Tag: Polymer Science Award

Kun Lan | Materials Science | Best Researcher Award

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Prof. Kun Lan | Materials Science | Best Researcher Award

Professor From Inner Mongolia University, China

Dr. Kun Lan is currently a Principal Investigator at the College of Energy Materials and Chemistry, Inner Mongolia University. With a research focus on crystalline mesoporous materials, Dr. Lan has contributed significantly to the field of materials chemistry, authoring over 70 peer-reviewed publications in top-tier journals such as Nature Chemistry, JACS, and Advanced Materials. His academic journey spans esteemed institutions including Lanzhou University, Fudan University, and the University of California, Riverside. His interdisciplinary work bridges chemistry, nanotechnology, and renewable energy applications. As head of the K Lab, he leads a team developing novel mesostructures with relevance to sustainable technologies and energy storage. Dr. Lan has earned multiple national and institutional recognitions for his research excellence, including the National Natural Science Foundation of China grants and the BTR New-Energy Scientific Contest Award. He is also an active member of the scientific community, serving on editorial boards and peer-review panels for international journals. Known for his strong mentorship, innovative approaches to porous material synthesis, and his deep engagement in academic collaboration, Dr. Lan is committed to advancing the frontiers of energy material science through both fundamental discoveries and practical innovations.

Professional Profile

Education

Dr. Kun Lan’s academic path began at Lanzhou University, where he earned his Bachelor of Science in Chemistry in 2013. During his undergraduate years, he developed a foundational understanding of chemical synthesis and material characterization, which sparked his lasting interest in functional materials. Motivated by his growing curiosity, Dr. Lan pursued his Ph.D. in Chemistry at Fudan University under the mentorship of Prof. Dongyuan Zhao, a globally recognized authority in mesoporous materials. He earned his doctorate in 2020, producing a highly cited body of work focused on the design and synthesis of crystalline mesostructures. His Ph.D. research addressed challenges in structural precision and functional integration in porous materials, contributing significantly to the understanding of mesophase control. In 2018–2019, he was a visiting doctoral student at the University of California, Riverside, where he expanded his research scope through international collaboration and exposure to cutting-edge laboratory techniques. These formative academic experiences equipped Dr. Lan with a robust scientific foundation and a global perspective, both of which continue to inform his research direction. His education has been instrumental in developing the skills and mindset necessary for tackling pressing challenges in materials chemistry and renewable technologies.

Professional Experience

Dr. Kun Lan’s professional journey is marked by a steady progression through prestigious academic and research institutions. From 2018 to 2019, he undertook a visiting research appointment at the University of California, Riverside, where he enhanced his understanding of nanomaterial assembly and characterization in an international setting. Following the completion of his Ph.D. in 2020, Dr. Lan served as a Postdoctoral Fellow at Fudan University, where he worked closely with Prof. Dongyuan Zhao. During this time, he deepened his expertise in the controlled synthesis of mesoporous materials and published extensively in high-impact journals. In June 2022, Dr. Lan joined the College of Energy Materials and Chemistry at Inner Mongolia University as a Principal Investigator, where he established the K Lab. As a PI, he leads interdisciplinary research focused on mesostructure design for energy-related applications. He mentors graduate and undergraduate students, secures competitive research funding, and actively contributes to the academic community through collaborations, peer reviews, and conference presentations. His leadership has propelled K Lab into a dynamic research environment known for innovation and academic rigor. Dr. Lan’s career reflects a dedication to scientific excellence, international collaboration, and the development of next-generation researchers in energy materials science.

Research Interests

Dr. Kun Lan’s research lies at the intersection of materials chemistry and sustainable technology, with a focus on the precision synthesis of crystalline mesoporous materials. He is particularly interested in controlling the atomic and mesostructural architecture of porous systems to enhance their performance in catalysis, energy storage, and separation technologies. His work explores the fundamental principles of assembly chemistry, aiming to understand and manipulate the self-organization of building blocks into ordered frameworks. A key objective of his research is to design novel mesostructures with high surface area, tunable porosity, and tailored functionality for renewable technology applications. These include advanced batteries, supercapacitors, and carbon capture materials. Dr. Lan is also committed to developing scalable synthetic routes that bridge the gap between laboratory innovation and industrial relevance. His interdisciplinary approach integrates concepts from solid-state chemistry, colloidal science, and nanotechnology, and often involves collaboration across chemistry, physics, and engineering domains. By addressing critical energy and environmental challenges through materials design, Dr. Lan’s research contributes to the development of sustainable technologies and green manufacturing processes. His work continues to push the boundaries of what is possible in the rational design of hierarchical and hybrid porous materials.

