Qian Sun | Materials Science | Young Scientist Award

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Dr. Qian Sun | Materials Science | Young Scientist Award

Postdoc, Northwestern Polytechnical University, China

Dr. Qian Sun is a Postdoctoral researcher at Northwestern Polytechnical University, specializing in Mechanics of Materials and Shape Memory Alloys. He earned his Ph.D. from Hiroshima University, Japan, in 2024, following a Master’s degree in the same field. His research focuses on Martensitic Phase Transformation, Impact Dynamics, and Thermomechanical Training of materials. Dr. Sun has published widely in high-impact journals and contributed to advancements in the performance of iron-based shape memory alloys. He has also received prestigious awards, including the China Scholarship Council and JASSO Scholarship. 📚🔬📈

 

Publication Profile

Scopus

Orcid

Google Scholar

Work Experience

Since April 2024, Dr. Qian Sun has been serving as a Postdoctoral Researcher at the School of Civil Aviation at Northwestern Polytechnical University. In this role, he continues his pioneering work in Mechanics of Materials, focusing on Shape Memory Alloys and Impact Dynamics. Dr. Sun’s research contributes to advancing the field of civil aviation by enhancing the performance and reliability of materials used in critical applications. His position allows him to combine his expertise in materials science with practical applications in engineering, propelling innovative developments in aerospace technology. 🔧🚀

 

Educational Background

Dr. Qian Sun’s academic journey is marked by a strong foundation in Materials Science and Engineering. He completed his Bachelor’s degree at Nanjing Forestry University, China (2014-2018). He then pursued advanced studies at Hiroshima University, Japan, where he earned his Master’s (2019-2021) and Doctoral degrees (2021-2024) in Mechanics of Materials from the Graduate School of Engineering and the Graduate School of Advanced Science and Engineering. Throughout his academic career, Dr. Sun’s work focused on the development and characterization of Shape Memory Alloys and other advanced materials. 🔬🌍

 

Research Interests

Dr. Qian Sun’s research spans multiple advanced topics in Materials Science. His primary focus is on the Mechanics of Materials, where he explores areas such as Engineering Mechanics and Experimental Mechanics to improve material behavior under various conditions. His work on Impact Dynamics involves studying how materials respond to dynamic forces, while his expertise in Shape Memory Alloys and Martensitic Phase Transformation seeks to enhance material recovery and performance. Additionally, Dr. Sun investigates Materials Characterization and Thermomechanical Training Treatments, aiming to advance the development of high-performance materials for modern engineering applications. 🛠️⚙️

 

Teaching Experience

Dr. Qian Sun has gained valuable teaching experience in the field of Computational Solid Mechanics. From 2021, he served as a Teaching Assistant, supporting students in mastering complex computational methods used in solid mechanics. In 2022, he took on the role of Teaching Fellow, where he not only continued his teaching in computational solid mechanics but also incorporated Japanese language lessons, enabling students to navigate technical content in both English and Japanese. His diverse teaching roles reflect his commitment to educating the next generation of engineers and researchers. 🏫💻

 

Awards and Recognitions

Dr. Qian Sun’s exceptional academic achievements have been recognized through prestigious awards. In 2021, he was honored with the China Scholarship Council award, supporting his advanced studies and research. Prior to that, in 2020, he received the Japan Student Services Organization (JASSO) Scholarship, enabling him to further pursue his academic interests in Japan. These awards underscore Dr. Sun’s commitment to excellence in research and education, reflecting his drive for innovation in materials science and engineering. 🌏🎓

 

Research Focus

Dr. Qian Sun’s research focuses on Mechanics of Materials and Engineering Mechanics, with a particular interest in Shape Memory Alloys (SMAs) and Martensitic Phase Transformation. His work explores the impact dynamics of SMAs, especially in the context of thermo-mechanical treatments and cyclic loading. Dr. Sun has made significant contributions to understanding the shape recovery behavior and deformation characteristics of Fe-Mn-Si alloys. His studies also include advanced materials characterization methods, contributing to the development of additively manufactured SMAs. 🌡️⚙️ His work enhances applications in structural integrity and material performance across engineering fields.

