Pankaj Khirade | Experimental methods | Best Researcher Award

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Dr. Pankaj Khirade | Experimental methods | Best Researcher Award

Shri Shivaji Science College, Amravati | India

Dr. Pankaj P. Khirade is an Assistant Professor at Shri Shivaji Science College, Amravati, India, specializing in material science. With a Doctorate in Physics (Material Science) from Dr. Babasaheb Ambedkar Marathwada University, he is renowned for his expertise in synthesizing and characterizing nanoscale materials such as ferrites, perovskites, nanocomposites, multiferroics, and radiation shielding materials. His contributions to scientific journals and international research establish him as an emerging figure in the academic community.

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Early Academic Pursuits 🎓

Dr. Khirade’s academic journey began with a Bachelor of Science degree in Physics, Chemistry, and Computer Science from Deogiri College, Aurangabad, followed by his Master of Science in Physics (Material Science) from Garware College, Pune in 2009. His commitment to academic excellence led him to pursue a Ph.D. at Dr. Babasaheb Ambedkar Marathwada University, where he focused on the study of nanoscale materials and their applications in material science.

Professional Endeavors 💼

Currently serving as an Assistant Professor at Shri Shivaji Science College, Dr. Khirade also contributes as a Reviewer for several SCI and Scopus-listed journals, showcasing his active involvement in the academic and research community. His work is grounded in multidisciplinary research, combining material science with chemistry and physics to advance the field of nanoscale material synthesis and characterization.

Contributions and Research Focus 🔬

Dr. Khirade’s research interests are deeply focused on the synthesis and characterization of advanced materials like ferrites, nanocomposites, and multiferroics, especially their functional applications in various industrial sectors. With a particular focus on radiation shielding materials, his work has the potential to impact sectors like nuclear energy and electronics. He has published 37 articles in SCI and Scopus-listed journals, contributing extensively to the advancement of material science.

Impact and Influence 🌍

Dr. Khirade’s research has contributed significantly to material science, particularly in the area of nano-materials. His publications in reputed journals and the patent he holds further emphasize his impact. Additionally, his membership in professional organizations like the Indian Science Congress Association and the American Chemical Society illustrates his international recognition and his commitment to furthering research at a global level.

Citations📚

A total of 1486 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations  1486
  • h-index        22
  • i10-index     30

Research Skills 🛠️

Dr. Khirade has mastered various research techniques, including synthesis of advanced materials, X-ray diffraction, scanning electron microscopy, and nanomaterial characterization. He is also skilled in research writing, project management, and critical thinking, all of which contribute to his leadership in the academic field.

Teaching Experience 📚

With over a decade of experience, Dr. Khirade teaches undergraduate and postgraduate students in Physics at Shri Shivaji Science College. He not only imparts knowledge but also inspires future scientists through his engaging lectures on material science and nanotechnology.

Awards and Honors 🏆

Dr. Khirade’s dedication and excellence in research and teaching have earned him numerous accolades:

  • Life Member of Indian Science Congress Association
  • Professional Member of International Solar Energy Society, Germany
  • Multiple publications in international journals and conference proceedings
  • First-Class B.Ed. from Sant Gadge Baba Amravati University

Legacy and Future Contributions 🔮

Dr. Khirade aims to continue advancing his research in nanomaterials and material science through collaboration with international research communities. His future contributions are poised to revolutionize industries such as electronics, energy, and defense. By mentoring young minds, he is shaping the next generation of material scientists, ensuring a strong legacy in the academic world.

Publication Top Notes

Structural, microstructural and optical characteristics of rGO-ZnO nanocomposites via hydrothermal approach

  • Authors: GM Rajguru, RK Mishra, PB Kharat, PP Khirade
    Journal: Optical Materials
    Year: 2024

Experimental, theoretical and numerical simulation-based investigations on the fabricated Cu2ZnSn thin-film-based Schottky diodes with enhanced electron …

  • Authors: SV Mukhamale, MJ Kartha, PP Khirade
    Journal: Scientific Reports
    Year: 2024

Structural, morphological, and electrical investigation of 50 Mrad γ-radiated Ni1-xCdxFe2O4 nanoparticles

  • Authors: MR Patil, AP Keche, PP Khirade, AV Raut, AA Pandit, KM Jadhav
    Journal: Materials Today: Proceedings
    Year: 2022

Hyperthermic evaluation of oleic acid coated nano-spinel magnesium ferrite: enhancement via hydrophobic-to-hydrophilic surface transformation

  • Authors: SB Somvanshi, SR Patade, DD Andhare, SA Jadhav, MV Khedkar, …
    Journal: Journal of Alloys and Compounds
    Year: 2020

Induction Heating Analysis of Surface-Functionalized Nanoscale CoFe2O4 for Magnetic Fluid Hyperthermia toward Noninvasive Cancer Treatment

  • Authors: PB Kharat, SB Somvanshi, PP Khirade, KM Jadhav
    Journal: ACS Omega
    Year: 2020

 

 

 

Nahid Chaudhary | Experimental methods | Best Researcher Award

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Mrs. Nahid Chaudhary | Experimental methods | Best Researcher Award

Indian Institute of Technology Delhi | India

Dr. Nahid Chaudhary is a highly accomplished researcher and engineer specializing in nanoelectronics and semiconductor manufacturing. With a profound focus on the growth of 2D materials and van der Waals heterostructures, he has demonstrated exceptional skills in semiconductor device fabrication and advanced characterization techniques. He is dedicated to advancing the field of nanoelectronics, with a particular emphasis on sensors, optoelectronic devices, and semiconductor industries. Dr. Chaudhary is known for his interdisciplinary collaboration and innovative contributions to device performance and reliability.

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Early Academic Pursuits 🎓

Dr. Chaudhary’s academic journey began with a B.Tech in Electronics and Communication Engineering from Uttar Pradesh Technical University (UPTU), where he graduated with a strong 80.04%. He further advanced his knowledge with an M.Tech in Nanoscience and Nanotechnology from Guru Gobind Singh Indraprastha University (GGSIU) with an impressive 80% score. His Ph.D. in Nanotechnology at Jamia Millia Islamia, New Delhi, focused on the synthesis and applications of 2D MoS2 nanosheets for optical sensing, supported by the Inspire Fellowship from the Department of Science and Technology (DST).

