Razia Khan Sharme | Materials Science | Best Researcher Award

Published on by Citation Awards

Razia Khan Sharme | Materials Science | Best Researcher Award

Razia Khan Sharme, Delaware State University, Bangladesh

Razia Khan Sharme is a dedicated materials scientist with a keen interest in thin films, semiconductors, and computational material science. She is currently pursuing her Master’s degree in Applied Optics at Delaware State University, maintaining a perfect 4.0 GPA. With a robust academic foundation, she completed her Bachelor of Science in Materials Science and Engineering from Khulna University of Engineering and Technology (KUET), Bangladesh. Razia is passionate about research and has already co-authored several journal articles and conference papers focused on advanced materials, particularly transparent conducting films, perovskites, and metal oxides. Her interdisciplinary approach combines experimental insights with first-principles computational modeling. Beyond her academic excellence, she is recognized for her presentations and has received several national and international awards. Razia is actively engaged in professional platforms like ResearchGate, Google Scholar, and LinkedIn. Her research contributions are helping to advance the field of electronic materials and nanostructured coatings.

Publication Profile

google scholar

Education

Razia Khan Sharme is presently enrolled in the Master’s program in Applied Optics at Delaware State University, USA, where she holds a 4.00/4.00 GPA (June 2024 – Present). Her academic journey began at Khulna University of Engineering and Technology (KUET) in Bangladesh, where she earned a Bachelor of Science in Materials Science and Engineering with an impressive 3.76/4.00 GPA over 160 credits (December 2017 – February 2023). During her undergraduate studies, she was consistently ranked among the top students and received multiple merit-based scholarships. Her education has equipped her with both theoretical knowledge and practical experience in material processing, computational simulations, optics, and mechanical characterization of advanced materials. Razia’s strong academic background, paired with her focus on research and innovation, has laid the foundation for her current work in thin films and semiconductor technologies, allowing her to thrive in both academic and industrial environments.

Experience

Razia Khan Sharme has developed extensive research experience through both academic projects and scientific collaborations. At Delaware State University, she is currently engaged in research focusing on thin films and optical coatings, particularly transparent conducting oxides (TCOs) such as Indium Tin Oxide (ITO) and Aluminum Zinc Oxide (AZO). Her work combines first-principles calculations with material synthesis and characterization, under the guidance of Dr. Mukti Rana and Dr. Manuel A. Quijada. She has co-authored publications in top journals such as Nanomaterials, Physica B, and Materials. Razia also contributed to multiple international conferences including SPIE DCS and the ERN Conference. Previously, she participated in collaborative research at KUET, conducting computational modeling and experimental validation in metallic alloys and perovskites. Razia is adept at simulation tools, materials characterization techniques, and scholarly communication, which have prepared her for future roles in both research-intensive academia and the high-tech industry.

Awards and Honors

Razia Khan Sharme has been recognized numerous times for her academic and research excellence. She won First Prize in the Physics (Graduate Category) for her oral presentation at the ERN Conference in STEM (2025). At KUET, she received University Technical Merit Scholarships in all four academic years (2019–2023) and earned the Dean’s Choice Award for outstanding GPAs in her 3rd (3.94) and 4th (3.87) years. Her academic excellence began early, with Board General Scholarships in secondary and junior school. Razia also excelled in national competitions, achieving 1st Runner-Up in the Bangladesh Math Olympiad (2017) and 9th Position in the Bangladesh Science Olympiad (2017). Her consistent achievements reflect her dedication to academic excellence, innovation, and leadership. These honors, combined with her scholarly publications, make her a rising figure in the field of materials science and engineering with a promising career ahead.

Research Focus

Razia Khan Sharme’s research is primarily centered on thin films, semiconductors, and computational materials science. Her core expertise includes the synthesis, characterization, and simulation of transparent conducting oxides (TCOs) such as ITO and AZO, as well as first-principles studies of advanced functional materials. She employs density functional theory (DFT) and other simulation techniques to investigate optical, mechanical, and electronic properties of perovskites, metal oxides, and mono-chalcogenides under varying conditions such as pressure or doping. Her work explores the structural stability and application potential of these materials in next-generation optoelectronic devices, including flexible electronics and photovoltaics. Razia aims to bridge computational predictions with experimental validation to develop more efficient, sustainable, and cost-effective materials. Her interdisciplinary approach has led to collaborations with researchers across institutions in the U.S. and Bangladesh, and her publications reflect growing contributions in both theoretical modeling and practical applications in nanomaterials and device engineering.

