Yanpeng SI | Experimental methods | Best Researcher Award

Mr. Yanpeng SI | Experimental methods | Best Researcher Award

Student at Northwestern Polytechnical University, China

Yanpeng Si, a PhD candidate at Northwestern Polytechnic University in Xi’an, China, was born on March 23, 1997, in Jining, Shandong Province. Under the supervision of Prof. Jianjun Jiang, he has developed a strong foundation in aeronautical engineering and composite materials. Known for his quote, “In me the tiger sniffs the rose,” Yanpeng embodies a blend of strength and elegance. He is an active member of the academic community, contributing to student leadership as the PhD class monitor and Party Affairs Group leader in the School of Mechanical Engineering.

Profile🎓

Early Academic Pursuits 🎓

Yanpeng Si began his academic journey at Shandong Jiaotong University, where he earned a B.S. in Aircraft Manufacturing Engineering with a commendable GPA of 3.610. His passion for aeronautics led him to Northwestern Polytechnic University, where he pursued a B.S. in Aeronautical Engineering, graduating with a GPA of 3.348. Currently, he is a PhD candidate at the same institution, maintaining an impressive GPA of 3.643. His educational background has provided a solid foundation in engineering principles, fostering a keen interest in advanced materials and manufacturing processes.

Professional Endeavors 💼

In addition to his studies, Yanpeng has actively engaged in various discipline competitions, showcasing his leadership and innovation. As a project manager, he led the Intelligent Insulation Cup with Integrated Cooling and Heating project under the National College Student Innovation and Entrepreneurship Training Program. His individual participation in the 18th National CaTICs Network Competition and management role in the “Internet +” Undergraduate Innovation and Entrepreneurship Competition further highlight his commitment to practical applications of engineering concepts.

Contributions and Research Focus 🔬

Yanpeng’s research focuses on composite carbon fiber fabrics, particularly their preforming processes and constitutive modeling. He conducts thorough analysis and testing of the mechanical behavior of these fabrics, contributing valuable insights to the field of aeronautical engineering. His work not only deepens the understanding of composite materials but also has significant implications for their application in various industries, making him a key contributor to the advancement of material science.

Impact and Influence 🌟

Through his leadership roles, including Vice President of the Student Union and class monitor, Yanpeng has significantly influenced his peers and the academic community. His achievements, such as winning the First Prize in the Shandong Aircraft Design Competition and receiving the National Inspirational Scholarship, reflect his dedication to excellence and innovation. Yanpeng’s influence extends beyond competitions, inspiring fellow students to pursue their own academic and professional goals.

Academic Cites 📚

Yanpeng has received multiple accolades throughout his academic career, including recognition as an Outstanding Graduate of Shandong Province in 2019 and as an Outstanding Graduate Student at Northwestern Polytechnic University from 2019 to 2023. His awards, including the Second Prize in the National English Competition for College Students (NECCS) and various scholarships, underscore his commitment to academic excellence and leadership.

Technical Skills 🛠️

Yanpeng possesses a diverse skill set that includes proficiency in various software applications. He is skilled in Office software, Visio, Origin, Illustrator, and Keyshot. His expertise in modeling software such as Catia, Solidworks, and Pro/Engineer, along with simulation software like Abaqus and Ansys, equips him to tackle complex engineering challenges effectively.

Teaching Experience 📖

As a PhD class monitor and a leader in the Party Affairs Group of the School of Mechanical Engineering, Yanpeng has gained valuable teaching and mentoring experience. His roles have involved guiding younger students, fostering an engaging learning environment, and promoting academic integrity and collaboration among peers.

Legacy and Future Contributions 🔮

Yanpeng Si aims to leave a lasting legacy in the field of aeronautical engineering through his research and contributions to composite materials. His ongoing work promises to enhance the understanding and application of advanced materials, paving the way for innovations in aerospace and related industries. As he continues his academic journey, Yanpeng is poised to make significant future contributions that will impact both the scientific community and society at large.