Professional Endeavors 💼

Dr. Chaudhary’s current role as a Postdoctoral Fellow at the Indian Institute of Technology (IIT), Delhi, sees him leading cutting-edge research in Molecular Beam Epitaxy (MBE) and Chemical Vapor Deposition (CVD) growth of 2D materials and van der Waals heterostructures. His professional work has directly impacted the advancement of semiconductor devices through innovative material development for sensors and optoelectronic devices. His contributions have spanned both academia and industry, where his work on next-generation sensors and semiconductor applications is highly regarded.

Contributions and Research Focus 🔬

Dr. Chaudhary’s research focuses on the development and growth of 2D materials, particularly in the fields of sensors, photodetectors, and supercapacitors. His work on van der Waals heterostructures has proven vital in enhancing device performance and reliability. Through his Molecular Beam Epitaxy (MBE) and Chemical Vapor Deposition (CVD) techniques, he has developed materials with promising applications in semiconductor devices. His key research has involved the optical sensing capabilities of MoS2 nanosheets, which have applications in biosensors and photocatalysis.

Impact and Influence 🌍

Dr. Chaudhary’s impact in the field of nanoelectronics is evident through his innovative research and its direct application to cutting-edge technologies. His work on photodetectors and supercapacitors is transformative, addressing crucial issues in the semiconductor industry. His research into 2D materials such as MoS2 and MoTe2 has laid the groundwork for next-generation sensors and optoelectronic devices. Dr. Chaudhary is recognized for his collaborative efforts and interdisciplinary approach, contributing to the global scientific community.

Research Skills 🛠️

Dr. Chaudhary possesses extensive expertise in Molecular Beam Epitaxy (MBE) and Chemical Vapor Deposition (CVD), crucial for the synthesis of 2D materials. He is proficient in advanced characterization techniques including X-ray Diffraction (XRD), Atomic Force Microscopy (AFM), and UV-Vis Spectrophotometry. His skills extend to nanofabrication through maskless lithography, wet chemical etching, and photolithography, positioning him as a key innovator in semiconductor device fabrication. Additionally, his proficiency in cleanroom protocols and material processing ensures the development of high-performance devices.

Teaching Experience 🍎

Dr. Chaudhary is deeply committed to mentoring and teaching the next generation of engineers and researchers. He actively participates in training and mentorship programs in nanoelectronics and semiconductor technology, guiding students and young researchers on cutting-edge research techniques. His contributions extend to teaching at IIT Delhi, where he engages in interdisciplinary teaching and research-based courses, offering students hands-on experience in advanced material synthesis and device fabrication.

Awards and Honors 🏆

Dr. Chaudhary’s exceptional contributions have earned him several prestigious awards:

  • Inspire Fellowship from the Department of Science and Technology (DST) for his Ph.D. research.
  • Best Poster Award at ETAMS 2020 for his work on MoS2 Nanosheets for photodetector applications.
  • Best Poster Award at Nano Road Show 2020 for his groundbreaking research on MoS2-PANI Hybrid Structures for high photoresponsive properties.

His awards demonstrate his leading position in nanotechnology research.

Legacy and Future Contributions 🌱

Dr. Chaudhary is poised to leave a lasting legacy in the field of nanoelectronics. His research on 2D materials is setting the foundation for the future of semiconductor devices, particularly in photodetectors, supercapacitors, and biosensors. Looking ahead, Dr. Chaudhary aims to continue pushing the boundaries of material science and device performance. He envisions a future where his innovations can transform industries such as IoT and optical sensing, thereby shaping the next wave of technological advances in nanotechnology. His ongoing contributions will undoubtedly continue to influence and inspire researchers in the field for years to come.

Publication Top Notes

Utilizing the Ability of Few-Layer MoS2 Integrated with MOCVD-Grown ZnGa2O4 for Thermally Stable Deep Ultraviolet Detection Performance

  • Authors: T Khan, N Chaudhary, RH Horng, R Singh
    Journal: ACS Applied Electronic Materials, 6 (10), 7600-7610
    Year: 2024

High-Performance Visible-to-SWIR Photodetector Based on the Layered WS2 Heterojunction with Light-Trapping Pyramidal Black Germanium

  • Authors: K Bhattacharya, N Chaudhary, P Bisht, B Satpati, S Manna, R Singh, …
    Journal: ACS Applied Materials & Interfaces, 16 (36), 48517-48525
    Year: 2024

Quasi-dry layer transfer of few-layer MBE-grown MoTe2 sheets for optoelectronic applications

  • Authors: N Chaudhary, T Khan, K Bhatt, R Singh
    Journal: Sensors and Actuators A: Physical, 115727
    Year: 2024

Gamma-induced stress, strain and p-type doping in MBE-grown thin film MoTe2

  • Authors: N Chaudhary, K Bhatt, T Khan, R Singh
    Journal: Physical Chemistry Chemical Physics, 26 (34), 22529-22538
    Year: 2024

Comparative study of photocatalytic activity of hydrothermally synthesized ultra-thin MoS2 nanosheets with bulk MoS2

  • Authors: N Chaudhary, K Raj, A Harikumar, H Mittal, M Khanuja
    Journal: AIP Conference Proceedings, 2276 (1)
    Year: 2020

 

Syed Hamza Safeer Gardezi | Experimental methods | Best Researcher Award

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Dr. Syed Hamza Safeer Gardezi | Experimental methods | Best Researcher Award

Quaid i Azam Universty, Islamabad | Pakistan

Dr. Syed Hamza Safeer Gardezi is an accomplished academic with a rich background in Physics. His academic journey began with a Bachelor’s degree in Science from the University of Punjab, Lahore, Pakistan. He then pursued M.Sc. and M.Phil. degrees in Physics from Quaid-i-Azam University, Islamabad, Pakistan, followed by a Ph.D. from the Pontifical Catholic University of Rio de Janeiro, Brazil. Dr. Gardezi’s research focused on Atomically Thin Semiconducting Transition-Metal Dichalcogenides and their electro-optical properties. With a Post-Doctoral fellowship at the Brazilian Center for Research in Physics (CBPF), Dr. Gardezi now serves as an Assistant Professor at Quaid-i-Azam University, Islamabad.