Research Skills

Dr. Kun Lan possesses a comprehensive skill set that spans advanced synthesis, structural characterization, and application testing of functional materials. He is an expert in templating strategies for constructing crystalline mesoporous materials, with extensive experience in sol–gel chemistry, surfactant-assisted assembly, and confined space synthesis. His lab proficiency includes a wide range of material characterization techniques, such as small-angle X-ray scattering (SAXS), high-resolution transmission electron microscopy (HRTEM), N₂ adsorption-desorption isotherms, and solid-state NMR, enabling him to thoroughly investigate structural and textural properties. Dr. Lan is adept at using advanced software tools for 3D structural modeling and diffraction analysis, as well as programming for data processing. He also has hands-on experience in electrochemical testing for batteries and supercapacitors, including cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and galvanostatic charge-discharge (GCD) measurements. In addition, Dr. Lan is skilled in project management, grant writing, and academic publishing, with over 70 peer-reviewed articles. He regularly collaborates with national and international research teams, and actively mentors graduate students, contributing to capacity building in materials research. His broad technical and leadership capabilities support the successful execution of interdisciplinary projects targeting energy, environmental, and catalytic applications.

Awards and Honors

Dr. Kun Lan has received numerous awards in recognition of his academic excellence and contributions to materials chemistry. His accolades began with the prestigious CSC State Scholarship Fund and the Tongji-Clearon Outstanding Academician Award in 2018. In 2019, he was honored with the Baosteel Excellent Student Award, followed by the title of Outstanding Graduate of Fudan University in 2020. His postdoctoral research earned him further distinction, including the 3rd Fudan Postdoctoral Venture Competition Award and the 1st BTR New-Energy Scientific Contest Award in 2021. In the same year, he won the Nano Research Oral Prize at the 21st Chinese Zeolite Conference and was recognized with the Excellent Doctoral Thesis Award by Fudan University in 2023. Dr. Lan has secured competitive funding from national and provincial bodies, such as the Fudan Super Postdoctoral Program, the 67th China Postdoctoral Science Foundation, and the National Natural Science Foundation of China (NSFC). He is also supported by regional talent programs including the “Junma” Program and the Grassland Talent Program. His leadership potential has been further recognized through appointments to editorial boards and invitations to review for top-tier journals like Angewandte Chemie, Advanced Materials, and Nature Protocols.

Conclusion

Dr. Kun Lan stands at the forefront of research in mesoporous materials and their applications in renewable energy technologies. With a robust academic background, diverse international experience, and a consistent record of impactful publications, he has established himself as a dynamic and influential scientist. Through the K Lab at Inner Mongolia University, Dr. Lan continues to pursue groundbreaking work in materials chemistry, fostering innovation and collaboration across disciplines. His efforts in mentorship and scientific outreach have inspired a new generation of researchers. The breadth of his research—from fundamental studies in self-assembly to practical solutions for energy storage—demonstrates his commitment to addressing global challenges through chemistry. His extensive publication record, awards, and ongoing participation in national research programs reflect a strong and growing impact in the field. As an educator, collaborator, and innovator, Dr. Kun Lan embodies the qualities of a future scientific leader in sustainable materials research. His continued work promises to deliver valuable insights and technologies that will shape the future of energy and materials science.

