Wenjing Yang | Materials Science and Engineering | Best Researcher Award

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Dr. Wenjing Yang | Materials Science and Engineering | Best Researcher Award

Research Associate, Inner Mongolia Metal Material Research Institute, China

Wenjing Yang is a dedicated Research Associate at the Inner Mongolia Metal Material Research Institute. With a passion for materials science and engineering, she has focused her career on the welding and processing of metal materials. After earning her doctorate from Northeastern University, Wenjing has continued to innovate in her field, contributing to the advancement of materials engineering through her research and professional experience.

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Evaluation of Wenjing Yang for the “Best Researcher Award”

Strengths for the Award:

Innovative Contributions: Wenjing Yang has made significant contributions to the field of Materials Science and Engineering, particularly in the area of metal welding and processing. The development of the double-sided friction stir processing (DFSP) technique is noteworthy, as it addresses common issues in traditional friction stir processing by eliminating the heat-affected zone (HAZ) and thermo-mechanically affected zone (TMAZ). This innovation has the potential to improve the mechanical properties of metal joints significantly.

Research Impact: The citation index of Yang’s work, particularly the articles cited 25 and 27 times, indicates a growing recognition and impact within the scientific community. The research on achieving high strength and ductility in aluminum alloys through DFSP has been well-received, reflecting the importance and relevance of the work.

Diverse Research Output: Yang has published multiple peer-reviewed articles in reputable journals, including “Materials Science and Engineering A” and “Heliyon.” This demonstrates a consistent output of high-quality research in the field.

Novel Theoretical Contributions: Yang’s work on the Cavity Growth Mechanism Map (CGMM) is another highlight. This theoretical framework for understanding superplastic deformation in aluminum alloys adds depth to the understanding of material behavior under specific conditions, contributing to the broader field of materials science.

Areas for Improvement:

Citation Index: While some of Yang’s work has been well-cited, there are publications with low or no citations. Increasing the visibility and impact of these papers through better dissemination, collaboration, or focusing on trending research topics could enhance overall citation metrics.

Collaborations and Professional Engagement: The absence of documented collaborations, industry projects, and professional memberships might be seen as a gap in Yang’s profile. Building a network through collaborations and professional organizations could strengthen research impact and provide additional opportunities for innovation.

Broader Research Scope: While Yang has made significant contributions to specific areas within materials science, expanding the research scope to include interdisciplinary studies or applications in other industries could increase the relevance and applicability of the research.

Education 🎓

Wenjing Yang completed her doctoral studies at Northeastern University, specializing in Materials Science and Engineering. Her academic background has equipped her with a strong foundation in the study and application of metal materials, particularly in the context of welding and processing technologies.

Professional Experience 🏢

Since November 2021, Wenjing Yang has been working at the Inner Mongolia Metal Material Research Institute. In her role as a Research Associate, she has been instrumental in leading several key research projects. Her work primarily revolves around developing innovative methods for the welding and processing of metal materials, significantly contributing to the institute’s research output.

Research Interests 🔍

Wenjing Yang’s research interests are centered around Materials Science and Engineering, with a particular focus on welding techniques and the processing of dissimilar metals. She has proposed novel methods, such as double-sided friction stir processing (DFSP) and a multi-layer plug and bolt connection for dissimilar metal butt joints, aimed at enhancing the mechanical properties and impact resistance of metal materials.

Awards and Recognitions 🏆

Wenjing Yang is a candidate for the Best Researcher Award at the World Top Scientists Awards. Her innovative contributions to the field of materials engineering, particularly her work on the Cavity Growth Mechanism Map (CGMM) for aluminum alloys, have earned her recognition within the scientific community.

Publications Top Notes📚

2024Improve the impact property in a novel butt joint of Ti/Al dissimilar metals – Published in Heliyon.

2021Parametric optimization for friction stir processing in Al-Zn-Mg-Cu alloy – Published in Materials and Manufacturing Processes.

Cited by: 25

2016Improvement of microstructure and mechanical properties of 7050-T7451 aluminum by a novel double-sided friction stir processing – Published in Materials Science Forum.

Cited by: 1

2017Achieving High Strength and Ductility in Double-Sided Friction Stir Processing 7050-T7451 Aluminum Alloy – Published in Materials Science and Engineering A.

Cited by: 27

2022Morphology Evolution of Cavity and Energy Dissipation during Superplastic Deformation of 7B04 Al-alloy – Published in Chinese Journal of Materials Research.

Cited by: 1

2024Effect of Sc on wettability of ER5356 welding wires and porosity of deposited metal – Published in ACS Omega.

Conclusion:

Wenjing Yang is a strong candidate for the “Best Researcher Award,” given the innovative contributions to the field of materials science, particularly in metal welding and processing. The development of new techniques like DFSP and theoretical contributions like the CGMM demonstrate a high level of expertise and innovation. However, there is room for growth in terms of expanding research collaborations, increasing professional engagement, and improving the citation impact across all publications. With continued focus and strategic enhancements, Yang’s research could have an even greater influence on the field.