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🎓 Early Academic Pursuits

Dr. Gardezi’s academic journey began with a solid foundation in Physics. His undergraduate studies in Mathematics and Physics at the University of the Punjab set the stage for advanced degrees. He continued his pursuit of knowledge through M.Sc. and M.Phil. degrees at Quaid-i-Azam University, where his thesis research focused on Superconductor materials. His fascination with nanomaterials, especially Transition Metal Dichalcogenides (TMDs), led him to Brazil, where he completed his Ph.D. research on MoS2, WS2, and related materials.

💼 Professional Endeavors

Dr. Gardezi’s professional career began as a Lecturer at the Global System of Integrated Studies in Islamabad, Pakistan. He later joined Quaid-i-Azam University as an Assistant Professor, where he has contributed significantly to the Department of Physics. His professional pursuits extend internationally, particularly during his Post-Doctoral research at CBPF in Brazil, focusing on the Spin Hall Effect and Valley Hall Effect in heterostructures like YIG/MoS2.

🔬 Contributions and Research Focus

Dr. Gardezi’s primary research interests are in the synthesis and characterization of two-dimensional materials like TMDs, Graphene, and their heterostructures. He is particularly interested in chemical vapor deposition (CVD) techniques to synthesize these materials and study their optical and magnetic properties. Additionally, his work on high-temperature superconductors and solar cells highlights his commitment to exploring green technologies for sustainable energy. His focus also includes the study of defects and Raman scattering mechanisms in nanomaterials.

🌍 Impact and Influence

Dr. Gardezi has significantly influenced nanotechnology https://hep-conferences.sciencefather.com/awards-winners/and material science research, particularly in semiconducting materials and superconductors. His work on TMDs has contributed to the broader understanding of two-dimensional materials and their potential applications in electronics, photonics, and energy solutions. His research papers have been published in leading journals and widely cited by fellow scientists, helping drive forward the development of next-generation materials and technologies.

🧪 Research Skills

Dr. Gardezi is well-versed in experimental techniques and synthesis methods, including:

  • Chemical Vapor Deposition (CVD) for 2D-materials.
  • Raman and Photoluminescence (PL) Spectroscopy.
  • X-ray Diffraction (XRD) analysis.
  • Magnetic Susceptibility and Four Probe Resistivity Measurements.
  • Electron Beam Lithography and Photolithography for device fabrication.

These skills position him as a leading researcher in nanomaterials and advanced materials science.

👨‍🏫 Teaching Experience

As an Assistant Professor at Quaid-i-Azam University, Dr. Gardezi has taught various undergraduate and graduate-level courses in Physics. Some of the courses he has taught include:

  • Introductory Mechanics (Undergraduate).
  • Experimental Physics Methods and Statistical Physics (M.Phil./Ph.D. level).
  • Electromagnetism and Atomic and Molecular Physics.

In addition to his academic work, he has also contributed to laboratory sessions as a Teaching Intern at PUC-Rio in Brazil.

🏅 Awards and Honors

Dr. Gardezi has received multiple scholarships and recognitions throughout his career, including the CNPq Scholarship for his Postdoctoral Research. His contributions to material science and nanotechnology have been acknowledged at various international conferences and by leading scientific organizations, showcasing his growing impact on the global scientific community.

🕰️ Legacy and Future Contributions

Looking forward, Dr. Gardezi aims to continue pushing the boundaries of material synthesis and characterization. His ongoing research into TMDs and superconductors is set to lead to innovations in quantum computing, energy storage, and photonics. His work not only paves the way for future breakthroughs in sustainable energy solutions but also holds potential for the next generation of electronic devices. His legacy will likely be shaped by his contributions to green technologies and nanoscience.

Publications Top Notes

Enhancing Superconductivity in Cu1/2Tl1/2Ba2Ca2Cu3O10−δ with Graphene Incorporation: A Comprehensive Study

  • Authors: Syed Hamza Safeer, Nizar Saeed, Abida Saleem, Kashif Naseem, Nawazish A. Khan
    Journal: Langmuir
    Year: 2025

Assessment of the importance and catalytic role of chromium oxide and chromium carbide for hydrogen generation via hydrolysis of magnesium

  • Authors: Fei Qin, Yue Zhang, Kashif Naseem, Zhanjun Chen, Suo Guoquan, Waseem Hayat, Syed Hamza Safeer Gardezi
    Journal: Nanoscale
    Year: 2024

Photoluminescent and Magnetic Properties of Mononuclear Lanthanide-Based Compounds Containing the Zwitterionic Form of 4-Picolinic Acid as a Ligand

  • Authors: Esther Areas, Bruno Rodrigues, Ana Carolina do Nascimento, Henrique C. S. Junior, Glaucio Braga Ferreira, Fabio Miranda, Flavio Garcia, Syed Hamza Safeer, Stéphane Soriano, Guilherme Guedes
    Journal: Journal of the Brazilian Chemical Society
    Year: 2024

Exploring the magnetic behavior of potassium-doped Cu0.5Tl0.5Ba2Ca2Cu3-xKxO10-δ (x=0, 1, 2.5, 3) superconductors

  • Authors: Syed Hamza Safeer, Sadia Arooj, Anila Kanwal, Zil e Huma, Flavio Garcia
    Journal: Physica B: Condensed Matter
    Year: 2024

Automated mechanical exfoliation technique: a spin pumping study in YIG/TMD heterostructures

  • Authors: Rodrigo Torrão Victor, John Fredy Ricardo Marroquin, Syed Hamza Safeer, Danian Alexandre Dugato, Braulio Soares Archanjo, Luiz Carlos Sampaio, Flavio Garcia, Jorlandio Francisco Felix
    Journal: Nanoscale Horizons
    Year: 2023

 

 

 

Jagrutiba Gohil | Experimental methods | Best Researcher Award

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Ms. Jagrutiba Gohil | Experimental methods | Best Researcher Award

Department of Physics | Sardar Patel University | India

Ms. Jagrutiba Gohil is a dedicated PhD research scholar at Sardar Patel University, focusing on material science, specifically in photodetector materials like tin selenide (SnSe) and Indium Selenide (InSe) crystals. His research, which combines experimental crystal growth techniques and nanomaterials integration, explores self-powered photodetectors for optoelectronic applications. Jagrutiba is also an instructor at RPTP Science School and has made significant strides in both academic research and teaching.