Publications Top Notes

  1. Metal-based mesoporous frameworks as high-performance platforms in energy storage and conversion
    Authors: Rongyao Li, Xu Wen, Yuqi Zhao, Sicheng Fan, Qiulong Wei, Kun Lan
    Year: 2025

  2. DFT-Guided Design of Dual Dopants in Anatase TiO2 for Boosted Sodium Storage
    Authors: Shuang Li, Xu Wen, Xin Miao, Rongyao Li, Wendi Wang, Xiaoyu Li, Ziyang Guo, Dongyuan Zhao, Kun Lan
    Year: 2024

  3. Conversion of Z-Scheme to type-II in dual-defective V2O5/C3N4 heterostructure for durable hydrogen evolution
    Authors: Jingyu Zhang, Jialong Li, Jinwei He, Yalin He, Zelin Wang, Shuang Li, Zhanli Chai, Kun Lan
    Year: 2024

  4. Lanthanum-Integrated Porous Adsorbent for Effective Phosphorus Removal
    Authors: Yalin He, Xingyue Qi, Jialong Li, Wendi Wang, Jingyu Zhang, Lanhao Yang, Mei Xue, Kun Lan
    Year: 2024

  5. Ordered Mesoporous Crystalline Frameworks Toward Promising Energy Applications
    Authors: Jialong Li, Rongyao Li, Wendi Wang, Kun Lan, Dongyuan Zhao
    Year: 2024

  6. Intrinsic Surface-Redox Sodium-Ion Storage Mechanism of Anatase Titanium Oxide toward High-Rate Capability
    Authors: Kun Lan (and team, unspecified here)
    Year: 2023

  7. Nanodroplet Remodeling Strategy for Synthesis of Hierarchical Multi-chambered Mesoporous Silica Nanoparticles
    Authors: Kun Lan (and team, unspecified here)
    Year: 2023

  8. Construction of Type-II Heterojunctions in Crystalline Carbon Nitride for Efficient Photocatalytic H2 Evolution
    Authors: Jingyu Zhang, Zhongliang Li, Jialong Li, Yalin He, Haojie Tong, Shuang Li, Zhanli Chai, Kun Lan
    Year: 2023

  9. Stepwise Monomicelle Assembly for Highly Ordered Mesoporous TiO2 Membranes with Precisely Tailored Mesophase and Porosity
    Authors: Kun Lan, Lu Liu, Jiayu Yu, Yuzhu Ma, Jun-Ye Zhang, Zirui Lv, Sixing Yin, Qiulong Wei, Dongyuan Zhao
    Year: 2023

  10. Constructing Unique Mesoporous Carbon Superstructures via Monomicelle Interface Confined Assembly
    Authors: Kun Lan
    Year: 2022

  11. Synthesis of Ni/NiO@MoO3-x Composite Nanoarrays for High Current Density Hydrogen Evolution Reaction
    Authors: Kun Lan
    Year: 2022

  12. Versatile Synthesis of Mesoporous Crystalline TiO2 Materials by Monomicelle Assembly
    Authors: Kun Lan
    Year: 2022

  13. Modular super-assembly of hierarchical superstructures from monomicelle building blocks
    Authors: Kun Lan
    Year: 2022

  14. Functional Ordered Mesoporous Materials: Present and Future
    Authors: Kun Lan
    Year: 2022

  15. Precisely Designed Mesoscopic Titania for High-Volumetric-Density Pseudocapacitance
    Authors: Kun Lan
    Year: 2021

  16. Streamlined Mesoporous Silica Nanoparticles with Tunable Curvature from Interfacial Dynamic-Migration Strategy for Nanomotors
    Authors: Kun Lan
    Year: 2021

  17. General Synthesis of Ultrafine Monodispersed Hybrid Nanoparticles from Highly Stable Monomicelles
    Authors: Kun Lan
    Year: 2021

  18. Precisely Controlled Vertical Alignment in Mesostructured Carbon Thin Films for Efficient Electrochemical Sensing
    Authors: Kun Lan
    Year: 2021

  19. Surface-Confined Winding Assembly of Mesoporous Nanorods
    Authors: Kun Lan
    Year: 2020

  20. Interfacial Assembly Directed Unique Mesoporous Architectures: From Symmetric to Asymmetric
    Authors: Kun Lan
    Year: 2020

  21. Stable Ti3+ Defects in Oriented Mesoporous Titania Frameworks for Efficient Photocatalysis
    Authors: Kun Lan, Ruicong Wang, Qiulong Wei, Yanxiang Wang, Anh Hong, Pingyun Feng, Dongyuan Zhao
    Year: 2020