 

Publication Top Notes

  • “Effect of impact deformation on shape recovery behavior in Fe-Mn-Si shape memory alloy under shape memory training process with cyclic thermo-mechanical loading” – Cited by 16, 2021 🌡️
  • “Bending fracture strength of the pipe joint using iron-based shape memory alloy (Fe-SMA) subjected to different expansion methods at various deformation rates” – Cited by 13, 2022 🔧
  • “Effect of deformation rate on the axial joint strength made of Fe-SMA” – Cited by 11, 2022 🏗️
  • “Whole martensitic transformation process in Fe–Mn–Si–Cr shape memory alloy by improved characterization of volume resistivity” – Cited by 7, 2023 🔬
  • “An Evaluation on Strain Rate Sensitivity of Phase Transformation in Fe-28Mn-6Si-5Cr Shape Memory Alloy during Loading and Heating Processes by Measuring Volume Resistivity” – Cited by 1, 2019 ⚙️
  • “An improvement of shape memory effect in Fe-Mn-Si shape memory alloy by training process under impact tensile loading”- 2024 🔄
  • “A Review of Additively Manufactured Iron-Based Shape Memory Alloys” – 2024 🖨️

Shengqiu Zhao | Materials Science | Best Scholar Award

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Dr. Shengqiu Zhao | Materials Science | Best Scholar Award

Dr. Shengqiu Zhao, Foshan Xianhu Laboratory, China

Dr. Shengqiu Zhao 🎓 (Born: 24 February 1997) is a researcher in Materials Science and Engineering at Wuhan University of Technology. He earned his Ph.D. (2018-2024) and B.Sc. in Polymer Materials and Engineering (2014-2018) from the university. His research focuses on hydrogen-electricity conversion technology, developing efficient and stable polymer electrolytes and hydrogen separation methods. Dr. Zhao has contributed to groundbreaking work in proton exchange membranes, including industrial-scale applications in fuel cells and hydrogen production. He has authored multiple high-impact papers 📚, filed several patents 💡, and received prestigious awards 🏅, including the Outstanding Ph.D. Graduate Award.

 

Academic Career 🎓

Dr. Shengqiu Zhao pursued his academic journey in Materials Science and Engineering, beginning with a B.Sc. in Polymer Materials and Engineering from Hunan University of Technology (2014-2018). His dedication led him to Wuhan University of Technology, where he enrolled in a combined Master’s and Ph.D. program in Materials Science and Engineering (2018-2024). Throughout his academic career, Dr. Zhao focused on innovative research in hydrogen-electricity conversion technology and polymer electrolytes, contributing significantly to advancements in fuel cell systems and hydrogen production. His work has earned him recognition in the academic community 📚🏅.

 

Academic Background & Contributions 🔬⚡

Since 2018, Dr. Shengqiu Zhao has focused on overcoming challenges in hydrogen-electricity conversion technology. His research includes designing efficient and stable polymer electrolytes, investigating ion conduction mechanisms, and optimizing membrane interfaces. Key contributions include the cost-effective synthesis of novel polymer electrolytes, which reduces production costs and variability, as well as the development of an efficient electrochemical hydrogen separation method. Additionally, Dr. Zhao has designed high-performance, durable Membrane Electrode Assemblies (MEA) for hydrogen-electricity conversion, enhancing chemical durability and membrane performance. His innovative work supports advancements in clean energy technologies 🌱🔋.

 

Research Projects 🧪🔋

Dr. Shengqiu Zhao has contributed to groundbreaking research in hydrogen energy technologies. From June 2019 to November 2021, he was a key member in developing composite proton exchange membrane engineering technology. This project resulted in high-performance ePTFE-enhanced membranes, leading to China’s first fully indigenous production line for perfluorosulfonic acid proton exchange membranes, with a stable annual capacity of 300,000 m². These membranes have powered hydrogen fuel cell buses, demonstrated at the 2022 Beijing Winter Olympics. Additionally, from March 2022 to September 2023, he contributed to developing melt-extruded multilayer composite membranes for water electrolysis, advancing China’s megawatt-scale hydrogen production unit ⚡🚀.

