Rachid Masrour – Materials for energy – Best Researcher Award

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Rachid Masrour – Materials for energy – Best Researcher Award

Prof Dr. Rachid Masrour distinguished academic and researcher in the field Materials for energy, He appears to be highly suitable for the Best Researcher Award.

🌐 Professional Profile

Educations📚📚📚

  • Doctorate in Materials Physics: The person has a strong foundation in physics, particularly in materials physics, which is a significant and impactful research area.
  • Full Professorship and Habilitation: Achieving a full professorship and university habilitation demonstrates a high level of expertise, recognition, and authority in their field of research.

Professional Experience:

  • Research Professor: Over a decade of experience as a research professor at respected institutions shows dedication to both research and teaching. The transition from the National School of Applied Sciences to a prominent role at Sidi Mohamed Ben Abdellah University further highlights their growing influence in the academic world.

Research and Academic Contributions:

  • Responsibilities: The individual’s involvement in various academic and administrative roles, such as heading departments, coordinating programs, and participating in multiple committees, indicates a leadership role in shaping educational and research initiatives. These roles often require one to be a thought leader and innovator in their field.
  • Module Responsibilities: The responsibility for modules on advanced topics like Interaction Radiation Matter, Molecular Spectroscopy, Physics of Phase Transitions, and Optical Transmission Technology suggests deep expertise in cutting-edge areas of physics and engineering, which are critical for research and innovation.

Suitability for Best Researcher Award:

  • Breadth and Depth of Research: The candidate’s extensive experience in both teaching and research, combined with their leadership roles, suggests they are a well-rounded academic with a strong impact on both their field and the institutions they have served.
  • Leadership in Research: The leadership positions, particularly in research committees and academic councils, indicate the individual’s influence extends beyond personal research to shaping the research agenda and standards at their institutions.
📝🔬Publications📝🔬

1. Oudahman, M. , Houmad, M. , Masrour, R. , Rezzouk, A. Materials
Science in Semiconductor Processing , 182, 108647 (2024).
2. Raïâ, M.Y. , R. Masrour, Hamedoun, M. , Kharabach J, Rezzouk A,
Benzakour, N. , Bouslykhane, K. Materials Science in Semiconductor
Processing , 181, (2024) 108649.
3. A. Erraji, R. Masrour, L. Xu. Ionics 2024.DOI10.1007/s11581-024-05632-
z.
4. Heryanto, H. , Tahir, D. , Abdullah, B, Sayyed M.I.; Yunas, Jumril;
Masrour, Rachid; Veeravelan K. Arabian Journal for Science and
Engineering. DOI10.1007/s13369-024-09210-3 (2024).
5. Mennaoui, O. , R. Masrour, Xu, L. , Hlil, E.K. Ionics , 30(5), pp. 2537–
2547 (2024).
6. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today Communications ,
39, 108713 (2024).
7. Kadim, G. , R. Masrour, Physica Scripta , 99(6), 065988 (2024).
8. Rauf, Ichsan; Heryanto, Heryanto; Tahir, Dahlang; Gaus, Abd; Rinovian,
Asnan; Veeravelan K.; Akouibaa, Ahmed; Rachid Masrour; Akouibaa,
4
Abdelilah. Physica Scripta Open Access Volume 99, Issue 61 (2024) Article
number 065998.
9. Khalis, M, R. Masrour. Indian Journal of Physics , 98(8), pp. 2719–2729
2024.
10. Ramdane, O. , Labidi, M. , Labidi, S. , R. Masrour, Journal of the
Korean Ceramic Society (2024).DOI10.1007/s43207-024-00397-7.
11. Kadim, G. , R. Masrour, Journal of the Korean Ceramic Society
(2024).DOI10.1007/s43207-024-00394-w.
12. Sahdane, T. , R. Masrour, Journal of Cluster Science
(2024).DOI10.1007/s10876-024-02636-7.
13. Ezaier, A. , R. Masrour, Hamedoun, A., M. , Kharbach, J.,
Rezzouk, A., Benzakour, N. , Bouslykhane, K. Journal of Rare Earths
(2024).DOI10.1016/j.jre.2023.05.014.
14. R. Masrour, , Kadim, G. , Ellouze, M. Journal of the Korean
Ceramic Society , 61(3), pp. 411–418 (2024).
15. Akouibaa, A. , R. Masrour, , Mordane, S. , Benhamou, M., El
Assyry, A. , Derouiche, A.. Journal of Drug Delivery Science and Technology
, 95, 105559 (2024).
16. Sahdane, T. , R. Masrour, Polyhedron , 254, 116948 (2024).
17. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today
Communications , 39, 108713 (2024).
18. Elhnaki, I. , Masrour, R. , Sahdane, T. Computational Materials
Science , 242, 113113 (2024).
19. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500801 (2024).
20. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500811 (2024).
21. Meghchouche, H. , Labidi, M. , Amara, A. , Labidi, S. , R. Masrour,
Physica B: Condensed Matter , 686, 416080 (2024).
22. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Science in
Semiconductor Processing , 179, 108506 (2024).