  22. Branched Mesoporous TiO2 Mesocrystals by Epitaxial Assembly of Micelles for Photocatalysis
    Authors: Kun Lan
    Year: 2020

  23. Synthesis of uniform ordered mesoporous TiO2 microspheres with controllable phase junctions for efficient solar water splitting
    Authors: Kun Lan
    Year: 2019

  24. Defect-engineering of mesoporous TiO2 microspheres with phase junctions for efficient visible-light driven fuel production
    Authors: Kun Lan
    Year: 2019

  25. Janus Mesoporous Sensor Devices for Simultaneous Multivariable Gases Detection
    Authors: Kun Lan
    Yar: 2019

  26. Two-Dimensional Mesoporous Heterostructure Delivering Superior Pseudocapacitive Sodium Storage via Bottom-Up Monomicelle Assembly
    Authors: Kun Lan
    Year: 2019

  27. Confined Interfacial Monomicelle Assembly for Precisely Controlled Coating of Single-Layered Titania Mesopores
    Authors: Kun Lan
    Year: 2019

  28. Confinement synthesis of hierarchical ordered macro-/mesoporous TiO2 nanostructures with high crystallization for photodegradation
    Authors: Kun Lan
    Year: 2019

  29. Fully printable hole-conductor-free mesoscopic perovskite solar cells based on mesoporous anatase single crystals
    Authors: Kun Lan
    Year: 2018

  30. Mesoporous TiO2 Microspheres with Precisely Controlled Crystallites and Architectures
    Authors: Kun Lan
    Year: 2018

  31. Mesoporous TiO2 /TiC@C Composite Membranes with Stable TiO2-C Interface for Robust Lithium Storage
    Authors: Kun Lan
    Year: 2018

  32. Uniform Ordered Two-Dimensional Mesoporous TiO2 Nanosheets from Hydrothermal-Induced Solvent-Confined Monomicelle Assembly
    Authors: Kun Lan, Yao Liu, Wei Zhang, Yong Liu, Ahmed Elzatahry, Ruicong Wang, Yongyao Xia, Dhaifallah Al-Dhayan, Nanfeng Zheng, Dongyuan Zhao
    Year: 2018

  33. Constructing Three-Dimensional Mesoporous Bouquet-Posy-like TiO2 Superstructures with Radially Oriented Mesochannels and Single-Crystal Walls
    Authors: Yong Liu, Kun Lan, Shushuang Li, Yongmei Liu, Biao Kong, Geng Wang, Pengfei Zhang, Ruicong Wang, Haili He, Yun Ling, et al.
    Year: 2016

  34. Template synthesis of metal tungsten nanowire bundles with high field electron emission performance
    Authors: Yong Liu, Kun Lan, Mahir H. Es-Saheb, Ahmed A. Elzatahry, Dongyuan Zhao
    Year: 2016

  35. Surfactant-templating strategy for ultrathin mesoporous TiO2 coating on flexible graphitized carbon supports for high-performance lithium-ion battery
    Authors: Kun Lan
    Year: 2016

  36. Ordered Macro/Mesoporous TiO2 Hollow Microspheres with Highly Crystalline Thin Shells for High-Efficiency Photoconversion
    Authors: Yong Liu, Kun Lan, Abdulaziz A. Bagabas, Pengfei Zhang, Wenjun Gao, Jingxiu Wang, Zhenkun Sun, Jianwei Fan, Ahmed A. Elzatahry, Dongyuan Zhao
    Year: 2015

  37. Mesoporous TiO2 Mesocrystals: Remarkable Defects-Induced Crystallite-Interface Reactivity and Their in Situ Conversion to Single Crystals
    Authors: Yong Liu, Yongfeng Luo, Ahmed A. Elzatahry, Wei Luo, Renchao Che, Jianwei Fan, Kun Lan, Abdullah M. Al-Enizi, Zhenkun Sun, Bin Li, et al.
    Year: 2015

Tan Wang | Materials Science | Best Researcher Award

Published on by World Science Awards

Dr. Tan Wang | Materials Science | Best Researcher Award

Assistant Researcher from Qingdao Institute of Bio Energy and Bioprocess Technology Chinese Academy of Sciences, China

Wang Tan is an assistant researcher at the Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences. His expertise lies in organic photovoltaic materials and solar energy conversion. With a solid academic background in energy chemistry, he has contributed to high-impact research in polymer donor materials for solar cells. His work has been published in prestigious journals, highlighting his role in advancing renewable energy technologies. He has also secured funding for independent research projects, demonstrating his growing leadership in the field. His contributions extend beyond publications to patents, indicating a strong focus on practical applications.