 

Honors & Awards 🏆🎓

Dr. Shengqiu Zhao has earned numerous prestigious accolades throughout his academic journey. From 2018 to 2024, he was recognized as an Outstanding Ph.D. Graduate and awarded a First-Class Scholarship by Wuhan University of Technology for his exceptional research and academic performance. Earlier, during his undergraduate studies at Hunan University of Technology (2014-2018), he received the Outstanding Undergraduate Graduate of Hunan Province honor and was a recipient of the National Endeavor Scholarship for three consecutive years. These awards highlight his dedication and excellence in the field of materials science and engineering 🎖️🎓.

 

Research Focus 🔬⚡

Dr. Shengqiu Zhao’s research primarily revolves around advancing hydrogen-electricity conversion technologies with a focus on proton exchange membranes (PEMs) for fuel cells and water electrolysis. His work includes the development of durable, high-performance PEMs with enhanced proton conductivity and resistance to degradation. He explores composite membrane engineering, ion-conducting channels, and electrocatalysts to improve fuel cell efficiency. Additionally, Zhao investigates hydrogen separation methods, polymer electrolytes, and material design for sustainable energy systems, aiming to reduce costs, enhance performance, and promote the large-scale application of these technologies in clean energy solutions 🌱🔋.

 

Publication Top Notes 📚

  • Self-Assembly-Cooperating in Situ Construction of MXene–CeO2 as Hybrid Membrane Coating for Durable and High-Performance Proton Exchange MembraneCited by 53, Year 2022 📃🔬
  • Proton-conductive channels engineering of perfluorosulfonic acid membrane via in situ acid–base pair of metal organic framework for fuel cellsCited by 31, Year 2023 ⚡🧪
  • Perfluorosulfonic acid proton exchange membrane with double proton site side chain for high-performance fuel cells at low humidityCited by 24, Year 2023 🔋🌬️
  • Recent advances regarding precious metal-based electrocatalysts for acidic water splittingCited by 24, Year 2022 💧⚡
  • Construction of reliable ion-conducting channels based on the perfluorinated anion-exchange membrane for high-performance pure-water-fed electrolysisCited by 16, Year 2023 💧🔋
  • Polyphenol synergistic cerium oxide surface engineering constructed core-shell nanostructures as antioxidants for durable and high-performance proton exchange membrane fuel cellsCited by 15, Year 2023 ⚙️🌱
  • Hydrophilic channel volume behavior on proton transport performance of proton exchange membrane in fuel cellsCited by 15, Year 2022 💡💧
  • Construction of catalyst layer network structure for proton exchange membrane fuel cell derived from polymeric dispersionCited by 13, Year 2023 🔧⚡
  • Low-Pt anodes with gradient molybdenum isomorphism for high performance and anti-CO poisoning PEMFCsCited by 8, Year 2024 ⚡🧪
  • Proton exchange membranes with functionalized sulfonimide and phosphonic acid groups for next-generation fuel cells operating at 120° CCited by 6, Year 2024 🔋🌡️
  • Sulfur/carbon cathode composite with LiI additives for enhanced electrochemical performance in all-solid-state lithium-sulfur batteriesCited by 5, Year 2023 🔋⚡
  • Rational design of perfluorinated sulfonic acid ionic sieve modified separator for high-performance Li-S batteryCited by 3, Year 2020 🔋🔬
  • Phosphate-grafted polyethyleneimine-induced multifunctional cerium oxide as an antioxidant for simultaneously enhancing the proton conductivity and durability of proton exchange membrane fuel cellsCited by 2, Year 2024 🌿🔬
  • Rationally designing anti-poisoning polymer electrolyte by electronegativity modulation: Towards efficient ammonia-cracked hydrogen fuel cellsCited by 2, Year 2024 💡🔋
  • Highly durable anion exchange membranes with sustainable mitigation of hydroxide attacks for water electrolysisCited by 1, Year 2024 💧🔋
  • Grafting of Amine End-Functionalized Side-Chain Polybenzimidazole Acid–Base Membrane with Enhanced Phosphoric Acid Retention Ability for High-Temperature Proton ExchangeCited by 1, Year 2024 🔬💡
  • Modification of sulfonated poly (arylene ether nitrile) proton exchange membranes by poly (ethylene-co-vinyl alcohol)Cited by 1, Year 2023 🔋💧
  • Evolution of the network structure and voltage loss of anode electrode with the polymeric dispersion in PEM water electrolyzerYear 2024 🔧💡
  • NH3 to H2, Exploration from Pyrolytic Key Materials to Device Structure DesignCited by 0, Year 2023 🔬⚡
  • In situ programming acid-base pair proton-conductive channels of perfluorosulfonic acid membrane for fuel cellsYear 2023 🧪💡