Publication Top Notes📖

A creep/recovery model of dry fiber fabric during compaction considering temperature and in-plane tension
  • Authors: Si, Y., An, L., Xie, C., Li, Y., Jiang, J.
    Publication Year: 2024
    Citations: 1
A model for the temperature-dependent creep/recovery behavior of dry fiber fabric considering in-plane tension
  • Authors: Si, Y., Zhao, Z., Sun, L., Li, Y., Jiang, J.
    Publication Year: 2024
    Citations: 0
A viscoelastic-plastic model for the temperature-dependent creep and recovery behavior during dry fiber fabric compaction
  • Authors: Si, Y., Sun, L., Chen, J., Jiang, J., Li, Y.
    Publication Year: 2024
    Citations: 3
Compression creep model of dry fiber preform considering temperature effect
  • Authors: Si, Y., Sun, L., Yan, E., Li, Y., Jiang, J.
    Publication Year: 2023
    Citations: 0

 

 

 

Ali Ajami | Experimental methods | Best Researcher Award

Prof. Ali Ajami | Experimental methods | Best Researcher Award

Prof. Elec. Eng. at Azarbaijan Shahid Madani University (ASMU) , Iran

Ali Ajami is a prominent Iranian electrical engineer born on August 23, 1973. He is a Professor at the Department of Electrical Engineering at Azerbaijan Shahid Madani University. Dr. Ajami has made significant contributions to the field of electrical engineering, particularly in power electronics and renewable energy applications. With a career spanning over two decades, he has combined teaching, administration, and research to enhance the educational landscape at his university. His leadership roles, including Vice President for Research and Technology, showcase his commitment to advancing research initiatives. Dr. Ajami’s extensive academic and administrative experience makes him a respected figure in his field.

 🎓Profile:

Education:

Dr. Ajami obtained his Ph.D. in Electrical Engineering from Tabriz University in 2005, following his M.Sc. in 1999 and B.Sc. in 1996, also from the same institution. His solid educational foundation has equipped him with the knowledge and skills necessary for his professional journey. His studies focused on various aspects of electrical and electronic engineering, allowing him to develop a deep understanding of the field. His academic background is complemented by years of practical experience, positioning him as an expert in power electronics and related areas. Dr. Ajami’s educational achievements are a testament to his dedication and expertise in electrical engineering.

Professional Experience:

Dr. Ajami’s professional journey began as an Assistant Professor at Azerbaijan Shahid Madani University in 2006, where he progressed to Associate Professor in 2011 and Professor in 2016. He has held several significant administrative roles, including Vice President for Research and Technology from 2014 to 2022 and Director of Research Affairs. His teaching portfolio includes a wide range of undergraduate and graduate courses, emphasizing industrial electronics, power quality, and modern control systems. Additionally, he has supervised numerous Ph.D. and Master’s theses, shaping the next generation of engineers. Dr. Ajami’s extensive experience in academia highlights his commitment to education and research excellence.

Research Focus:

Dr. Ajami’s research interests are centered on the design and control of power electronic converters, with applications in renewable energy, electric vehicles, and energy storage systems. He is particularly focused on the dynamic and steady-state modeling of FACTS devices such as STATCOM and UPFC, as well as on harmonics and power quality compensation systems. His expertise extends to the use of microprocessors and digital signal processors in control systems for power electronics. Dr. Ajami’s work aims to enhance the efficiency and reliability of electrical systems, making significant contributions to the advancement of sustainable energy technologies.

Awards and Honors:

Dr. Ajami has received multiple Researcher Awards from Azerbaijan University of Tarbiat Moallem and Azerbaijan Shahid Madani University, recognizing his exceptional contributions to research from 2006 to 2015. Notably, he was awarded the Industrial Researcher Award and ranked among the top 2% of highly cited researchers worldwide from 2020 to present. His accolades reflect his dedication to advancing knowledge and innovation in electrical engineering. These honors not only acknowledge his individual achievements but also enhance the reputation of his affiliated institutions. Dr. Ajami’s awards illustrate his impact on the academic and industrial sectors.

 📚Publication Top Notes:

Title: Theoretical and experimental evaluation of SEPIC-based DC–DC converters with two-winding and three-winding coupled inductors
  • Authors: Mahmoudi, M., Ajami, A., Babaei, E., Soleimanifard, J.
    Publication Year: 2022
    Citations: 5
Title: A non‐isolated high step‐up DC‐DC converter with integrated 3 winding coupled inductor and reduced switch voltage stress
  • Authors: M. Mahmoudi, A. Ajami, E. Babaei
    Publication Year: 2018
    Citations: 37
Title: Minimisations of total harmonic distortion in cascaded transformers multilevel inverter by modifying turn ratios of the transformers and input voltage regulation
  • Authors: A. Ajami, A. Farakhor, H. Ardi
    Publication Year: 2014
    Citations: 37
Title: Transformer‐based multilevel inverters: analysis, design and implementation
  • Authors: S. Salehahari, E. Babaei, SH. Hosseini, A. Ajami
    Publication Year: 2019
    Citations: 32
Title: A single switch high step‐up DC‐DC converter with three winding coupled inductor
  • Authors: M. Mahmoudi, A. Ajami, E. Babaei
    Publication Year: 2019
    Citations: 32
Title: Design and control of a grid tied 6-switch converter for two independent low power wind energy resources based on PMSGs with MPPT capability
  • Authors: A. Ajami, R. Alizadeh, M. Elmi
    Publication Year: 2016
    Citations: 32