Professional Profile

Education

Wang Tan obtained his Ph.D. in Energy Chemistry from Xiamen University (2015-2020), where he specialized in photovoltaic materials and device performance. He also earned a bachelor’s degree in Chemistry from Xiamen University (2011-2015), providing him with a strong foundation in material science. His postdoctoral research was conducted at Shanghai Jiao Tong University (2020-2022) and the Qingdao Institute of Bioenergy and Bioprocess Technology, CAS (2022-2024), where he further explored organic solar cells and material synthesis.

Professional Experience

Since January 2025, Wang Tan has been an assistant researcher at the Qingdao Institute of Bioenergy and Bioprocess Technology, working in the Key Laboratory of Solar Photovoltaic Conversion and Utilization. His postdoctoral experience includes research at Shanghai Jiao Tong University (2020-2022) and the Qingdao Institute of Bioenergy and Bioprocess Technology (2022-2024). Throughout his career, he has focused on the design and synthesis of novel organic materials for solar energy applications. His experience extends to leading research projects and collaborating with interdisciplinary teams on high-efficiency photovoltaic materials.

Research Interests

Wang Tan’s research interests primarily focus on organic photovoltaic materials, solar energy conversion, and high-efficiency polymer donor materials. He is particularly interested in developing novel organic semiconductors for next-generation solar cells. His work explores molecular design strategies for enhancing the power conversion efficiency and stability of organic solar cells. Additionally, he investigates charge transfer mechanisms and optoelectronic properties of new photovoltaic materials to improve device performance. His research aims to bridge the gap between fundamental material science and practical applications in renewable energy technologies.

Research Skills

Wang Tan has expertise in the design and synthesis of organic photovoltaic materials, including deep-energy-level donor materials. He is skilled in various characterization techniques such as steady-state and transient fluorescence spectroscopy, electrochemical analysis, and charge transfer studies. His proficiency extends to device fabrication and performance evaluation of organic solar cells. Additionally, he has experience in computational modeling to study molecular interactions and charge dynamics in photovoltaic materials. His multidisciplinary skill set enables him to contribute to both theoretical and experimental advancements in organic solar energy research.

Awards and Honors

Wang Tan has received funding from the Shandong Natural Science Foundation (2023-2026) and the Qingdao Postdoctoral Funding Program (2022-2024) for his work on high-performance organic photovoltaic materials. He has co-authored publications in top-tier journals such as Science Bulletin and Nano Energy, showcasing his research impact. He has also been granted patents for novel polymer materials and conductive nanoparticles in solar energy applications. His contributions to organic solar cell development have been recognized within the scientific community through conference presentations and invited talks.

Conclusion

Wang Tan is a dedicated researcher in the field of organic photovoltaic materials and solar energy conversion. His academic background, research experience, and technical skills position him as a valuable contributor to renewable energy advancements. While he has made significant strides in securing funding and publishing influential research, he has the potential to further establish himself as an independent research leader. Strengthening his role as a principal investigator and securing national-level grants could enhance his impact in the field. His combination of innovation, technical expertise, and research productivity makes him a promising candidate for future advancements in organic solar energy technologies.