Publication Top Notes

  • 📄 A Review of Transparent Conducting Films (TCFs): Prospective ITO and AZO Deposition Methods and ApplicationsNanomaterials, 2024

  • 📄 Recent Progress on Layered Sn and Pb-Based Mono Chalcogenides: Synthesis, Structure, Optical, and Thermoelectric Properties and Related ApplicationsNanomaterials, 2024

  • 📄 Thin Conducting Films: Preparation Methods, Optical and Electrical Properties, and Emerging Trends, Challenges, and OpportunitiesMaterials, 2024

  • 📄 First-Principles Study on Electronic, Mechanical, and Optical Properties of Pressure-Induced Vanadium-Based Perovskite KVO3Physica B, 2024

  • 📄 A Deep Dive into Structural, Electronic, Optical, and Mechanical Properties of ATiO3 (A= Ba, Th): DFT InsightsPhysica Scripta, 2023

  • 📄 Modelling Microstructure and Mechanical Properties of Solidified Al-Sn-Cu AlloyMalaysian Journal on Composites Science & Manufacturing, 2023

  • 📄 Pressure-Induced Investigation of Structural, Electronic, Optical, and Mechanical Properties of BaCeO3Optical Materials, 2024

  • 📢 First-Principles Study on Structural, Electronic, Mechanical, and Optical Properties of Indium (III) OxideSPIE DCS, 2025

  • 📢 Advancing Indium Tin Oxide Thin Films and Protective Coatings for Next-Generation ApplicationsERN Conference, 2025

  • 📢 A Study on the Tensile Properties from the Composition of an Annealed Structural Steel SampleICMERE, 2021

  • 📢 Modelling Microstructure and Mechanical Properties of Solidified Al-Sn-Cu AlloyIUT-ICMMPE, 2023

  • 📢 Evaluation of Mechanical Properties and Moisture Resistance Behavior of Jute-Glass-Viscose Fiber Reinforced Hybrid CompositeICME, BUET, 2023

Abbas Zarei Hanzaki | Materials Science | Best Researcher Award

Published on by Citation Awards

Prof. Abbas Zarei Hanzaki | Materials Science | Best Researcher Award

 

Full Professor of Metallurgy & Materials Science and Engineering at University of Tehran, Iran

Prof. Abbas Zarei Hanzaki is a distinguished figure in the field of materials science and engineering, renowned for his groundbreaking research and innovative contributions. With a wealth of academic achievements and extensive experience, Prof. Zarei Hanzaki has made significant advancements in various areas of materials science, including metallurgy, mechanical properties, and materials characterization. His expertise encompasses dynamic areas such as the development of novel testing methods, materials characterization techniques, and innovative manufacturing processes. Prof. Zarei Hanzaki’s research has led to the creation of advanced materials with enhanced mechanical properties and improved performance, contributing to advancements in industries ranging from aerospace and automotive to biomedical engineering. Throughout his career, Prof. Zarei Hanzaki has received numerous honors and awards, recognizing his outstanding contributions to materials science and engineering. His dedication to excellence and passion for research have earned him a reputation as a leader in the field, inspiring future generations of scientists and engineers.

Professional Profiles:

📚 Education:

Prof. Abbas Zarei Hanzaki has acquired a comprehensive educational background marked by excellence and specialization in materials science and engineering. His academic journey commenced with a high school diploma from Adib High School in 1979, where he excelled in mathematics and physics, graduating with a commendable average of 3.9. Building upon his foundation, Prof. Hanzaki pursued a Bachelor of Science degree in Materials Science and Engineering, focusing on metallurgy, at the University of Tehran. His undergraduate dissertation explored “The effect of manganese on physical and mechanical properties of ductile irons,” reflecting his early interest in materials characterization. He graduated in 1985 with a notable average of 3.8. Continuing his academic pursuit, Prof. Hanzaki pursued a Master of Science degree in Materials Science and Engineering at the University of Tehran, specializing in materials characterization and selection. His research centered on “Electro-Slag Remelting Of Steels,” further advancing his expertise in metallurgical processes. He completed his master’s degree in 1988 with distinction, achieving an impressive average of 4. Determined to deepen his understanding, Prof. Hanzaki pursued a Ph.D. in Materials Science and Engineering, focusing on physical and mechanical metallurgy of steels, particularly exploring thermomechanical processing of TRIP steels. He conducted his doctoral research at McGill University in Canada, graduating in 1993 with an excellent academic record. Subsequently, Prof. Hanzaki embarked on a postdoctoral fellowship at McGill University, delving into the physical and mechanical metallurgy of titanium alloys, with a focus on the thermomechanical processing of Ti-6Al-4V alloy. His postdoctoral research further enriched his expertise and contributed to advancements in the field of materials science and engineering. Throughout his educational journey, Prof. Abbas Zarei Hanzaki has demonstrated a steadfast commitment to academic excellence and research innovation, laying a solid foundation for his distinguished career in materials science and engineering.