Mohammad Jellur Rahman | Materials Science | Best Researcher Award

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Prof Dr. Mohammad Jellur Rahman | Materials Science | Best Researcher Award

Professor, Department of Physics, Bangladesh University of Engineering and Technology, Bangladesh

Dr. Mohammad Jellur Rahman is a distinguished Professor in the Department of Physics at Bangladesh University of Engineering and Technology (BUET) in Dhaka. With expertise in his field, he contributes significantly to the academic and research landscape. His dedication to teaching and mentoring students has earned him admiration and respect within the university community. As a leading figure in physics education, Dr. Rahman’s work inspires 🌟 and motivates budding scientists. His presence enriches BUET’s academic environment, fostering a culture of excellence and innovation.

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Education

Dr. Mohammad Jellur Rahman’s academic journey showcases an impressive array of achievements. He obtained his Ph.D. in Optoelectronics and Nanostructure Science from Shizuoka University, Japan, delving into carbon nanotubes’ production and applications. Earlier, he earned an M.Phil. from Bangladesh University of Engineering and Technology, focusing on plasma polymerized thin films. His dedication to research is evident through numerous fellowships, including MEXT and ICT, and accolades such as STRC Fellowship. Rahman’s educational foundation includes an M.S. from the University of Dhaka and a B.Sc. with honors, reflecting his commitment to excellence since his schooling days. 🎓

Professional Career 

Dr. Mohammad Jellur Rahman’s professional journey illustrates his commitment to academia and research. Currently serving as a Professor at the Department of Physics, Bangladesh University of Engineering and Technology (BUET), he imparts knowledge to both undergraduate and postgraduate students while actively contributing to curriculum enhancement. Previously, as an Associate Professor and Assistant Professor at BUET, Rahman mentored graduate students and facilitated research endeavors. His tenure as a Lecturer saw him diligently educating undergraduates while pursuing his Master of Philosophy (MPhil). Prior to academia, Rahman held a role at Bangladesh Bank, honing skills in central banking and monetary policy. 🎓

Research Experience

During his academic pursuits, Dr. Mohammad Jellur Rahman engaged in impactful research ventures across prestigious institutions. At Shizuoka University, Japan, as a Graduate Researcher, he delved into the intricate realms of carbon nanotubes’ production and applications. His tenure at the Department of Physics, BUET, Dhaka, Bangladesh, witnessed intensive exploration of plasma polymerized thin films’ optical, structural, and electrical properties. Additionally, as a Research Fellow at the Semiconductor Technology Research Centre, University of Dhaka, Rahman contributed to the synthesis and analysis of pure and cerium-doped barium titanate. These endeavors reflect Rahman’s dedication to advancing scientific knowledge and innovation. 🔬

Field of Interest 

Dr. Mohammad Jellur Rahman’s research interests span a diverse array of materials science disciplines, with a particular focus on carbon nanotubes and nanomaterials. His expertise extends to plasma modification of carbon nanomaterials, elucidating their unique properties. Additionally, Rahman explores the optical, structural, and electrical characteristics of plasma polymerized thin films, alongside investigating ceramics materials‘ structural and electrical properties. Furthermore, his work encompasses comprehensive studies of soft condensed matters, including crystallization, phase transition, and surface morphology, enhancing our understanding of their mechanical, thermal, and electrical properties. Rahman’s multifaceted research contributes significantly to advancing materials science.

Punlications Top Notes

“Schottky conduction mechanism in plasma polymerized N-benzylaniline thin films” (2024)

“Direct current conduction mechanism in the methyl acrylate–vinyl acetate composite thin films” (2023)

“Structural and optical behaviours of methyl acrylate-vinyl acetate composite thin films synthesized under dynamic low-pressure plasma” (2023)

“Carbon Nanotube Reinforced Natural Rubber Nanocomposite as a Stretchable Electronic Material” (2023)

“Thickness dependence of structural and optical behavior of plasma polymerized 3,4-ethylenedioxythiophene thin films” (2022)

“Thickness dependent thermal and optical properties of plasma polymerized N-benzylaniline thin films” (2021)

“Structural and thickness-dependent optical parameters of plasma polymerized 2-vinylpyridine thin films” (2022)

“Effect of M (Ni, Cu, Zn) doping on the structural, electronic, optical, and thermal properties of CdI2: DFT based theoretical studies” (2021)

“Thickness dependent structural and surface properties of plasma polymerized N-benzylaniline thin films” (2021)

“Carbon nanotube-incorporated cellulose nanocomposite sheet for flexible technology” (2020)

 

Micaela Castellino | Materials Science | Women Researcher Award

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Dr . Micaela Castellino | Materials Science | Women Researcher Award