Publications Top Notes

  • HOF-Enabled Synthesis of Porous PEDOT as an Improved Electrode Material for Supercapacitor
    Authors: Z. Zhong, Zihan; Q. Shao, Qingqing; B. Ni, Baoxin; A.K. Cheetham, Anthony Kevin; T. Wang, Tiesheng
    Year: 2025

Danish Tahir | Materials Science | Best Researcher Award

Published on by World Science Awards

Mr. Danish Tahir | Materials Science | Best Researcher Award

Danish Tahir is a dedicated research professional specializing in materials engineering with a strong focus on biodegradable composites, fiber-reinforced composites, and advanced materials characterization. With extensive experience in academia and research, he has contributed significantly to the field through high-impact publications, conference presentations, and laboratory supervision. His expertise spans a wide range of experimental techniques, including Scanning Electron Microscopy (SEM), Thermo-Mechanical Analysis (TMA), and Fourier Transform Infrared Spectroscopy (FTIR). Danish has also played a vital role in mentoring students, assisting in course delivery, and managing laboratory operations. His research contributions have been recognized in leading scientific journals, emphasizing innovation and sustainability in material sciences. In addition to his research excellence, he has gained industrial exposure through internships in production and quality control. Danish’s commitment to advancing scientific knowledge and his ability to work across multiple domains make him a strong candidate for research excellence awards. His ongoing work in biodegradable composites and material characterization aligns with global sustainability goals, reinforcing his contributions to the evolving field of advanced materials. Through continuous learning, research, and collaboration, Danish aims to expand his impact in academia and industry while fostering innovation in material science applications.

Education

Danish Tahir has a strong academic foundation in materials engineering, demonstrated by his outstanding academic performance and research engagements. He completed his Master of Science (M.Sc.) in Materials Engineering from Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, Pakistan, between January 2018 and March 2020, achieving an impressive CGPA of 3.96/4.00 and earning multiple distinctions on the Dean’s Honor Roll. His research during his master’s focused on biodegradable polymer composites and advanced characterization techniques. Prior to his master’s degree, Danish earned his Bachelor of Science (B.Sc.) in Materials Engineering from National University of Sciences and Technology (NUST), Pakistan, between September 2013 and June 2017, securing a CGPA of 3.27/4.00. His undergraduate studies provided him with a strong foundation in materials processing, mechanical testing, and corrosion analysis. Throughout his academic career, Danish has consistently demonstrated excellence, receiving multiple honors, including a Silver Medal in Matriculation and Dean’s Honor Roll distinctions at both undergraduate and postgraduate levels. His strong educational background, coupled with hands-on research experience, has enabled him to contribute significantly to the field of materials science and engineering.

Professional Experience

Danish Tahir is currently serving as a Research Assistant at The Hong Kong Polytechnic University (since January 2022), where he focuses on the development and characterization of biodegradable composites. His responsibilities include conducting advanced material characterization, supervising laboratory operations, and assisting instructors in research and course delivery. Prior to his current role, Danish worked as a Graduate Research Assistant (January 2018 – March 2020) at Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, where he played a key role in a Pakistan Science Foundation Research Project on bamboo fiber-reinforced composites. His responsibilities included designing experimental methodologies, developing standard operating procedures (SOPs), and conducting mechanical and chemical analysis. His earlier experience includes working as a Research Assistant at Advanced Materials Technology (July 2017 – January 2018) and undertaking internships at Qadcast Foundry Ltd (June 2016 – August 2016) and Oil and Gas Development Company Ltd (August 2015 – September 2015). These roles allowed him to gain industrial exposure in manufacturing, quality control, and characterization of engineering materials. Danish’s professional experience reflects his ability to integrate research with practical applications, making significant contributions to both academia and industry.

Research Interests

Danish Tahir’s research interests primarily revolve around biodegradable and fiber-reinforced composites, advanced materials characterization, and sustainability-driven material innovations. His focus is on developing eco-friendly materials that offer superior mechanical properties while minimizing environmental impact. A key area of interest for Danish is the chemical and thermal characterization of polymer composites, where he utilizes techniques such as Fourier Transform Infrared Spectroscopy (FTIR), Thermogravimetric Analysis (TGA), and Differential Scanning Calorimetry (DSC) to assess material properties. He is also deeply involved in the mechanical performance analysis of composite materials, including tensile, impact, and thermo-mechanical behavior assessments. In addition, Danish is passionate about nano-composites and surface engineering, specifically in the optimization of coatings using anodization and other advanced surface treatments. His work on sodium carbonate treatment of bamboo fibers demonstrates his commitment to developing sustainable materials with enhanced mechanical performance. His long-term research goals include expanding the application of biodegradable materials in various industries, optimizing auxetic materials for personal protection, and collaborating on multidisciplinary research projects integrating materials engineering with biomedical and environmental sciences.

