Maria Richetta | Materials Science | Best Researcher Award

Published On 29/07/202501/08/2025 by ScienceFather

Maria Richetta | Materials Science | Best Researcher Award

Assoc Prof. Dr. Maria Richetta at Università degli Studi di Roma Tor Vergata | Italy

Professor Maria Richetta is an Associate Professor of Technical Drawing and Design at the Department of Industrial Engineering, University of Rome “Tor Vergata”, Italy. With a strong foundation in physics and materials science, she plays a key role in interdisciplinary research involving biomedical applications, additive manufacturing, and computational design. She coordinates international academic collaborations and teaches advanced courses in engineering and applied sciences. She is a member of the PhD Program Committee and part of the LIME international research lab. Professor Richetta is highly respected for her contributions to education, research, and the development of cutting-edge medical technologies.

Professional Profile

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ORCID

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Education

Dr. Maria Richetta holds a Master of Science in Physics (cum laude) from the University of Rome “La Sapienza.” She earned her Ph.D. in Thermophysical Properties of Materials from the University of L’Aquila, where she specialized in the thermal and physical characterization of materials.

Experience

Professor Maria Richetta is currently serving as an Associate Professor in Technical Drawing and Design at the Department of Industrial Engineering, University of Rome “Tor Vergata.” She is an active member of the Ph.D. Program Committee in Industrial Engineering and serves as the Academic Coordinator for the Master’s program in “Chemistry for Nanoengineering,” a collaborative initiative among institutions in Italy, France, and Poland. She is also a member of LIME (International Laboratory of Ionomer Materials for Energy). In the past, she has lectured on a range of subjects including General Physics, Laser Applications in Medicine, Photovoltaic Physics, Statistical Data Analysis, Fusion Energy, and Additive Manufacturing.

Professional Development

Professor Richetta has developed a robust academic profile through continuous professional growth in interdisciplinary research and teaching. She has expanded her impact by participating in and leading international academic programs, fostering global collaborations across Europe, the USA, Australia, and Brazil. Her professional development includes expertise in additive manufacturing, biomedical materials, CAD-FEA simulations, and experimental mechanics. Richetta’s ongoing engagement with innovative teaching and research projects has helped train a new generation of engineers and scientists. Her commitment to evolving educational methodologies and advanced research places her at the forefront of technical and biomedical engineering innovation

Research Interests

Professor Richetta’s research lies at the intersection of biomedical engineering, materials science, and advanced manufacturing. Her work focuses on micro- and nano-structured composites for medical implants, particularly using Layered Double Hydroxides (LDHs) for corrosion-resistant coatings. She also explores additive manufacturing to develop biomimetic implants, hybrid solid-lattice structures, and dental or orthopedic devices. Richetta integrates CAD and Finite Element Analysis tools for structural analysis and conducts mechanical and surface testing of biological materials and 3D-printed components. Her interdisciplinary approach enables the design of customized, biocompatible, and efficient medical solutions, addressing real-world healthcare challenges with cutting-edge technologies.

Awards and Recognitions

While specific award titles are not mentioned, Professor Maria Richetta has earned significant recognition for her academic leadership, particularly as the coordinator of the international Master’s in “Chemistry for Nanoengineering.” She is a founding member of the LIME Laboratory, an international collaboration with institutions such as Aix-Marseille University and CNRS. Her distinguished teaching record across physics and engineering programs demonstrates long-standing educational excellence. Additionally, her contributions to the development of biomedical devices and additive manufacturing solutions have positioned her as a respected figure in European interdisciplinary research and higher education.

Top Noted Publications

Title: Alloys for Aeronautic Applications: State of the Art and Perspectives
Year: 2019
Cited By: 217
Title: Continuous Dynamic Recrystallization (CDRX) Model for Aluminum Alloys
Year: 2018
Cited By: 79
Title: Generation of High Pressure Shocks Relevant to the Shock-Ignition Intensity Regime
Year: 2014
Cited By: 74
Title: Morphology of Zn/Al Layered Double Hydroxide Nanosheets Grown onto Aluminum Thin Films
Year: 2014
Cited By: 73
Title: A Further Analysis on Ti6Al4V Lattice Structures Manufactured by Selective Laser Melting
Year: 2019
Cited By: 65
Title: Magnetically Guided Fast Electrons in Cylindrically Compressed Matter
Year: 2011
Cited By: 59

Dong-Ik Kim | Materials | Best Researcher Award

Published On 23/05/202523/05/2025 by ScienceFather

Dong-Ik Kim | Materials | Best Researcher Award

Dr. Dong-Ik Kim, Korea Institute of Science and Technology, South Korea.