Senior PostDoc Researcher, Politecnico di Torino, Italy

Micaela Castellino, born on April 23, 1979, in Turin, Italy 🇮🇹, is a distinguished Senior PostDoc Researcher at the Applied Science and Technology Department of Polytechnic of Turin since September 2023. As the XPS lab head, she oversees the characterization of diverse surface materials, ranging from carbon-based materials to ceramics and metallic nanoparticles. Micaela’s expertise spans Experimental Physics, Material Science, and Solid State Physics, with a focus on Chemico-Physical Characterization and Surface functionalization. Her work involves cutting-edge techniques like X-Ray Photoelectron Spectroscopy (XPS), contributing to advancements in Electrical and Thermal Conductivity, Carbon-based materials, Polymer composites, Biomaterials, and Materials for Energy Harvesting and CO2 trapping. 🌐🔬👩‍🔬

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Work Experiences

Micaela Castellino has been a trailblazer in her role as a Senior Post Doc Researcher at the Applied Science and Technology Department (DISAT) of Politecnico di Torino since September 2023. 🌟 Specializing in the study and characterization of materials for Energy Harvesting/Conversion applications and CO2 absorption and conversion, she has also been a dedicated professor for the “Nanomaterials Engineering” course for the Master’s degree in Functional Materials Engineering. Prior to this, from September 2018 to August 2023, Micaela served as an Assistant Professor at DISAT, focusing on materials for Energy Harvesting/Conversion applications and teaching the “Nanomaterials Engineering” course. 📚 Before joining Politecnico di Torino, she made significant contributions during her tenure as a Senior Post Doc Researcher at the Centre for Sustainable Future Technologies at Istituto Italiano di Tecnologia from June 2013 to August 2018. In this role, she delved into the study and characterization of nanostructured materials for energy harvesting applications, also imparting her knowledge through teaching XPS (X-ray Photoelectron Spectroscopy) lab courses for Master’s and Ph.D. students. 👩‍🏫🔬🌍

Education

Micaela Castellino holds a Ph.D. in Fundamental & Applied Physics and Astrophysics, where her research focused on the “Study and characterization of diamond surfaces for biosensoring applications.” 🎓 During her doctoral journey, she played a pivotal role in implementing and characterizing an XPS instrument situated in the Solid State Physics Laboratory. 🛠️ Her expertise shone in Diamond Surface Characterization and Functionalization, specifically contributing to the development of nano-biosensors for the DIBIOREX Project at the NIS (Nanostructured Interfaces and Surfaces) Centre within the University of Turin. 🌐 The intersection of physics and biosensor technology marked a significant chapter in her academic pursuits. 👩‍🔬💎

Language

Micaela Castellino’s proficiency extends to the realms of Nuclear, SubNuclear, and Astroparticle Physics, where she has made notable contributions in the detection of cosmic rays. 🌌🔍 Her skill set is further enriched by her adeptness in C++ language programming, allowing her to navigate complex computational challenges in her research endeavors. 💻 Fluent in Italian, her mother tongue, and boasting a C1 level in English, Micaela is well-equipped for effective communication and collaboration in an international scientific context. Additionally, she possesses a foundational understanding of Spanish at an A1 level. 🇮🇹🌐🌍 This multilingual proficiency enhances her ability to engage with diverse scientific communities and contribute meaningfully to her field. 👩‍🔬📊

Publications Top Notes

 

  1. “The beneficial role of nano-sized Fe3O4 entrapped in ultra-stable Y zeolite for the complete mineralization of phenol by heterogeneous photo-Fenton under solar light”
    • Authors: Tammaro, O., Morante, N., Marocco, A., … Sannino, D., Pansini, M.
    • Journal: Chemosphere, 2023, 345, 140400
    • Citations: 2 📚
  2. “Understanding the role of imidazolium-based ionic liquids in the electrochemical CO2 reduction reaction”
    • Authors: Fortunati, A., Risplendi, F., Re Fiorentin, M., … Russo, N., Hernández, S.
    • Journal: Communications Chemistry, 2023, 6(1), 84
    • Citations: 3 📚
  3. “Decoration of laser-induced graphene with MXene and manganese oxide for fabrication of a hybrid supercapacitor”
    • Authors: Reina, M., Serrapede, M., Zaccagnini, P., … Gonzalez-Julian, J., Lamberti, A.
    • Journal: Electrochimica Acta, 2023, 468, 143163
    • Citations: 3 📚
  4. “Standardization of Cu2O nanocubes synthesis: Role of precipitation process parameters on physico-chemical and photo-electrocatalytic properties”
    • Authors: Cuatto, G., Zoli, M., Gallone, M., … Castellino, M., Hernández, S.
    • Journal: Chemical Engineering Research and Design, 2023, 199, pp. 384–398
    • Citations: 1 📚
  5. “CO2 hydrogenation to methanol over Zr- and Ce-doped indium oxide”
    • Authors: Salomone, F., Sartoretti, E., Ballauri, S., … Pirone, R., Bensaid, S.
    • Journal: Catalysis Today, 2023, 423, 114023
    • Citations: 7 📚
  6. “CO2 conversion into hydrocarbons via modified Fischer-Tropsch synthesis by using bulk iron catalysts combined with zeolites”
    • Authors: Corrao, E., Salomone, F., Giglio, E., … Pirone, R., Bensaid, S.
    • Journal: Chemical Engineering Research and Design, 2023, 197, pp. 449–465
    • Citations: 2 📚