Research Skills

Danish Tahir possesses a diverse set of research skills that make him proficient in both experimental and analytical aspects of materials engineering. His expertise includes advanced material characterization techniques such as Scanning Electron Microscopy (SEM), Atomic Force Microscopy (AFM), X-ray Diffraction (XRD), and Thermo-Mechanical Analysis (TMA). He is also well-versed in chemical and thermal analysis techniques such as FTIR, TGA, and DSC, which are critical for understanding polymer and composite material properties. His hands-on skills in mechanical characterization include tensile testing, impact testing, and hardness testing of various materials, including metals, polymers, and composites. He is an expert in polymer processing techniques, including injection molding and composite fabrication, making him well-equipped to develop new materials with enhanced properties. Danish has significant experience with research project management, including experimental design, standard operating procedures (SOPs) preparation, data analysis, and research documentation. His technical proficiency is complemented by strong software skills, including SolidWorks, Microsoft Office, Origin Pro, and ImageJ, which aid in material simulations and data interpretation. His well-rounded skill set ensures that he can conduct high-quality research, analyze complex material behaviors, and contribute to innovative advancements in materials engineering.

Awards and Honors

Danish Tahir has received multiple accolades throughout his academic and professional career, recognizing his excellence in research and education. He has been awarded four consecutive Dean’s Honor Roll distinctions during his Master’s degree at Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, highlighting his outstanding academic performance. He was also the recipient of a Graduate Financial Assistantship, which funded his research endeavors during his Master’s studies. At the undergraduate level, he secured a Dean’s Honor Roll distinction at NUST, further demonstrating his strong academic capabilities. His early academic achievements include earning a Silver Medal in Matriculation, a testament to his consistent excellence from an early stage. Apart from his academic recognitions, Danish has played leadership roles in extracurricular activities, serving as Sports Coordinator at GIKI Graduate Society and Executive of Industrial Linkages at NUST Materials Advantage Chapter. These accolades underscore Danish’s commitment to research, education, and leadership, making him a distinguished professional in materials engineering.

Conclusion

Danish Tahir is a highly accomplished researcher in materials engineering, with expertise spanning biodegradable composites, polymer characterization, and advanced material processing. His strong academic background, professional experience, and high-impact research contributions position him as a leading researcher in his field. His extensive skill set in materials characterization, mechanical testing, and research project management, combined with a robust publication record, underscores his ability to advance scientific knowledge. Danish’s dedication to sustainability and innovative material solutions aligns with the global push for eco-friendly engineering advancements. While he has already demonstrated significant research excellence, opportunities for securing independent research funding, interdisciplinary collaborations, and technology commercialization could further enhance his impact. With his passion for research and commitment to academic excellence, Danish is well-positioned to make continued contributions to the field of materials science and engineering.

Publications Top Notes

  • Title: Auxetic materials for personal protection: a review
    Authors: D. Tahir, M. Zhang, H. Hu
    Year: 2022
    Citations: 52

  • Title: Natural fibres as promising environmental-friendly reinforcements for polymer composites
    Authors: M.R.A. Karim, D. Tahir, E.U. Haq, A. Hussain, M.S. Malik
    Year: 2021
    Citations: 48

  • Title: Sources, chemical functionalization, and commercial applications of nanocellulose and nanocellulose-based composites: a review
    Authors: D. Tahir, M.R.A. Karim, H. Hu, S. Naseem, M. Rehan, M. Ahmad, M. Zhang
    Year: 2022
    Citations: 41

  • Title: Load-bearing characteristics of 3D auxetic structures made with carbon fiber reinforced polymer composite
    Authors: E. Etemadi, M. Zhang, K. Li, M. Bashtani, M.M.P. Ho, D. Tahir, H. Hu
    Year: 2023
    Citations: 33