Revati Nandan – Condensed Matter Physics – Best Researcher Award

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Revati Nandan – Condensed Matter Physics – Best Researcher Award

Mr. Revati Nandan  distinguished academic and researcher in the field Condensed Matter Physics.

🌐 Professional Profile

Educations📚📚📚

He embarked on his formal education journey with a Bachelor’s degree in Science, which he completed at Maharaj Laxmen Sen Memorial College, H.P, Sundernagar, in March 2012. Building upon this foundation, he pursued a Master’s degree in Physics at Himachal Pradesh University, Summer-Hill Shimla, completing it in July 2015.

His academic pursuits continued as he delved deeper into the realm of research and scholarship. In December 2018, he took a significant step forward by joining as a PhD Scholar at Himachal Pradesh University, Summer-Hill Shimla. His doctoral research focuses on Electrocaloric and Energy Storage, particularly exploring lead-free BaTiO3-based ferroelectric ceramics for sustainable energy storage and cooling systems. Additionally, he is engaged in investigating relaxor ferroelectric thin films for their potential applications in energy storage. Through his academic journey, he demonstrates a commitment to advancing knowledge and contributing to sustainable energy solutions.

PROFESSIONAL EXPERIENCE

As a Teaching Assistant, he has contributed to various courses, including Classical Mechanics in 2022, Nano-Physics in 2021, and Statistical Physics in 2020, each comprising four credits. His interests and expertise span a diverse range of topics within the field of physics.

He possesses proficiency in the synthesis of nanomaterials and ceramics, along with a deep understanding of piezoelectricity and pyroelectricity. His expertise extends to condensed matter physics, where he employs techniques such as atomic force microscopy and spin coating for thin film deposition.

Additionally, he is adept at operating specialized equipment such as Multiferroic Tester and Impedance Analyzer to characterize materials and study their properties. His research interests revolve around ferroelectric and energy storage materials, reflecting his dedication to advancing sustainable energy solutions.

Outside of academia, he enjoys recreational activities such as playing cricket and video games. He also appreciates indulging in the simple pleasure of savoring a cup of chai tea. Through his multifaceted interests and expertise, he brings a well-rounded perspective to both his academic pursuits and leisure activities.

Conferences

He actively participates in a variety of workshops and conferences, showcasing his dedication to staying abreast of the latest developments in his field. Among his engagements, he attended the one-week National Workshop on Nanomaterials for a Sustainable Future at Maharaja Agarsen University in October 2023. Prior to this, he participated in a Two-Day Workshop on Frontier Areas in Materials Research organized by the Department of Physics and the Indian Academy of Sciences in September 2022.

His commitment to international collaboration and knowledge exchange is evident in his attendance at the First International e-conference on Technologies for Smart Green Connected Societies held at Yamagata University, Japan, in December 2021. In January 2021, he further enriched his understanding by completing a six-day short-term course on novel multifunctional materials at Punjab Engineering College.

He actively engages in virtual platforms as well, having attended the International virtual conference on advances in functional materials (AFM-2020) and a one-week online workshop on Research Methodology in Physical Science in 2020. Additionally, he participated in the International conference on Emerging Smart Materials in Applied Chemistry (ESMAC-2020), demonstrating his involvement in cutting-edge research domains.