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🎓 Early Academic Pursuits

Ms. Jagrutiba’s academic journey began with a Bachelor’s degree in Physics from Sardar Patel University, where he achieved a solid foundation in the subject. His Master’s degree in Physics (M.Sc. and M.Phil.) further deepened his knowledge and set the stage for his doctoral research. With a passion for research, he began his Ph.D. in 2020, focusing on the growth, characterization, and application of semiconductor materials. His educational background reflects a commitment to excellence and continuous learning.

💼 Professional Endeavors

Ms. Jagrutiba’s professional career spans multiple areas, including research, teaching, and academic support. As a PhD scholar, he has contributed immensely to the field of materials science. He also plays a pivotal role in mentoring postgraduate students and supporting their research efforts. In addition to his academic commitments, he serves as a Physics instructor at RPTP Science School, where he fosters student engagement through hands-on learning and real-world physics applications.

🔬 Contributions and Research Focus

Ms. Jagrutiba’s research focus primarily lies in developing self-powered photodetectors, utilizing tin selenide (SnSe) and Indium Selenide (InSe) crystals. His work explores self-biased and self-powered devices, which promise significant advancements in optoelectronics. He has contributed to 8 peer-reviewed publications, exploring crystal growth techniques, material characterization, and the integration of nanomaterials into functional devices. His high-quality research and innovative techniques have significantly impacted the field of materials science.

🌍 Impact and Influence

Through his cutting-edge research, Jagrutiba has had a lasting impact on the field of optoelectronics, specifically in the development of self-powered photodetectors. His work has paved the way for new technologies in optical metrology, nanomaterial integration, and self-biased systems. His collaborative efforts, leadership, and research contributions have enhanced the scientific community’s understanding of semiconductor materials and their applications.

📑 Academic Cites

Ms. Jagrutiba’s work has been widely cited in prestigious journals, contributing to the advancement of photodetection technology. His publications in journals like Optical Materials, Materials Chemistry and Physics, and RSC Advances have garnered attention for their novel methodologies and innovative research. His ability to translate complex scientific concepts into meaningful applications makes his work highly valuable to the academic community.

🛠️ Research Skills

Ms. Jagrutiba has acquired a range of specialized research skills throughout his career. These include:

  • Crystal growth techniques like Direct Vapor Transport (DVT)
  • Advanced material characterization (UV-Visible spectroscopy, Hall effect, resistivity measurements, etc.)
  • Synthesis of nanoparticles, thin films, and 2D materials using techniques like hydrothermal synthesis and electrophoresis
  • Device fabrication including photodetectors, Schottky diodes, and PEC-type solar cells

These skills allow him to develop cutting-edge devices and systems that advance both optoelectronics and materials science.

🏅Awards and Honors 

Ms. Jagrutiba’s efforts have been recognized through the SHODH Fellowship (2021-2023) by the Government of Gujarat, an award that underscores his research excellence and his contributions to materials science.

🌱 Legacy and Future Contributions

Ms. Jagrutiba’s future in research and education looks promising, as he continues to explore innovative material synthesis, device fabrication, and optical metrology techniques. His work aims to significantly impact the optoelectronics industry, with self-powered photodetectors that could revolutionize energy-efficient devices and sustainable technologies. As he progresses in his Ph.D. and teaching career, he hopes to inspire future generations of scientists, contributing to the advancement of material science and optoelectronics.

Publications Top Notes

Self-biased photoelectrochemical photodetector based on liquid phase exfoliated SnSe nanosheets

  • Authors: Jagrutiba D. Gohil, Sanjay A. Bhakhar, Megha Patel, Hiren Shantilal Jagani, V.M. Pathak
    Journal: Optical Materials
    Year: 2024

Self-powered photodetector based on direct vapour transfer (DVT) method grown tin selenide (SnSe) crystals

  • Authors: Jagrutiba Gohil, Vibhutiba Jethwa, Hirenkumar Shantilal Jagani, Ankit G. Dalvaniya, Vivek M. Pathak
    Journal: Journal of Alloys and Compounds
    Year: 2023

Stability & durability of self-driven photo-detective parameters based on Sn₁₋βSbβSe (β = 0, 0.05, 0.10, 0.15, 0.20) ternary alloy single crystals

  • Authors: Jagrutiba Gohil, Hirenkumar Jagani, Vijay Dixit, Abhishek Patel, V.M. Pathak
    Journal: RSC Advances
    Year: 2022

Self-powered anisotropic photo-responsive properties of tin mono-selenide (SnSe) photodetector

  • Authors: Jagrutiba Gohil, Hirenkumar Jagani, Abhishek Patel, V.M. Pathak
    Journal: Optical Materials
    Year: 2022

Enhanced visible-light photoresponse of DVT-grown Ni-doped SnSe crystal

  • Authors: Jagrutiba Gohil, Vibhutiba Jethwa, Vivek M. Pathak, Gunvant K. Solanki, Payal Chauhan, Alkesh B. Patel, Chetan Zankat, Nashreen Patel
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2022

Sonochemical exfoliation, characterization and photoresponse of MoS₀.₅Se₁.₅ nanosheets

  • Authors: Jagrutiba Gohil, Nashreen Patel, Sanjay A. Bhakhar, G.K. Solanki, K.D. Patel, V.M. Pathak, Chetan K. Zankat, Pratik M. Pataniya, Shubham U. Gupta
    Journal: Journal of Materials Science: Materials in Electronics
    Year: 2021

 

 

 

 

Seyed Rasoul Nabavian | Experimental methods | Best Researcher Award

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Assist. Prof. Dr. Seyed Rasoul Nabavian | Experimental methods | Best Researcher Award

Faculty Member at Ayatollah Boroujerdi University, Boroujerd, Iran

👨‍🎓 Profile

Summary🌟

Dr. Seyed Rasoul Nabavian is a highly accomplished civil engineer and academic leader with expertise in structural engineering, dynamic structural identification, and space structures. He holds a PhD in Civil Engineering from Noshirvani University of Technology and is currently a faculty member and head of the Civil Engineering Department at Ayatollah Boroujerdi University. With numerous awards and a strong research background, he has contributed extensively to the fields of concrete technology, modal testing, and structural health monitoring. 🏆

🎓 Education & Academic Excellence

Dr. Seyed Rasoul Nabavian holds a PhD in Civil Engineering from Noshirvani University of Technology, specializing in dynamic properties of double-layer grids. He ranked 19th nationally in the PhD entrance exam, and consistently topped his class during his Bachelor’s and Master’s studies in Structural Engineering, earning top honors and GPAs above 18.