Dr. Dong-Ik Kim 🎓 is a Principal Research Scientist at the Korea Institute of Science and Technology 🏢, specializing in high-temperature oxidation, texture control, and advanced microscopy techniques 🔬. With a Ph.D. in Materials Science and Engineering from Seoul National University 🎓, he has led groundbreaking research on grain boundary engineering and in-situ 3D analysis. His international experience includes post-doctoral fellowships in Germany 🇩🇪 and Korea 🇰🇷. An award-winning scientist 🏆, he has been honored by ASM International and invited for plenary talks at major global conferences 🌍. His expertise is shaping future energy and materials technology. ⚙️

Publication Profiles

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Education & Experience

📘 Education:

🎓 Ph.D., Materials Science and Engineering, Seoul National University, 2002
📄 Thesis: “Statistical analysis on the development of recrystallization texture in Ti-stabilized IF steel”
🎓 M.S., Metallurgical Engineering, Seoul National University, 1998
📄 Thesis: “Development of recrystallization texture in Ti-stabilized IF steel”
🎓 B.S., Metallurgical Engineering, Seoul National University, 1996

🧑‍🔬 Professional Experience:

🏢 Principal Research Scientist, Korea Institute of Science and Technology (2005.09–Present)
🔬 Post-Doctoral Fellow, RWTH-Aachen, Germany (2003.09–2005.08)
🔬 Post-Doctoral Fellow, Research Institute of Advanced Materials, SNU (2002.08–2003.08)

Suitability for the Award

Dr. Dong-Ik Kim is an outstanding candidate for the Best Researcher Award due to his exceptional contributions to materials science and engineering. As a Principal Research Scientist at the Korea Institute of Science and Technology (KIST), Dr. Kim has demonstrated sustained excellence in research, particularly in high-temperature oxidation, advanced electron microscopy, and grain boundary engineering. His innovative work and international recognition place him at the forefront of his field.

Professional Development

Dr. Dong-Ik Kim has pursued continuous professional development through cutting-edge international research collaborations 🌐 and specialized training in electron microscopy and texture analysis 🔍. His post-doctoral work in Germany expanded his expertise in metallurgical physics, while his return to Korea reinforced advanced studies in high-temperature applications 🔥 and materials innovation. At KIST, he integrates state-of-the-art microscopy techniques (EBSD, TKD, ASTAR) with in-situ and 3D SEM/FIB analysis 🧪. He frequently contributes to scientific conferences, delivers plenary talks 🗣️, and collaborates across disciplines to enhance industrial and academic impact 🏭📚.

Research Focus

Dr. Kim’s research focuses on materials behavior under extreme conditions ⚙️🔥, particularly high-temperature oxidation for solid oxide fuel cells and next-generation power systems 🔋. He specializes in electron microscopy techniques such as EBSD, TKD, and ASTAR 🔬, allowing deep insights into texture control and grain boundary engineering. His in-situ and 3D analysis using SEM & FIB enables real-time microstructural evolution studies 🧫📐. These investigations are crucial for developing durable, efficient materials in energy, aerospace, and metallurgy sectors 🌍. His work bridges fundamental science with applied materials research, enhancing material performance and sustainability ♻️.

Awards & Honors

🛠️ Best performer during industrial training at BHEL Bhopal (2012)
🎓 Selected for Ph.D. program at IIT Madras – Competitive admission (2019)
🧪 Research contributor in multiple institutional projects at IIITDM Jabalpur
🏅 Conference presentations and paper publications in mechanical engineering research