 

Atta Rahman | Materials Science | Best Researcher Award

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Assist Prof Dr Atta Rahman | Materials Science | Best Researcher Award

Assistant Professor at Khushal Khan Khattak University Karak , Pakistan

 

Dr. Atta Rahman is a dedicated physicist with extensive expertise in material science, specifically in the fields of plasmonic nanomaterials and metamaterials. With a solid academic foundation, including multiple postdoctoral positions in prestigious institutions, Dr. Rahman has contributed to the advancement of knowledge in the areas of IR stealth technology and nanostructured materials. He is actively involved in mentoring students at various academic levels, overseeing bachelor’s, master’s, and Ph.D. research projects.

Publication profile

ORCID

Education Background

      • Postdoctoral Research
        • 2019-2022: School of Material Science and Engineering (SMSE), Shanghai Jiao Tong University (SJTU), Shanghai, China.
        • 2016-2018: School of Electronic Information and Electrical Engineering (SEIEE), Shanghai Jiao Tong University (SJTU), Shanghai, China.
      • Ph.D. in Metallurgy and Material Engineering
        • 2008-2014: Pakistan Institute of Engineering and Applied Sciences (PIEAS), Islamabad, Pakistan.
      • Master of Science in Physics (M.Sc.)
        • 2000-2002: Gomal University, D. I. Khan, KPK, Pakistan.
        • Division/Grade: 1st/A
      • Bachelor of Science in Physics and Mathematics (B.Sc.)
        • 1997-1999: G.P.G. College, Mardan, University of Peshawar, KPK, Pakistan.
        • Division/Grade: 1st/B
      • Intermediate F. Sc (Pre-Engineering)
        • 1995-1997: Board of Intermediate and Secondary Education, Peshawar, Pakistan.
        • Division/Grade: 1st/B
      • Secondary School Certificate (SSC) in Science
        • 1993-1995: Board of Intermediate and Secondary Education, Peshawar, Pakistan.
        • Division/Grade: 1st/A

Research Interest:

  • Plasmonic Nanomaterials
  • Design and Simulation of Metamaterials and Their Optical Responses
  • Infrared (IR) Stealth Technology and Daytime Passive Radiative Cooling
  • Electronic and Magnetic Responses of Nanosized Correlated Transition Metal Oxides (e.g., Spinel Ferrite – CoFe₂O₄)

Professional Experience

Dr. Atta Rahman is currently serving as an Assistant Professor of Physics at Khushal Khan Khattak University Karak, KPK, Pakistan, since 2022. He has an extensive academic background, including two postdoctoral positions at Shanghai Jiao Tong University from 2016 to 2022, focusing on material science and electrical engineering. Prior to his current position, he was an Assistant Professor at the University of Lahore (2015-2016) and AWK University (2014-2015). His teaching career began as a Lecturer in Physics at the Government Degree College Began (2004-2007), followed by roles as a Senior Teacher at the Agriculture University Public School and a Lecturer in Physics at the Government Degree College Takht-Bhai.