💼Professional Experience

Dr. Nabavian has established himself as a leader in both academia and industry. As a Faculty Member and Head of the Civil Engineering Department at Ayatollah Boroujerdi University, he has mentored countless students and contributed to the growth of the department. His expertise extends beyond the classroom, as he has actively participated in various research initiatives with organizations such as the Defense Industries Organization and the Mazandaran Building Engineering System Organization. Dr. Nabavian’s professional experience also includes roles in concrete laboratory tests, geotechnical studies, and the management of residential building projects.

🌍 Contributions and Research Focus

Dr. Nabavian’s research interests focus on a wide range of cutting-edge topics in civil engineering, particularly in space structures, double-layer grids, cable domes, modal testing, and structural health monitoring. His work in Operational Modal Analysis (OMA) and output-only modal identification has contributed to advancements in damage detection and system identification of structures under dynamic conditions. Additionally, his research on recycled aggregate concrete, fiber-reinforced concrete, and impact-resistant materials aligns with the growing emphasis on sustainable construction.

👨‍🏫Teaching Experience

Dr. Nabavian has consistently demonstrated a passion for education throughout his career. He has taught at Noshirvani University of Technology, Ayatollah Boroujerdi University, and Tabari Higher Education Institute, where he has inspired students with his in-depth knowledge of civil engineering principles. His role as a thesis supervisor and advisor has allowed him to guide emerging researchers in structural health monitoring, seismic evaluation, and material science. He has supervised numerous graduate and postgraduate theses, including groundbreaking research on seismic isolation and fiber-reinforced concrete. Dr. Nabavian’s dedication to teaching is reflected in his students’ academic success and his recognition as an exemplary educator.

🛠️ Technical Skills and Software Expertise

Dr. Nabavian possesses an extensive skill set in structural analysis and engineering software, including proficiency in ARTeMIS, AutoCAD, ETABS, and MATLAB. His technical acumen is complemented by advanced knowledge of signal processing, noise reduction techniques, and data analysis, which have been applied to improve the accuracy and efficiency of output-only structural identification methods.

Top Noted Publications

Output-only modal analysis of a beam via frequency domain decomposition method using noisy data
  • Authors: S Mostafavian, SR Nabavian, MR Davoodi, B Navayi Neya
    Journal: International Journal of Engineering
    Year: 2019
Influence of nano-silica particles on fracture features of recycled aggregate concrete using boundary effect method: Experiments and prediction models
  • Authors: SR Nabavian, H Fallahnejad, A Gholampour
    Journal: Structural Concrete
    Year: 2024
Damping estimation of a double-layer grid by output-only modal identification
  • Authors: SR Nabavian, MR Davoodi, B Navayi Neya, SA Mostafavian
    Journal: Scientia Iranica
    Year: 2021
Effect of noise on output-only structural identification of beams
  • Authors: SR Nabavian, MR Davoodi, B Navayi Neya, SA Mostafavian
    Journal: Journal of Structural and Construction Engineering
    Year: 2020
Fracture characteristics of recycled aggregate concrete using work-of-fracture and size effect methods: the effect of water to cement ratio
  • Authors: H Fallahnejad, SR Nabavian, A Gholampour
    Journal: Archives of Civil and Mechanical Engineering
    Year: 2024

 

 

 

Abdul Muneeb| Experimental methods | Best Researcher Award

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Mr. Abdul Muneeb| Experimental methods | Best Researcher Award

Research Associate at University of Engineering and Technology, Lahore, Pakistan

Abdul Muneeb, born on October 3, 1995, in Pakistan, is an emerging researcher in applied physics. He recently completed his MPhil from the University of Engineering and Technology (UET), Lahore. His academic journey has been marked by a profound commitment to advancing research in nanomaterials, photocatalysis, and experimental plasma physics. His MPhil thesis focused on fabricating Ag-TiO2 nanocomposites using Dielectric Barrier Discharge (DBD) plasma for the photodegradation of methylene blue. Abdul’s dedication to his field is reflected in his published works in high-impact international journals. Currently, he is pursuing a fully funded Ph.D. position to further explore photocatalysis and plasma-based materials, with the goal of making substantial contributions to both academia and industry.

Profile:

Education:

Abdul Muneeb holds an MPhil in Applied Physics from the University of Engineering and Technology (UET), Lahore, which he completed in 2022 with a CGPA of 3.15. His thesis focused on the photocatalytic activities of Ag-TiO2 nanocomposites, which he prepared using Dielectric Barrier Discharge (DBD) plasma. Throughout his education, he developed expertise in various advanced fields, including nanomaterials, experimental plasma physics, and material characterization techniques like XRD, FESEM, and UV-Vis spectroscopy. His coursework included specialized subjects such as photonics, optoelectronics, and advanced lasers. With a strong foundation in applied physics and hands-on experience with experimental techniques, Abdul’s academic training has prepared him for advanced research in plasma and nanotechnology fields.

Professional experience:

Abdul Muneeb has gained valuable experience as a Research Associate at the Faculty of Natural Sciences, UET Lahore, since 2022. In this role, he has been involved in designing and implementing research protocols, developing new product tests, and supervising junior researchers. He has contributed to various research publications and scholarly activities, focusing on nanomaterials and experimental plasma physics. Abdul also worked as a visiting lecturer at UET New Campus KSK from December 2022 to July 2023, where he delivered lectures on various physics topics and guided students through practical laboratory experiments. His experience in both academia and research has equipped him with the skills to effectively communicate scientific knowledge and contribute to cutting-edge research in his field.

Research focus:

Abdul Muneeb’s research focus lies at the intersection of nanotechnology, photocatalysis, and experimental plasma physics. His MPhil research primarily centered on the fabrication of Ag-TiO2 nanocomposites using Dielectric Barrier Discharge (DBD) plasma for environmental applications, specifically in the photodegradation of methylene blue. His work explores the potential of plasma-assisted synthesis methods to enhance the photocatalytic efficiency of nanomaterials. Additionally, Abdul’s interests extend to the development of novel metal oxide semiconductor photocatalysts and the characterization of materials using advanced techniques such as XRD, FESEM, and UV-Vis spectroscopy. He aims to contribute to the fields of plasma physics and nanomaterials by advancing the understanding of how plasma processes can be used to create innovative materials for environmental and industrial applications.