Publication Top Noted

“Strain partitioning and mechanical stability of retained austenite” – 221 citations, 2010 📊
“Analysis of microstructure and texture evolution in pure magnesium during symmetric and asymmetric rolling” – 179 citations, 2009 🔬
“Asymmetric and symmetric rolling of magnesium: Evolution of microstructure, texture and mechanical properties” – 155 citations, 2012 🧪
“The role of grain boundaries in the initial oxidation behavior of austenitic stainless steel containing alloyed Cu at 700°C for advanced thermal power plant applications” – 117 citations, 2015 🔧
“Microstructure and mechanical properties of friction stir welded and laser welded high entropy alloy CrMnFeCoNi” – 114 citations, 2018 🛠️
“An investigation of the corrosion behavior of 316L stainless steel fabricated by SLM and SPS techniques” – 108 citations, 2020 ⚙️
“Preferred crystallographic pitting corrosion of pure magnesium in Hanks’ solution” – 105 citations, 2012 🧫
“Microstructure development in mechanically alloyed yttria dispersed austenitic steels” – 94 citations, 2009 🧱

Mohd Ashraf Bujran | Material Science | Best Researcher Award

Published On 10/02/202510/02/2025 by ScienceFather

Mohd Ashraf Bujran | Material Science | Best Researcher Award

Mr. Mohd Ashraf Bujran, University of kashmir srinagar , India.

Mohd Ashraf Bujran is a dedicated Ph.D. scholar in the Department of Physics at the University of Kashmir, specializing in Experimental and Computational Material Science. His research focuses on the ferroelectric, optical, and dielectric properties of metal-organic frameworks. With a strong academic background, he has worked as a Junior Research Fellow under an SERB-sponsored project. Passionate about scientific exploration, he has attended international conferences and training programs. Proficient in various experimental techniques, he actively contributes to advancing material science. Outside academia, he enjoys reading, photography, and cycling. His commitment to research continues to shape his journey in physics.

Publivation Profiles

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Orcid

Education and Experience

Ph.D. Scholar (2023 – Present) – University of Kashmir, Department of Physics
Junior Research Fellow (JRF) (2021-2023) – SERB-funded project on ferroelectric & optical properties of rare-earth metal-organic frameworks
M.Sc. in Physics (2011) – University of Kashmir (76.2%)
B.Sc. in Non-Medical (2013) – University of Kashmir (60.6%)
12th (Non-Medical) (2017) – JK BOSE (60.6%)
10th (General) (2020) – JK BOSE (62.2%)

Suitability summary

Mr. Mohd Ashraf Bujran, a dedicated Ph.D. scholar at the Department of Physics, University of Kashmir, has made significant contributions to the field of Experimental and Computational Material Science. His research focuses on ferroelectric, optical, and dielectric properties of metal-organic frameworks, as well as Density Functional Theory (DFT) applications. With an excellent academic background, competitive exam qualifications (CSIR-NET & JKSET), and hands-on experience with advanced experimental techniques, Dr. Bujran is an outstanding candidate for the Best Researcher Award. His impactful research and active participation in scientific conferences highlight his dedication to advancing materials science.

Professional Development

Mohd Ashraf Bujran is committed to continuous learning and skill enhancement in material science. He has participated in prestigious conferences such as the 27th International Conference of International Academy of Physical Science (CONIAPS XXVII) and specialized training programs like STUTI and Resonance Science Outreach Program. His expertise includes handling advanced instruments such as VSM, dielectric and ferroelectric measurement tools, crystal growth techniques, and thin film preparation. With a passion for scientific discovery, he actively engages in collaborative research and knowledge-sharing, contributing to advancements in materials physics. His hands-on experience and computational skills make him a versatile researcher.

Research Focus

Mohd Ashraf Bujran’s research lies in Experimental and Computational Material Science, focusing on the ferroelectric, optical, and dielectric properties of metal-organic frameworks (MOFs). His work integrates density functional theory (DFT) to explore the electronic structures of materials, aiming for advancements in energy storage, sensors, and optoelectronic applications. His contributions bridge experimental techniques with computational modeling, leading to innovative insights into material behavior. By combining thin film preparation, crystal growth, and dielectric analysis, he plays a crucial role in developing next-generation functional materials. His research supports technological advancements in sustainable and high-performance materials.