Furthermore, he has honed his practical skills through workshops such as the one on Electron Microscope and Allied Analytical Techniques organized by HPU and EMSI in 2019. Through these diverse engagements, he consistently seeks to expand his knowledge base and network with peers and experts in the field.

📝🔬Publications📝🔬
  • Influence of sintering temperature on electrocaloric and energy storage
    properties of sol-gel derived lead-free BaHf0.20Ti0.80O3 ferroelectric
    ceramics for sustainable energy solutions(click here)
  • Enhanced room-temperature electrocaloric and pyroelectric responses
    around morphotropic phase boundary and energy storage performance of
    lead-free Ba0.85Ca0.15Hf0.10T i0.90O3 ceramics sintered at various
    temperatures (click here)
  • Phase evolution and enhanced electrical properties in
    Ba0.85Ca0.15Zr0.10T i0.90O3 lead-free ceramics prepared at different sintering
    temperatures (click here)
  • High Energy Storage Efficiency and Electrocaloric Effect in Pb-Free
    Ba0.85Ca0.15Hf0.10T i0.90O3 Ceramics for Sustainable Green Energy
    Applications (click here)

 

Neha Agarwal – Additive Manufacturing and Material Science – Best Researcher Award

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Neha Agarwal – Additive Manufacturing and Material Science – Best Researcher Award

Ms. Neha Agarwal distinguished academic and researcher in the field Additive Manufacturing and Material Science. Proven experience in bridging the gap between Biotechnology and Material Sciences with surface techniques
and characterization. Have successfully published scientific papers in high-impact journals.

🌐 Professional Profile

Educations📚📚📚

She is currently pursuing a PhD in Material Science at Dublin City University in Ireland, focusing on additive manufacturing of Ni-rich nitinol for superelastic properties for stent applications. Prior to that, she obtained a Master of Science in Micro and Nano Systems from Chemnitz University of Technology in Germany, with a grade of 2.1. She completed her Bachelor of Electronics and Communications Engineering with First Class with Distinction at Visveswariah Technological University in India.

Research experience

She has a diverse range of work experiences spanning various fields and countries. From May 2020 to August 2020, she engaged in upskilling herself with courses on Digital Marketing and Project Management through SkillnetIreland. In November 2019, she worked as a Researcher at Saarland University in Saabruecken, Germany, focusing on nanotechnological development for microfluidics.

From November 2018 to February 2019, she served as a Consultant at Altran S.A.S Deutschland – Carl Zeiss SMT in Oberkochen, Germany. Her responsibilities included the calculation of pressure drop in piping systems, development of a modular tool in Excel and MATLAB, and verification of the tool through Computational Fluid Dynamics (CFD).

She also engaged in upskilling on the German language for B2 certification at VHS in Saarbrücken, Germany, from January 2018 to October 2018.

Her work as an Optical Engineer at Sectago GmbH in Saarbrücken, Germany, from October 2016 to December 2017, involved the development of security features for banknotes and documents, including diffraction gratings, wafer preparation, material testing, and nanoimprinting.

Prior to that, from October 2014 to September 2016, she worked on electrode immobilization strategies for the construction of P450 biosensors.

Academic experience

She has extensive experience as a research assistant in various institutions and projects. At the Korea Institute of Science and Technology (KIST) Europe in Saarbrücken, Germany, she worked on sample preparation with aqueous solutions of pyrrole, polymerization using femtosecond Ultraviolet Laser on a microchip, synthesis of gold nanoparticles, and surface characterization using techniques like SEM, AFM, and conductivity measurements for antibody testing. She also contributed to the development of sensors in microfluidic chips through polymerization of conductive polymers using laser direct writing and surface modification techniques.

Previously, she was a research assistant at the Leibniz – Institute for New Materials (INM) in Saarbrücken, Germany. There, she worked on producing colorful coatings for various applications using Physical Vapor Deposition techniques, optimizing processes, investigating material properties, and employing different color measuring techniques.

Her master’s thesis at INM focused on micro-nano structuring and nitriding of Titanium alloy using fiber lasers for dental implants. This involved laser structuring, material characterization using various techniques, and structural analysis.

At Chemnitz University of Technology in Chemnitz, Germany, she worked on a research project involving capacitance-voltage characteristics of bi-layered MOSFETs, conducting measurements and analysis of dependency on frequency variations.