Awards and Honors:

Abdul Muneeb has received recognition for his academic excellence and research contributions. During his MPhil studies, he earned high grades in advanced subjects such as photonics, optoelectronics, and lasers, receiving praise from his professors for his exceptional skills. He secured third position in an energy-saving campaign poster competition during his undergraduate studies at the Government College of Science in Lahore. His research work has been acknowledged through publications in reputed international journals, including Physica B: Condensed Matter and Environmental Health Insights. Abdul has actively participated in various national and international conferences, presenting his research at the 5th International Conference on Material Science & Nanotechnology 2022, where he was a speaker. His dedication to pushing the boundaries of applied physics has earned him admiration from both his mentors and peers.

Publication Top Notes:

  • Publication Title: Emission of ions and electrons correlated with soft and hard x-rays evolution from thermal plasma
    Authors: Ahmad, A.N., Rafique, M.S., Arslan, M., Mahmood, H., Amir, M.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Atmospheric pressure plasma-assisted growth of hexagonal boron nitride nanosheets for improved aluminum hardness
    Authors: Mudassar, M., Rafique, M.S., Naveed, A., Aamir, M., Razaq, M.B.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Enhanced thermal conductivity of plasma generated ZnO–MgO based hybrid nanofluids: An experimental study
    Authors: Nazir, A., Qamar, A., Rafique, M.S., Fayaz, H., Saleel, C.A.
    Publication Year: 2024
    Citations: 3
  • Publication Title: Closed-Loop Implantable Neurostimulators for Individualized Treatment of Intractable Epilepsy: A Review of Recent Developments, Ongoing Challenges, and Future Opportunities
    Authors: Kassiri, H., Muneeb, A., Salahi, R., Dabbaghian, A.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Abatement of Aerosols by Ionic Wind Extracted From Dielectric Barrier Discharge Plasma
    Authors: Arshad, T., Rafique, M.S., Bashir, S., Shahadat, I., Nayab, N.
    Publication Year: 2024
    Citations: 0
  • Publication Title: Fabrication of Ag–TiO2 nanocomposite employing dielectric barrier discharge plasma for photodegradation of methylene blue
    Authors: Muneeb, A., Rafique, M.S., Murtaza, M.G., Rafique, M., Nazir, A.
    Publication Year: 2023
    Citations: 3
  • Publication Title: Automated Door to Prevent COVID-19 using Fuzzy Logic
    Authors: Khokhar, S.-U.-D., Sohaib, R., Muneeb, A., Noor, M.Y., Imran, M.
    Publication Year: 2023
    Citations: 0
  • Publication Title: A 9.5ms-Latency 6.2μJ/Inference Spiking CNN for Patient-Specific Seizure Detection
    Authors: Muneeb, A., Mehrotra, S., Kassiri, H.
    Publication Year: 2023
    Citations: 1
  • Publication Title: Energy-Efficient Spiking-CNN-Based Cross-Patient Seizure Detection
    Authors: Muneeb, A., Kassiri, H.
    Publication Year: 2023
    Citations: 5
  • Publication Title: A 2.7μJ/classification Machine-Learning based Approximate Computing Seizure Detection SoC
    Authors: Muneeb, A., Ali, M., Altaf, M.A.B.
    Publication Year: 2022
    Citations: 7

 

 

Marzieh Abbasi-Firouzjah | Experimental methods | Best Researcher Award

Posted on by High Energy Physics

Dr. Marzieh Abbasi-Firouzjah | Experimental methods | Best Researcher Award

Academician/Research Scholar at Hakim Sabzevari University, Iran

Marzieh Abbasi-Firouzjah is an Associate Professor in the Department of Sciences Engineering at Hakim Sabzevari University, Sabzevar, Iran. Born in 1984, she has established herself as a leading expert in plasma engineering, with a particular focus on the photonics field. Dr. Abbasi-Firouzjah has made significant contributions to thin film deposition technologies and plasma systems. Her extensive academic background and research have earned her numerous publications in highly respected journals. With years of experience in both teaching and research, she continues to advance the frontiers of plasma technology while contributing to the academic community through her editorial and review work for prestigious journals.

Profile:

Education:

Dr. Abbasi-Firouzjah completed her Ph.D. in Photonics, specializing in Plasma Engineering, at Shahid Beheshti University’s Laser & Plasma Research Institute from 2010 to 2014. Her doctoral research focused on investigating plasma parameters in silica-based thin films deposited using plasma-enhanced chemical vapor deposition (PECVD), under the supervision of Dr. Babak Shokri. Prior to her Ph.D., she obtained her M.Sc. in Plasma Engineering at the same institution, working on silicon oxide film deposition using TEOS vapor. She began her academic journey with a B.Sc. in Atomic and Molecular Physics from the University of Mazandaran, where she explored underwater acoustic wave tracking for her undergraduate project. Her diverse educational background underpins her advanced research in plasma systems and thin film technology.

Professional experience:

Dr. Abbasi-Firouzjah brings a wealth of experience in both research and teaching, having specialized in the design, construction, and application of plasma systems for thin film deposition. She has worked extensively with RF, MW, and DC pulsed plasma generators, and her expertise includes using PECVD, DBD, and Sputtering reactors. She is proficient in advanced spectroscopy methods and the operation of vacuum systems. Her technical skills extend to the construction of multifunctional systems for plasma chemical vapor deposition and pulsed laser deposition. Dr. Abbasi-Firouzjah is also involved in antibacterial testing and has reviewed research for leading journals like Diamond & Related Materials and IEEE Transactions on Nanotechnology. Her work has helped push the boundaries of plasma engineering applications in both industrial and academic contexts.

Research focus:

Dr. Abbasi-Firouzjah’s research primarily revolves around plasma-enhanced chemical vapor deposition (PECVD) techniques and their application in the fabrication of thin films. Her work explores the optimization of plasma parameters to improve the structural, electrical, and optical properties of silica-based films. She has made significant contributions to the development of transparent, hard optical coatings, as well as the antibacterial and wettability properties of plasma-modified surfaces for biomedical applications. Additionally, her research extends to the deposition mechanisms of silicon oxide films and fluorinated diamond-like carbon films, with a focus on improving the mechanical and electrochemical properties of multilayer coatings. Dr. Abbasi-Firouzjah’s work has implications for industries ranging from optics to biomedicine, where advanced materials are critical for innovation.