Academic Experience:

Prof. Abbas Zarei Hanzaki has held various academic positions and responsibilities, showcasing his expertise and leadership in the field of materials science and engineering. Beginning in 1994, he served on the faculty board in the College of Engineering at the University of Tehran, where he assumed the role of Associate Professor. Over the years, he demonstrated his dedication to teaching, research, and academic administration, contributing significantly to the growth and development of the institution. In 2011, Prof. Hanzaki’s academic accomplishments led to his promotion to the position of Full Professor within the College of Engineering at the University of Tehran. This recognition underscores his exceptional contributions to scholarship, mentorship, and leadership in the academic community. As a Full Professor, he continues to inspire and guide students and colleagues, fostering a culture of excellence and innovation. In addition to his academic roles, Prof. Hanzaki has served as a member of the Board of Trustees of Southern Alborz Universities from 2008 to 2010, where he contributed his insights and expertise to strategic decision-making and governance. Furthermore, he has played a pivotal role in supervising research activities at the Mechanical Properties of Materials Laboratory since 2008, ensuring the quality and integrity of scientific investigations in this critical area of study. Prof. Hanzaki’s leadership extends to the Hot Deformation Laboratory, where he has served as a supervisor since 2004. In this capacity, he has overseen research projects and provided mentorship to students, fostering a collaborative and innovative research environment. Moreover, his leadership qualities were further demonstrated during his tenure as the Head of the University of Tehran Science and Technology Park from 2017 to 2021, where he spearheaded initiatives to promote technology transfer, innovation, and entrepreneurship within the academic community. Through his academic leadership and commitment to excellence, Prof. Abbas Zarei Hanzaki has made significant contributions to the advancement of education, research, and innovation in materials science and engineering. His multifaceted roles and responsibilities underscore his dedication to shaping the future of the field and nurturing the next generation of scholars and innovators.

Honors:

Prof. Abbas Zarei Hanzaki’s innovative contributions to the field of materials science and engineering are exemplified through his scientific inventions and honors. His pioneering work includes the development of novel testing methods and techniques that have advanced the understanding of material behavior and mechanical properties. Among his notable inventions are the Shear-Compression Specimens, which consider the shear mode of fracture, and the Continuous Cooling Compression Test, both of which have revolutionized the evaluation of material performance under various loading conditions. Additionally, Prof. Hanzaki designed and manufactured the Shear Punch test method and Miniature Disk Bending mold, enabling the evaluation of mechanical properties in miniaturized specimens with unprecedented precision and efficiency. Further demonstrating his ingenuity, Prof. Hanzaki introduced the Accumulative Back Extrusion technique as a novel severe plastic deformation method, contributing to the development of advanced manufacturing processes and materials with enhanced mechanical properties. In recognition of his outstanding contributions to research and scholarship, Prof. Hanzaki was honored as the Top Researcher of the University of Tehran in 2014 and 2016. Moreover, he was acknowledged as being among the top one percent of researchers worldwide by Essential Science Indicators, Thomson Reuters, in both 2015 and 2016, a testament to the global impact and significance of his scientific endeavors. Prof. Abbas Zarei Hanzaki’s scientific inventions and accolades underscore his commitment to excellence and innovation in materials science and engineering. Through his groundbreaking research and pioneering contributions, he continues to push the boundaries of knowledge and inspire future generations of researchers and engineers.

 

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📚Publications :

Microstructures and mechanical properties of Al/Al2O3 surface nano-composite layer produced by friction stir processing
Authors: A Shafiei-Zarghani, SF Kashani-Bozorg, A Zarei-Hanzaki
Citations: 463
Year: 2009

Dynamic recrystallization in AZ31 magnesium alloy
Authors: SM Fatemi-Varzaneh, A Zarei-Hanzaki, H Beladi
Citations: 411
Year: 2007

An investigation into the hot deformation characteristics of 7075 aluminum alloy
Authors: MR Rokni, A Zarei-Hanzaki, AA Roostaei, HR Abedi
Citations: 206
Year: 2011

Artificial neural network modeling to predict the hot deformation behavior of an A356 aluminum alloy
Authors: N Haghdadi, A Zarei-Hanzaki, AR Khalesian, HR Abedi
Citations: 190
Year: 2013

The flow behavior modeling of cast A356 aluminum alloy at elevated temperatures considering the effect of strain
Authors: N Haghdadi, A Zarei-Hanzaki, HR Abedi
Citations: 189
Year: 2012

Constitutive base analysis of a 7075 aluminum alloy during hot compression testing
Authors: MR Rokni, A Zarei-Hanzaki, AA Roostaei, A Abolhasani
Citations: 177
Year: 2011

Wear assessment of Al/Al2O3 nano-composite surface layer produced using friction stir processing
Authors: A Shafiei-Zarghani, SF Kashani-Bozorg, A Zarei-Hanzaki
Citations: 175
Year: 2011

Artificial neural network modeling to predict the high-temperature flow behavior of an AZ81 magnesium alloy
Authors: O Sabokpa, A Zarei-Hanzaki, HR Abedi, N Haghdadi
Citations: 161
Year: 2012

The high-temperature flow behavior modeling of AZ81 magnesium alloy considering strain effects
Authors: P Changizian, A Zarei-Hanzaki, AA Roostaei
Citations: 149
Year: 2012

Retained austenite characteristics in thermomechanically processed Si-Mn transformation-induced plasticity steels
Authors: AZ Hanzaki, PD Hodgson, S Yue
Citations: 143
Year: 1997