Her experiences demonstrate a strong background in research and hands-on work in materials science, nanotechnology, laser technology, and microfluidics.

📝🔬Publications📝

1. Effect of Heat Treatment Time and Temperature on the Microstructure and Shape Memory
Properties of Nitinol Wires, N Agarwal, J Ryan Murphy, TS Hashemi, T Mossop, D O’Neill, J
Power, A Shayegh, D Brabazon, Materials 16 (19), 6480

2. Influence of processing parameters on the corrosion resistance of additively manufactured
nitinol parts for biomedical applications, N Agarwal, KA Gallagher, S Keaveny, JG Carton, D
Brabazon, MA Obeidi, Results in Materials 21, 100536

3. Study of the effects of laser power and scanning speed on the microstructural morphologies and
physical properties of L-PBF produced Ni52. 39Ti47. 61, N Agarwal, MCC Monu, KT Selvam, MA
Obeidi, D Brabazon, Journal of Materials Research and Technology 27, 8334-8343

4. Influence of laser powder bed fusion and ageing heat treatment parameters on the phase
structure and physical behaviour of Ni-rich nitinol parts, N Agarwal, D Bourke, MA Obeidi, D
Brabazon, Journal of Materials Research and Technology, 2024

5. Laser induced anisotropic wetting on Ti–6Al–4V surfaces; Neha Agarwal, Alexander May, Juseok
Lee, Marcel Lambert, Cagri Kaan Akkan, F.P. Nothdurft, O.C. Aktas, Material Letters Journal

6. Ag–Al2O3 optical nanocomposites with narrow particle size distribution prepared by pulsed laser
deposition; Marcel Lambert, Alexander May, Cagri Kaan Akkan, Neha Agarwal, O.C. Aktas,
Material Letters Journal

7. A Cytochrome P450 3A4 Biosensor Based on Generation 4.0 PAMAM Dendrimers for the Detection
of Caffeine; Michael Müller, Neha Agarwal, Jungtae Kim, Biosensors

8. Direct writing of a conducting polymer pattern in aqueous solution by using an ultrashort laser
pulse; Neha Agarwal, Hyobong Ryu, Melanie Mangang, Wilhelm Pfleging, Jungtae Kim, Royal
Society of Chemistry Advances

Shahroz Saleem – Materials Science – Best Researcher Award

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Mr. Shahroz Saleem  distinguished academic and researcher in the field Financial Materials Science. He organized two significant international conferences in the field of physics in March 2020. The first event was the “International Conference on Advances in Experimental and Theoretical Physics,” organized by the Department of Physics at the University of Agriculture in Faisalabad, Pakistan, held on March 4th and 5th, 2020. The second conference was the “4th International Conference on Materials Science and Nanotechnology 2020,” organized by the Department of Physics at Government College University, also in Faisalabad, held from February 3rd to March 5th, 2020. These conferences provided platforms for researchers and professionals to share and discuss advancements in physics and materials science on an international scale.

🌐 Professional Profiles

Educations📚📚📚

He pursued his Ph.D. in Material Science at Shaanxi Normal University. During his doctoral studies, he engaged in advanced research and academic endeavors focused on material science. Shaanxi Normal University provided him with a conducive environment for his research, offering access to state-of-the-art facilities and expert guidance from faculty members. Throughout his doctoral program, he delved deep into the intricacies of material science, contributing to the body of knowledge in this field. His experiences at Shaanxi Normal University played a pivotal role in shaping his expertise and paving the way for his future contributions to the field of material science.

 

RESEARCH INTERESTS

He gained valuable research experience by working in two prominent laboratories during his academic tenure. Under the supervision of Dr. Yaseen Naz, he contributed to research projects in the Plasma and Flow Assurance Lab, where he explored various aspects of plasma and flow dynamics. Additionally, he worked in the Nanomaterials Lab under the guidance of Dr. Shazia Shukrullah, where he conducted research on nanomaterials and their applications. These research experiences provided him with hands-on exposure to cutting-edge techniques and methodologies in his field of study, shaping his expertise and contributing to his overall academic growth.

📝🔬Publications📝🔬