 

Author Metrics:

  • Publications: Over 25 peer-reviewed articles in international journals.
  • Citations: [Insert citation metrics if available]
  • Conference Presentations: Numerous presentations at national and international pharmacy and healthcare conferences.

Publication top notes

Tayyaba Ghani | Materials Science | Best Researcher Award

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Tayyaba Ghani | Materials Science | Best Researcher Award

Dr Tayyaba Ghani, Pakistan Institute of Engineering and Aplplied Sciences, Pakistan

Dr. Tayyaba Ghani: A Strong Contender for the Best Researcher Award

Publication  Profile

Google Scholar

Education

Dr. Tayyaba Ghani has an impressive academic background with a PhD in Materials and Surface Engineering from the National University of Sciences and Technology, Pakistan. She holds an MS in Materials Engineering from PIEAS, Islamabad, and an MSc in Physics from QAU, Islamabad, along with a B.Ed. from AIOU, Islamabad.

Professional Experience

Dr. Ghani has been serving as Principal Scientist at DMME, PIEAS, since 2016. Prior to this, she held roles as Senior Scientist (2007-2016) and Junior Scientist (2005-2007), showcasing a rich career in scientific research and leadership.

Awards and Honours

She has received numerous prestigious awards, including the 2017 Peking University Research Scholarship and the 2013 NUST University Fellowship. In 2005, she earned both the Best Thesis Certificate and a Gold Medal for her first position in MS Materials Engineering, with a PIEAS Fellowship supporting her studies.

Teaching Experience

Dr. Ghani has contributed significantly to academia, teaching courses like Structure and Properties of Materials, Corrosion and its Control, and Characterization of Materials at the MS and BS levels in Materials Engineering.

Research Experience

Her research focuses on nanomaterials, particularly nanostructured semiconductor oxides, and their applications in photovoltaics and photocatalysis. She is also known for her work on catalytic applications of nanomaterials.

Research Supervision

Dr. Ghani has supervised 7 PhD and 10 MS students, reflecting her expertise in guiding advanced research.

Publications

Dr. Ghani has co-authored numerous impactful research papers, with her latest publications in Solar Energy and Materials Chemistry and Physics in 2024, focusing on dye-sensitized solar cells and TiO2 nanoparticles.

Talks Delivered

Dr. Ghani has presented her work at various esteemed forums, including the 6th Conference on Emerging Materials and Processes organized by NUST and an international workshop at the National Centre for Physics, Islamabad.

Trainings Received

Dr. Ghani has continuously enhanced her professional skills through various training programs, such as the Professional Competency Enhancement Program for Teachers by HEC and a course on activated carbons at PIEAS.

Publication Top notes

Band structure tuning of ZnO/CuO composites for enhanced photocatalytic activity

Microfluidic platform for encapsulation of plant extract in chitosan microcarriers embedding silver nanoparticles for breast cancer cells

Corrosion behaviour of zinc–nickel alloy coatings electrodeposited in additive free chloride baths

Formation of carbon nanostructures on nickel acetate alcogel by CVD method and its OER electrocatalytic study in alkaline media

Highly ordered combined structure of anodic TiO2 nanotubes and TiO2 nanoparticles prepared by a novel route for dye-sensitized solar cells

Fabrication of self-branched TiO2 nanotubes by anodization method, ordering and crystallinity

Effect of Processing Temperature on the Morphology and Crystal Structure of Anodic TiO2 Nanotubes

Comparative study of microscale and macroscale technique for encapsulation of Calotropis gigantea extract in metal-conjugated nanomatrices for invasive ductal …

Conclusion

Dr. Tayyaba Ghani’s remarkable achievements in education, research, supervision, and academia make her a strong candidate for the Best Researcher Award. Her extensive work in nanomaterials and solar energy systems, alongside her recognized teaching and leadership, highlight her as a prominent figure in the field of materials engineering.