 

Ziyao Jie | Experimental methods | Best Researcher Award

Dr. Ziyao Jie | Experimental methods | Best Researcher Award

Postdoc at State Grid Jibei Electric Power Co., Ltd. Research Institute in China

Ziyao Jie is a postdoctoral researcher at the State Grid Jibei Electric Power Research Institute. He holds a Ph.D. in Electrical Engineering from Tsinghua University, where his research centered on the microwave plasma-based synthesis of nanomaterials for lithium-ion battery applications. Throughout his academic career, Ziyao has made notable contributions to sustainable energy and plasma science, with a focus on improving energy storage technologies. His work on graphene-coated silicon nanomaterials addresses critical issues in battery performance, such as energy capacity and cycling stability. Ziyao’s research has been widely recognized, with multiple patents and publications in high-impact journals.

Profile:

Education:

Ziyao Jie earned his Ph.D. in Electrical Engineering from Tsinghua University, where he specialized in plasma science and nanomaterials synthesis under the guidance of Professor Guixin Zhang. His doctoral thesis focused on the development of microwave plasma methods for producing graphene-coated silicon nanoparticles, designed to enhance lithium-ion battery performance. During his studies, Ziyao gained a comprehensive understanding of high-voltage technologies, nanomaterial properties, and energy storage solutions, which equipped him to tackle real-world challenges in sustainable energy. His academic excellence is reflected in his deep knowledge of plasma diagnostics and high-temperature material synthesis.

Professional Experience:

Ziyao Jie has amassed significant experience in plasma science and energy storage. Following his doctoral research at Tsinghua University, where he developed innovative methods for synthesizing advanced materials for batteries, he continued as a postdoctoral researcher at the State Grid Jibei Electric Power Research Institute. His current work focuses on high-voltage and energy storage systems, contributing to the development of large-scale, sustainable energy solutions. Ziyao has collaborated on key projects such as the Beijing Science and Technology Planning Project, and his expertise spans the areas of nanomaterial synthesis, waste treatment with plasma, and renewable energy applications.

Research focus:

Ziyao Jie’s research focuses on the intersection of plasma science, nanomaterials, and sustainable energy. His primary area of interest is the synthesis of nanomaterials using microwave plasma technologies, with a particular focus on developing advanced materials for energy storage, such as graphene-coated silicon nanoparticles for lithium-ion batteries. His work aims to address key challenges in energy density, stability, and scalability for future battery technologies. Ziyao is also involved in developing plasma-based waste treatment systems, including medical waste management, using high-temperature plasma torches. His research is distinguished by its potential to revolutionize both energy storage and environmental sustainability.

Awards and Honors:

Ziyao Jie has received numerous accolades for his groundbreaking work in plasma science and nanomaterials. His research on microwave plasma-based synthesis earned him recognition in energy storage circles, particularly for his contributions to improving lithium-ion battery technology. Ziyao was a participant in the Beijing Science and Technology Planning Project, which recognized his innovative work on high-energy and high-voltage technologies. Additionally, his patented inventions, which include advanced methods for medical waste treatment and nanomaterial applications, have further established his reputation as a leading researcher. Ziyao’s contributions have also led to high citation indices, highlighting his influence in the academic community.

Publication Top Notes:

  • Mechanisms of Gas Temperature Variation of the Atmospheric Microwave Plasma Torch
    Z. Jie, C. Liu, S. Huang, G. Zhang
    Journal of Applied Physics, 129 (23), 2021
    Citations: 12
  • Microwave Plasma Torches for Solid Waste Treatment and Vitrification
    Z. Jie, C. Liu, D. Xia, G. Zhang
    Environmental Science and Pollution Research, 30 (12), 32827-32838, 2023
    Citations: 10
  • Imaging Diagnostics and Gas Temperature Measurements of Atmospheric-Microwave-Induced Air Plasma Torch
    S. Huang, C. Liu, Z. Jie, G. Zhang
    IEEE Transactions on Plasma Science, 48 (6), 2153-2162, 2020
    Citations: 10
  • Polymer Dielectrics with Outstanding Dielectric Characteristics via Passivation with Oxygen Atoms through C–F Vacancy Carbonylation
    T.Y. Wang, X.F. Li, Z. Jie, B.X. Liu, G. Zhang, J.B. Liu, Z.M. Dang, Z.L. Wang
    Nano Letters, 23 (18), 8808-8815, 2023
    Citations: 8
  • An Atmospheric Microwave Plasma-Based Distributed System for Medical Waste Treatment
    Z. Jie, C. Liu, D. Xia, G. Zhang
    Environmental Science and Pollution Research, 30 (17), 51314-51326, 2023
    Citations: 6
  • Surface-Wave-Sustained Plasma Synthesis of Graphene@Fe–Si Nanoparticles for Lithium-Ion Battery Anodes
    Z. Jie, Z. Zhang, X. Bai, W. Ma, X. Zhao, Q. Chen, G. Zhang
    Applied Physics Letters, 123 (11), 2023
    Citations: 3
  • Determination of 915-MHz Atmospheric Pressure Air Microwave Plasma Torch (MPT) Parameters
    Z. Jie, C. Liu, D. Xia, Z. Zhang, X. Zhao, G. Zhang
    IEEE Transactions on Plasma Science, 51 (2), 456-465, 2023
    Citations: 2
  • The Treatment of Medical Waste by Atmospheric Microwave Plasma
    D. Xia, C. Liu, Z. Jie, G. Zhang
    2021 IEEE International Conference on Plasma Science (ICOPS), 2021
    Citations: 2
  • Microwave Plasma Torch for Solid Waste Treatment
    Z. Jie, C. Liu, D. Xia, G. Zhang
    IET Digital Library, 2021
    Citations: 2
  • Continuous Batch Synthesis with Atmospheric-Pressure Microwave Plasmas
    Z. Jie, T.Y. Wang, S. Huang, X. Bai, W. Ma, G. Zhang, N. Luo
    iScience, 27 (8), 2024
    Citations: N/A

Conclusion:

Ziyao Jie is a strong candidate for the Best Researcher Award, with his groundbreaking contributions in plasma science and energy storage technologies. His research has direct implications for sustainable energy solutions, positioning him at the forefront of innovations in high-energy physics and computational science. His achievements, particularly his patents and numerous high-impact publications, showcase his potential to make lasting contributions to academia and industry, making him highly suitable for this prestigious award.

 

Robert CHEHAB | Experimental methods | Best Innovation Award

Dr.Robert CHEHAB | Experimental methods | Best Innovation Award

Accelerator physicist at IN2P3/CNRS in France

Dr. Robert Chehab, born on October 22, 1937, in Alexandria, Egypt, is a renowned physicist specializing in accelerator physics. He holds French nationality and has had a prestigious academic and scientific career. Dr. Chehab completed his engineering degree from the prestigious École Nationale Supérieure des Télécommunications (now TELECOM-Paris-Tech) in 1963, followed by a PhD in Physical Sciences from Université d’Orsay in 1975. His work has been instrumental in advancing our understanding of positron sources, channeling radiation, and radiation physics. Over his career, he has collaborated with leading institutions such as CERN, KEK, DESY, and SLAC. As a scientist and educator, he has mentored PhD students in radiation and positron source research. Fluent in five languages, Dr. Chehab has contributed significantly to accelerator physics research globally.

Profile:

Education:

Dr. Robert Chehab’s academic journey began at the École Nationale Supérieure des Télécommunications (ENST), now known as TELECOM-Paris-Tech, where he obtained his engineering degree in 1963. His rigorous technical education at ENST laid the foundation for his subsequent focus on accelerator physics. In 1975, he earned his PhD (Docteur-Ingénieur en Sciences Physiques) from the Université d’Orsay. His PhD work explored fundamental concepts in radiation physics and beam dynamics, setting the stage for a prolific research career. Throughout his educational journey, Dr. Chehab showed a deep understanding of complex scientific phenomena such as Cherenkov radiation, positron sources, and channeling radiation, positioning himself as a leading figure in his field. His multidisciplinary expertise has also allowed him to maintain fluency in French, English, Italian, Russian, and Arabic, further enhancing his global scientific impact.