Awards And Honours

CSIR NET 2021 – All India Rank (AIR: 210)
JKSET 2023 – Qualified for eligibility in research & teaching
Junior Research Fellowship (JRF) – SERB-sponsored project in Material Science (2021-2023)
Invited Participant – STUTI Training Program on Scientific & Technological Infrastructure
Best Presentation Recognition – Participated in International Conferences on Physics

Publication Top Noted

Terbium-doped metal-organic frameworks: Dielectric and ferroelectric properties with enhanced electrochemical sensing for heavy metal ion detection (2025) – Journal of Solid State Chemistry
Synthesis and optimization of Eu³⁺: ZnO and pristine ZnO based thin film through sol-gel technique for an improved visible light photodetection (2024) – Materials Science and Engineering: B
A comprehensive study of ferroelectric, dielectric and optical properties of europium-doped SBD metal-organic framework (2024) – Results in Optics
Exploration of the optical characteristics in sol-gel synthesized europium-doped zinc oxide thin films for potential optoelectronic use: a comprehensive characterization approach (2024) – Physica Scripta
Optical, thermal and semiempirical study of Samarium bi-tartrate trihydrate (2024) – Current Applied Physics

Parami Ama Shakya | Materials | Best Researcher Award

Published On 06/01/202506/01/2025 by ScienceFather

Parami Ama Shakya | Materials | Best Researcher Award

Ms. Parami Ama Shakya, University of Kelaniya, Sri Lanka.

Parami Ama Shakya is a passionate physicist and researcher specializing in dye-sensitized solar cells and thin-film materials. With a B.Sc. Honours in Physics from the University of Kelaniya (Second Upper Class) and ongoing M.Phil studies, she combines academic excellence with impactful research. Her contributions include publications in reputed journals and conferences. Currently a Physicist in the Sri Lanka Scientific Service, she is a skilled project manager, problem solver, and creative thinker. Parami is also an accomplished musician, holding a Visharada in Sitar, and has won the All-Island Championship in 2013.

Publication profile

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Education and Experience

Education

M.Phil in Physics – University of Kelaniya (reading)
B.Sc. Honours in Physics – University of Kelaniya (2017–2021)
- Key Courses: Physics, Pure Mathematics, Electronics
- GPA: 3.57 (Second Upper Class)
G.C.E. Advanced Level Examination – Physical Science Stream (2016)
G.C.E. Ordinary Level Examination – 2012

Experience

Temporary Demonstrator (Aug 2022 – Dec 2022) – Department of Physics & Electronics, University of Kelaniya
Temporary Research Assistant (Dec 2022 – Oct 2024) – University of Kelaniya
Physicist (Dec 2024 – Present) – Sri Lanka Scientific Service

Suitability For The Award

Ms. Parami Ama Shakya, a dedicated physicist currently pursuing her M. Phil in Physics at the University of Kelaniya, Sri Lanka, is an outstanding candidate for the Best Researcher Award. With a B.Sc. Honours in Physics and a second upper class GPA of 3.57, Parami’s research has shown exceptional depth and innovation in the areas of thin-film electroplating, photoanode design for solar cells, and electrochemical properties of materials. Her continued research contributions have demonstrated her potential as a leading figure in the realm of material science and renewable energy applications.

Professional Development

Parami Ama Shakya actively enhances her expertise through various programs and workshops. She completed a six-month program on statistical analysis, research methodology, and scientific writing conducted by FGS, University of Kelaniya. She participated in training sessions on ChemDraw and Adobe Illustrator for Scientific Figures and Illustrations.

Parami attended workshops on current trends in photo-electrochemical and photovoltaic materials, gaining insights into advanced methodologies. Her involvement in sustainability leadership initiatives and science exhibitions further highlights her commitment to scientific advancement and community outreach.

Research Focus

Parami Ama Shakya focuses her research on dye-sensitized solar cells (DSSCs) and thin-film materials. She explores the enhancement of DSSC performance through natural dyes and innovative electrodeposition techniques. Her work delves into wettability properties, co-sensitization with green tea and grapes, and optimizing photoanode materials like TiO₂. Her publications in reputed journals and conferences demonstrate her expertise in advancing renewable energy technologies and sustainable solutions. By integrating materials science with cutting-edge photovoltaics, she contributes significantly to eco-friendly energy innovations.

