances through the dispersion of expanded graphene on p-type BiSbTe alloys

  • Author: E.H. Go, R. Vasudevan, B. Madavali, P. Dharmaiah, M.W. Shin, S.H. Song, S.J. Hong
  • Journal: Powder Metallurgy
  • Year: 2023

"Optimization of mixed grain size structure for enhancement of thermoelectric figure of merit in p-type BiSbTe-based alloys

  • Author: P Dharmaiah, DH Kim, J Kwon, Y Lee, S Geum, G Lee, M Kang, SJ Hong
  • Journal: Journal of Materials Science
  • Year: 2022

Elsayed Elgazzar | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Elsayed Elgazzar | Materials Science | Best Researcher Award

Elsayed Elgazzar at Suze Canal University, Egypt📖

Dr. Elsayed Abdel Mohsen Ali Abdel Halim is an accomplished physicist specializing in solid-state and materials science. With extensive experience in academia and research, he has contributed significantly to the field of nanomaterials, photodetectors, and photovoltaic devices. Currently serving as an Assistant Professor of Physics at Suez Canal University, Egypt, Dr. Elsayed has also pursued international research engagements, including a tenure at Texas State University, USA. His work is characterized by a strong commitment to advancing materials science through innovative research and academic leadership.

Profile

Google Scholar Profile

Education Background🎓

  1. Ph.D. in Physics (Solid State – Materials Science) – Suez Canal University, Egypt (2011-2015)
  2. M.Sc. in Physics (Solid State – Materials Science) – Suez Canal University, Egypt (2008-2011)
  3. Pre-Master in Physics – Suez Canal University, Egypt (2006-2008)
  4. B.Sc. in Physics (Very Good) – Zagazig University, Egypt (2001-2004)

Professional Experience🌱

Dr. Elsayed has accumulated rich academic and research experience over the years. He began his career as a Demonstrator in the Physics Department at Suez Canal University (2005-2011), where he gained experience in laboratory instruction and quality management. As an Assistant Lecturer (2011-2015), he contributed to academic guidance and worked in advanced research labs. His role as a Lecturer (2015-2017, 2019-2023) involved teaching physics courses and conducting cutting-edge research. He also served as a Researcher in the Materials Science and Engineering Lab at Texas State University, USA (2017-2019), enhancing his expertise in nanomaterial synthesis and device fabrication. Since 2021, he has been an Assistant Professor at Suez Canal University, actively contributing to teaching and research.

Research Interests🔬

Her research interests include:

  1. Synthesis and characterization of nanomaterials using chemical methods
  2. Analysis of optical and electrical properties of thin films and photodetectors
  3. Development of photovoltaic devices and semiconductor materials
  4. Advanced materials for energy applications

Author Metrics

Dr. Elsayed has published several impactful research articles in reputed international journals, with notable contributions in areas such as photodiodes, solid-state materials, and nanocomposites. His research has received significant citations, reflecting his influence in the field. Some of his highly cited works include studies on Ru(II) complex-based photodiodes and cyclotriphosphazene compounds.

  • Total Publications: 5+
  • Total Citations: Over 100
  • H-Index: Notable contributions in materials science
Awards and Honors
  • Recognized for excellence in research and teaching at Suez Canal University
  • Participation in prestigious workshops and conferences, including those on X-ray diffraction and laser applications in nanomaterials
  • Contributions to staff development programs in scientific research and communication skills
Publications Top Notes 📄

1. Design and fabrication of dioxyphenylcoumarin substituted cyclotriphosphazene compounds photodiodes

  • Authors: E. Elgazzar, A. Dere, F. Özen, K. Koran, A.G. Al-Sehemi, A.A. Al-Ghamdi, et al.
  • Journal: Physica B: Condensed Matter
  • Volume: 515
  • Pages: 8-17
  • Year: 2017
  • Citations: 26

2. Photoelectrical characteristics of novel Ru (II) complexes based photodiode

  • Authors: W.A. Farooq, E. Elgazzar, A. Dere, O. Dayan, Z. Serbetci, A. Karabulut, M. Atif, et al.
  • Journal: Journal of Materials Science: Materials in Electronics
  • Volume: 30 (6)
  • Pages: 5516-5525
  • Year: 2019
  • Citations: 25

3. Fabrication of an (α-Mn₂O₃: Co)-decorated CNT highly sensitive screen printed electrode for the optimization and electrochemical determination of cyclobenzaprine

  • Authors: A.M. Abdel-Raoof, A.O.E. Osman, E.A. El-Desouky, A. Abdel-Fattah, et al.
  • Journal: RSC Advances
  • Volume: 10 (42)
  • Pages: 24985-24993
  • Year: 2020
  • Citations: 21

4. Thermal sensors based on delafossite film/p-silicon diode for low-temperature measurements

  • Authors: E. Elgazzar, A. Tataroğlu, A.A. Al-Ghamdi, Y. Al-Turki, W.A. Farooq, et al.
  • Journal: Applied Physics A
  • Volume: 122
  • Pages: 1-9
  • Year: 2016
  • Citations: 21

5. Heteroleptic neutral Ru (II) complexes based photodiodes

  • Authors: E. Elgazzar, O. Dayan, Z. Serbetci, A. Dere, A.G. Al-Sehemi, A.A. Al-Ghamdi, et al.
  • Journal: Physica B: Condensed Matter
  • Volume: 516
  • Pages: 7-13
  • Year: 2017
  • Citations: 18

Conclusion

Dr. Elsayed Elgazzar is a strong candidate for the Best Researcher Award, given his extensive contributions to materials science, particularly in nanomaterials and solid-state physics. His international exposure, impactful publications, and dedication to academia make him a standout researcher. With further efforts in expanding collaborations, securing funding, and increasing publication output, he can continue to make significant strides in his field and further solidify his standing as a leading materials scientist.