Awards and Honors:

Dr. Marzieh Abbasi-Firouzjah has received numerous accolades for her contributions to plasma engineering and thin film technologies. Her research publications, featured in high-impact journals such as Journal of Non-Crystalline Solids and Journal of Thin Solid Films, highlight her leading role in the field. She has been invited to present at major international conferences, including the International Conference on Plasma Surface Engineering and the IEEE International Conference on Plasma Sciences. Dr. Abbasi-Firouzjah’s pioneering work on transparent and hard optical coatings and antibacterial applications of plasma-modified materials has positioned her as a recognized figure in the scientific community. Her dedication to advancing plasma technologies has been acknowledged through her inclusion in prestigious academic and industrial journals.

Publication Top Notes:

  • FTIR analysis of silicon dioxide thin film deposited by metal organic-based PECVD
    Authors: B. Shokri, M.A. Firouzjah, S.I. Hosseini
    Year: 2009
    Citation: 176
  • Investigation of antibacterial and wettability behaviours of plasma-modified PMMA films for application in ophthalmology
    Authors: F. Rezaei, M. Abbasi-Firouzjah, B. Shokri
    Year: 2014
    Citation: 104
  • The effect of TEOS plasma parameters on the silicon dioxide deposition mechanisms
    Authors: M. Abbasi-Firouzjah, S.I. Hosseini, M. Shariat, B. Shokri
    Year: 2013
    Citation: 60
  • Investigation of the properties of diamond-like carbon thin films deposited by single and dual-mode plasma enhanced chemical vapor deposition
    Authors: S.I. Hosseini, B. Shokri, M.A. Firouzjah, S. Kooshki, M. Sharifian
    Year: 2011
    Citation: 30
  • The effect of duty cycle on the mechanical and electrochemical corrosion properties of multilayer CrN/CrAlN coatings produced by cathodic arc evaporation
    Authors: N. Arab Baseria, M. Mohammadi, M. Ghatee, M. Abbasi-Firouzjah, et al.
    Year: 2020
    Citation: 27
  • Improving the oxygen barrier properties of PET polymer by radio frequency plasma-polymerized SiOxNy thin film
    Authors: M. Shahpanah, S. Mehrabian, M. Abbasi-Firouzjah, B. Shokri
    Year: 2019
    Citation: 25
  • Antibacterial properties of fluorinated diamond-like carbon films deposited by direct and remote plasma
    Authors: S.I. Hosseini, Z. Javaherian, D. Minai-Tehrani, R. Ghasemi, Z. Ghaempanah, et al.
    Year: 2017
    Citation: 18
  • Characterization of fluorinated silica thin films with ultra-low refractive index deposited at low temperature
    Authors: M. Abbasi-Firouzjah
    Year: 2015
    Citation: 15
  • Characteristics of ultra low-k nanoporous and fluorinated silica based films prepared by plasma enhanced chemical vapor deposition
    Authors: M. Abbasi-Firouzjah, B. Shokri
    Year: 2013
    Citation: 13
  • Deposition of high transparent and hard optical coating by tetraethylorthosilicate plasma polymerization
    Authors: M. Abbasi-Firouzjah, B. Shokri
    Year: 2020
    Citation: 12

 

 

Priyanka Sahu | Experimental methods | Young Scientist Award

Posted on by High Energy Physics

Dr. Priyanka Sahu | Experimental methods | Young Scientist Award

Assistant Professor at Rajiv Gandhi University of Knowledge of Technologies-RK Valley (AP-IIIT RK Valley), India

Dr. Priyanka Sahu is an accomplished academic and researcher, currently serving as an Assistant Professor in the Department of Electronics and Communication Engineering at Rajiv Gandhi University of Knowledge Technologies (AP-IIIT), Idupulapaya, Andhra Pradesh. With a solid foundation in Physics and Astronomy (Materials Science), she holds an M.Tech degree from NIT Rourkela and a Ph.D. from IIT Indore. Her research focuses on the development of high entropy alloys and soft magnetic materials, with expertise in experimental methodologies such as sol-gel auto-combustion and mechanical alloying. Dr. Sahu has published numerous high-impact papers, presented at international conferences, and received prestigious accolades like the Best Researcher Award and Best Oral Presentation. She is a passionate educator and an innovative thinker, contributing significantly to both research and academia.

Profile:

Education

Dr. Priyanka Sahu has pursued an impressive academic journey, earning her Ph.D. in Materials Science from the Indian Institute of Technology Indore (IITI) in 2023, where her dissertation focused on developing and characterizing high-entropy soft magnetic alloys. She holds an M.Tech (Research) degree in Physics and Astronomy with a specialization in Materials Science from the National Institute of Technology Rourkela (NITR) in 2017, during which she studied the electrical and magnetic properties of modified strontium hexaferrite. Prior to this, she completed her Bachelor of Engineering in Electronics and Telecommunication at the Government Engineering College Bilaspur in 2014, following a diploma in the same discipline from the Government Polytechnic College Ambikapur in 2011. Throughout her academic journey, Dr. Sahu has consistently maintained high honors and distinctions, showcasing her dedication to research and learning.

 

Professional experience

Dr. Priyanka Sahu has accumulated diverse teaching and research experience. She is currently serving as an Assistant Professor in the Department of Electronics and Communication Engineering at Rajiv Gandhi University of Knowledge Technologies (AP-IIIT), Idupulapaya, Andhra Pradesh, since March 2024. Prior to this, Dr. Sahu worked as a Teaching Assistant and researcher at IIT Indore from 2017 to 2023, during which she handled multiple labs and courses related to physical metallurgy and material science. Her research experience also includes working at NIT Rourkela in a Physics Laboratory. Dr. Sahu has expertise in handling various high-end instruments such as X-ray diffraction (XRD), Scanning Electron Microscopy (SEM), and Differential Scanning Calorimetry (DSC), which are crucial in material characterization. She has also participated in numerous national and international conferences as a presenter and invited speaker, furthering her knowledge and sharing insights into her specialized research areas.