Publications Top Notes

**“A Study on Cu Thin-Film Electroplated TiO₂ Photoanodes for Applications in Natural Dye-Sensitized Solar Cells,Crystals, 2024 “**

Mahitosh Biswas | Materials | Best Researcher Award

Published On 24/09/202424/09/2024 by ScienceFather

Mahitosh Biswas | Materials | Best Researcher Award

Dr. Mahitosh Biswas , Universität Würzburg, Germany

Dr. Mahitosh Biswas is a postdoctoral researcher at the Centre for Nanoscience and Nanotechnology (C2N), Université Paris-Saclay, specializing in advanced materials science. Born on March 5, 1990, in India, he has extensive experience in hybrid oxide molecular beam epitaxy (MBE) and the development of functional oxide materials for energy storage applications. His research includes the fabrication of ferroelectric-dielectric integrated capacitors and the integration of oxide and III-nitride semiconductors. Dr. Biswas’s innovative work contributes significantly to the fields of optoelectronics and energy-efficient technologies.

Publication Profile

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Suitability For The Award

Mahitosh Biswas is a highly qualified candidate for the Best Researcher Award, with a robust background in nanoscience and materials engineering. His research encompasses a range of advanced topics, particularly in molecular beam epitaxy and the development of functional oxide materials, positioning him as a leader in his field.

Education and Experience:

Ph.D. in Nanotechnology and Science – Indian Institute of Technology Bombay, India (2014-2017)
Research Associate-I (Electrical Engineering) – Indian Institute of Technology Bombay, India (04.2017 – 08.2018)
Postdoctoral Research Associate – University of Southern California, USA (08.2018 – 07.2019)
Postdoctoral Research Fellow – University of Michigan, USA (08.2019 – 08.2020)
Temporary Research Associate-III (Electrical Engineering) – IIT Bombay, India (03.2021 – 09.2021)
Postdoctoral Researcher (Physics and Astronomy) – University of Würzburg, Germany (10.2021 – 09.2023)
FTC Scientist (Materials Science) – C2N/CNRS, Université Paris-Saclay, France (04.2024 – ongoing)

Professional Development

Dr. Mahitosh Biswas is committed to continuous professional development, focusing on cutting-edge research in materials science. His experiences span various institutions worldwide, where he has honed his skills in molecular beam epitaxy and advanced materials fabrication. Through supervising Ph.D. students and collaborating on significant research projects, he actively contributes to the academic community. His involvement in the ERC Advanced “CRYPTONIT” grant project underscores his leadership in innovative research initiatives. Dr. Biswas is dedicated to bridging the gap between theoretical knowledge and practical applications in materials engineering.

Research Focus

Dr. Mahitosh Biswas’s research primarily focuses on hybrid oxide molecular beam epitaxy (MBE) and the development of atomically engineered quantum materials. His work includes investigating the fundamental properties of ferroelectric complex perovskites and their integration into high-efficiency energy storage devices. He also explores the design and characterization of nanostructures and heterostructures for optoelectronic applications, including photodetectors and LEDs. His innovative research significantly advances the fields of piezoelectricity and ferroelectricity, aiming to enhance performance in flexible electronics and high-power devices.

Awards and Honors

ERC Advanced Grant – “CRYPTONIT” (ongoing)
Recognition for Contributions – Numerous collaborations and research publications
Ph.D. Scholar – Indian Institute of Technology Bombay (2014-2017)

Publications

Molecular Beam Epitaxy of Homogeneous Topological HgTe on Doped InAs Substrate – Cited by 0 (2024)
Thermodynamically metastable α-, ε- (or κ-), and γ-Ga2O3: From material growth to device applications – Cited by 11 (2022)
Effects of rapid thermal annealing in InGaN/GaN quantum disk-in-GaN nanowire arrays – Cited by 10 (2020)
Engineering of carrier localization in BGaAs SQW for novel intermediate band solar cells: Thermal annealing effect – Cited by 8 (2020)
Growth of high quality (In,Ga)N films on O-face ZnO substrates by plasma-assisted molecular beam epitaxy – Cited by 5 (2020)
Enhanced optical and structural properties of MBE-grown AlGaN nanowires on Si substrate by H⁻ ion implantation and UV ozone treatment – Cited by 1 (2019)

Conclusion

Mahitosh Biswas’s extensive research experience, innovative contributions to nanotechnology, and commitment to academic excellence make him an outstanding candidate for the Best Researcher Award. His work not only advances scientific knowledge but also has significant implications for industry and technology, affirming his deservingness of this recognition.