Professional experience:

Dr. Robert Chehab has accumulated extensive experience in both academic and international research environments. He has spent a significant portion of his career at Université Paris-Saclay, where he has led various research projects on accelerator physics. Dr. Chehab has worked in prestigious laboratories worldwide, including extended stays at KEK in Japan, where he conducted research on positron sources and channeling radiation. He also contributed to experiments at DESY in Germany, focusing on transition radiation, and collaborated with BINP-Novosibirsk on channeling radiation studies. His leadership at CERN, particularly in the WA 103 experiment, has cemented his reputation as a leader in accelerator and radiation physics. Additionally, Dr. Chehab has supervised PhD students and played a critical role in mentoring the next generation of scientists.

Research focus:

Dr. Robert Chehab’s research focuses primarily on accelerator physics, with an emphasis on radiation studies. His work spans various topics, including positron sources, channeling radiation, Cherenkov radiation, transition radiation, and photoemission. He has been actively involved in understanding and developing novel radiation physics techniques for advanced accelerator applications. Dr. Chehab’s research also delves into beam dynamics and RF deflectors, expanding the theoretical and practical frameworks of accelerator science. His notable collaborations with CERN on positron source development for the LEP experiment and SLAC on crystal radiator damage tests have pushed the boundaries of what is known about particle interactions with radiation. His work is essential for innovations in particle accelerators, helping to develop the technology used in numerous high-energy physics experiments.

Awards & Honor:

Throughout his distinguished career, Dr. Robert Chehab has been recognized for his contributions to accelerator physics and radiation studies. He has been involved in numerous international collaborations with esteemed institutions such as CERN, KEK, SLAC, and DESY, where his innovative research in positron sources and radiation physics has earned him accolades. Dr. Chehab’s leadership in major projects, such as the LEP positron source collaboration at CERN, has further solidified his stature in the scientific community. His research has been published in leading journals like Nuclear Instruments and Methods, Physical Review, and Physics Letters. While his awards and recognitions are primarily rooted in his research, his contribution to academic mentorship, especially his guidance of PhD students in advanced radiation physics, has been equally commendable. His work continues to impact both experimental methods and the broader scientific community.

Publication Top Notes:

  • From bremsstrahlung to channeling radiation: A promising way for positron generation
    Chehab, R.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1060, 169056
    Citations: 0
  • Advantages of hybrid positron sources with granular converters
    Chehab, R., Chaikovska, I., Alharthi, F., Wallon, S., Sievers, P.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1060, 168994
    Citations: 0
  • Benchmarking the FCC-ee positron source simulation tools using the SuperKEKB results
    Alharthi, F., Chaikovska, I., Chehab, R., Miyahara, F., Mytrochenko, V.
    Journal of Physics: Conference Series, 2024, 2687(2), 022010
    Citations: 0
  • Radiation in oriented crystals: Innovative application to future positron sources
    Soldani, M., Alharthi, F., Bandiera, L., Sytov, A., Tikhomirov, V.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2024, 1058, 168828
    Citations: 1
  • Crystal-based pair production for a lepton collider positron source
    Bandiera, L., Bomben, L., Camattari, R., Tikhomirov, V., Vallazza, E.
    European Physical Journal C, 2022, 82(8), 699
    Citations: 6
  • Positron sources: From conventional to advanced accelerator concepts-based colliders
    Chaikovska, I., Chehab, R., Kubytskyi, V., Hogan, M.J., Martyshkin, P.
    Journal of Instrumentation, 2022, 17(5), P05015
    Citations: 12
  • HE-LHC: The High-Energy Large Hadron Collider: Future Circular Collider Conceptual Design Report Volume 4
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(5), pp. 1109–1382
    Citations: 159
  • FCC-hh: The Hadron Collider: Future Circular Collider Conceptual Design Report Volume 3
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(4), pp. 755–1107
    Citations: 501
  • FCC Physics Opportunities: Future Circular Collider Conceptual Design Report Volume 1
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal C, 2019, 79(6), 474
    Citations: 540
  • FCC-ee: The Lepton Collider: Future Circular Collider Conceptual Design Report Volume 2
    Abada, A., Abbrescia, M., AbdusSalam, S.S., Zupan, J., Zurita, J.
    European Physical Journal: Special Topics, 2019, 228(2), pp. 261–623
    Citations: 619

Conclusion:

Dr. Robert Chehab’s extensive experience, significant contributions to accelerator physics, and international collaborations make him a strong candidate for the Best Researcher Award. His mentorship and prolific publication record add to his credentials. To further elevate his impact, engaging with newer fields of research and amplifying his public outreach would strengthen his candidacy for future recognitions.

 

Priyanka Sahu | Experimental methods | Young Scientist Award

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.”