Research focus

Dr. Priyanka Sahu’s research is centered around the development of advanced materials, particularly high-entropy alloys (HEAs), soft magnetic materials, and magnetocaloric materials. Her work explores novel synthesis methods, including mechanical alloying and sol-gel auto-combustion, to develop new materials with superior thermal, magnetic, and electrical properties. Dr. Sahu has extensively studied the microstructural and magnetic behaviors of multi-component alloys, investigating the influence of elements like Si and Mn on phase evolution and magnetic properties. She also focuses on thermodynamic modeling using Redlich-Kister formalism and Miedema’s semi-empirical models for predicting phase formations in these alloys. Her research aims to apply theoretical models to experimental data for better material characterization, especially in high-entropy amorphous alloys. Dr. Sahu’s work is highly interdisciplinary, impacting fields like nanotechnology, metallurgy, and condensed matter physics.

Award and Recognition

Dr. Priyanka Sahu has received numerous accolades throughout her academic and professional career. She was awarded the prestigious “Best Researcher Award” at the 16th edition of International Research Awards in Atomic, Molecular, and Optical Physics in 2024. Her outstanding oral presentation in the “Progress in Metallurgy & Materials (ISPMM-2023)” at IIT Indore earned her a Best Oral Presentation award. Additionally, she secured the 1st runner-up spot in poster presentation during the Research and Industrial Conclave (RIC-2023) at IIT Indore. Dr. Sahu has also received multiple honorariums for her contributions to various programs such as the QIP program at IIT Indore and TEQIP-III in 2018. She was recognized for her early academic excellence with a merit scholarship at Government Polytechnic College Ambikapur, and she ranked 1st in class during her diploma years. These honors reflect her commitment to research and academia.

Publication Top Notes:

  • Synthesis and characterization of hydrogenated novel AlCrFeMnNiW high entropy alloy
    ✍️ SK Dewangan, VK Sharma, P Sahu, V Kumar
    📘 International Journal of Hydrogen Energy, 45(34), 16984-16991, 2020, cited 62 times
  • Investigating the effect of multiple grain–grain interfaces on electric and magnetic properties of [50 wt% BaFe12O19–50 wt% Na0.5Bi0.5TiO3] composite system
    ✍️ R Pattanayak, R Muduli, RK Panda, T Dash, P Sahu, S Raut, S Panigrahi
    📘 Physica B: Condensed Matter, 485, 67-77, 2016, cited 42 times
  • Microstructure and magnetic behavior of FeCoNi (Mn–Si) x (x= 0.5, 0.75, 1.0) high-entropy alloys
    ✍️ P Sahu, S Solanki, S Dewangan, V Kumar
    📘 Journal of Materials Research, 34(5), 829-840, 2019, cited 30 times
  • Dielectric, ferroelectric and impedance spectroscopic studies in TiO2-doped AgNbO3 ceramic
    ✍️ R Muduli, R Pattanayak, S Raut, P Sahu, V Senthil, S Rath, P Kumar, …
    📘 Journal of Alloys and Compounds, 664, 715-725, 2016, cited 21 times
  • Effect of grain size on electric transport and magnetic behavior of strontium hexaferrite (SrFe12O19)
    ✍️ P Sahu, SN Tripathy, R Pattanayak, R Muduli, N Mohapatra, S Panigrahi
    📘 Applied Physics A, 123, 1-10, 2017, cited 15 times
  • Microstructural, magnetic, and geometrical thermodynamic investigation of FeCoNi (MnSi) x (0.0, 0.1, 0.25, 0.5, 0.75, 1.0) high entropy alloys
    ✍️ P Sahu, S Samal, V Kumar
    📘 Materialia, 18, 101133, 2021, cited 7 times
  • Impact of Si and Mg on Microstructural and Magnetic Behavior of Fe-Co-Ni (Mg-Si)x (x = 0.00,0.1,0.2) Multicomponent Alloys
    ✍️ P Sahu, AS Bagri, MD Anoop, M Kumar, V Kumar
    📘 Silicon, 12, 893-902, 2020, cited 7 times
  • Microstructural, magnetic, and geometrical thermodynamic investigation of FeCoNi (MnSi) x (0.0, 0.1, 0.25, 0.5, 0.75, 1.0) high entropy alloys
    ✍️ P Sahu, S Samal, V Kumar
    📘 Materialia, 18, 101133, Patent NO
  • Microstructure, Non-isothermal Crystallization Kinetics and Magnetic Behaviour Study of [FeCoNi100-x(SiMn)x] High Entropy Amorphous Alloys Synthesized by …
    ✍️ P Sahu, S Samal, V Kumar
    📘 Metals and Materials International, 29(9), 2684-2709, 2023, cited 3 times
  • Phase Evolution and Soft Magnetic Behavior of Mechanically Alloyed Fe–Co–Ni Medium Entropy Alloy at Different Disk Angular Velocity
    ✍️ P Sahu, S Samal, V Kumar
    📘 Transactions of the Indian Institute of Metals, 76(11), 3065-3078, 2023, cited 2 times
  • Investigation of the structural, electrical, and magnetic behavior of Co3+-Ti4+ doped strontium hexaferrite: validation of measured and theoretical models
    ✍️ P Sahu, PK Sahu, S Panigrahi
    📘 Journal of Materials Science: Materials in Electronics, 35(10), 709, 2024, cited 1 time
  • Influence of Si and Mn on the Phase Formation, Crystallization Kinetics, and Enhanced Magnetic Properties of Mechanically Alloyed NiCoFe(SiMn)x High Entropy …
    ✍️ P Sahu, S Samal, V Kumar
    📘 Silicon, 15(12), 5367-5392, 2023, cited 1 time
  • An assessment of the mechanically alloyed equiatomic FeCoNiMnSi high entropy amorphous alloy for non-isothermal crystallization kinetics and magnetocaloric refrigeration …
    ✍️ P Sahu, S Samal, V Kumar
    📘 Materials Characterization, 216, 114269, 2024

Conclusion

Overall, Dr. Priyanka Sahu is a well-rounded researcher with a solid background in materials science, excellent technical skills, a significant publication record, and previous awards. Her contributions to the field of high entropy alloys and magnetocaloric materials are impressive and impactful. While focusing on securing research funding and pursuing interdisciplinary research could enhance her profile further, she is undoubtedly a deserving candidate for the “Best Researcher Award.”