  • Title: Sodium carbonate treatment of fibres to improve mechanical and water absorption characteristics of short bamboo natural fibres reinforced polyester composite
    Authors: M.R. Abdul Karim, D. Tahir, A. Hussain, E. Ul Haq, K.I. Khan
    Year: 2020
    Citations: 25

  • Title: Improved mechanical and water absorption properties of epoxy-bamboo long natural fibres composites by eco-friendly Na₂CO₃ treatment
    Authors: M.R. Abdul Karim, D. Tahir, K.I. Khan, A. Hussain, E.U. Haq, M.S. Malik
    Year: 2023
    Citations: 10

  • Title: Analysis of mechanical and water absorption properties of hybrid composites reinforced with micron-size bamboo fibers and ceramic particles
    Authors: D. Tahir, M.R. Abdul Karim, H. Hu
    Year: 2024
    Citations: 5

  • Title: Experimental Investigation of the Micro-Milling of Additively Manufactured Titanium Alloys: Selective Laser Melting and Wrought Ti6Al4V
    Authors: M. Rehan, T. He, A.K. Khalil, D. Tahir, W.S. Yip, S.S. To
    Year: 2024
    Citations: 3

  • Title: Effect of nano-silica volume reinforcement on the microstructure, mechanical, phase distribution and electrochemical behavior of pre-alloyed titanium-nickel (Ti-Ni) powder
    Authors: S.A. Raza, M.I. Khan, M. Ahmad, D. Tahir, A. Iltaf, R.B. Naqvi
    Year: 2021
    Citations: 3

  • Title: Magnetic field assisted micro-milling of selective laser melted titanium alloy
    Authors: M. Rehan, D. Tahir, P. Guo, W.S. Yip, S.S. To
    Year: 2025
    Citations: 1

Kiran Batool | Materials Science | Best Researcher Award

Published on by World Science Awards

Dr. Kiran Batool | Materials Science | Best Researcher Award

Researcher from Physics Department, Pakistan

Dr. Kiran Batool is a dedicated researcher and academic specializing in nanomaterials, electrochemical energy storage, and environmental applications. With a robust research portfolio featuring 37 publications in high-impact journals, she has made significant contributions to material synthesis and characterization techniques. Her expertise extends to developing advanced materials for supercapacitors, batteries, and catalysts. Dr. Batool possesses strong teaching and mentorship experience, having instructed both undergraduate and graduate students in various physics courses. She has also served as a research associate, contributing to multiple interdisciplinary projects. Her commitment to innovation and sustainability drives her research in energy-efficient and environmentally friendly material applications. With a deep understanding of analytical and experimental techniques, she remains at the forefront of cutting-edge scientific advancements in her field.

Professional Profile

Education

Dr. Kiran Batool has pursued an extensive academic journey, equipping her with a strong foundation in physics and materials science. She completed her Ph.D. in Physics with a specialization in nanomaterials and energy storage applications. Prior to that, she earned an M.Phil. in Physics, focusing on advanced material characterization techniques. Her bachelor’s degree laid the groundwork for her expertise in fundamental physics and material properties. Throughout her academic career, she has remained engaged in research-intensive programs, allowing her to develop a deep understanding of electrochemical energy storage systems, catalysis, and sustainable materials. Her education has provided her with the theoretical knowledge and practical skills necessary to excel in both research and academia. Dr. Batool’s continuous pursuit of knowledge and innovation has made her a respected figure in the scientific community.

Professional Experience

Dr. Kiran Batool has accumulated extensive professional experience in both research and teaching roles. As a research associate, she contributed to various interdisciplinary projects focused on nanomaterial synthesis and energy storage applications. Her role involved conducting experimental research, analyzing data, and collaborating with fellow researchers to advance scientific knowledge. Additionally, Dr. Batool has served as a visiting lecturer, teaching undergraduate and graduate students in physics-related courses. She has supervised student research projects and provided mentorship to aspiring scientists. Her experience extends to laboratory management, experimental design, and technical troubleshooting. Dr. Batool’s dedication to education and research has enabled her to bridge the gap between theoretical knowledge and practical applications. Her contributions to academia and research institutions highlight her ability to work in dynamic environments while fostering scientific innovation.

Research Interests

Dr. Kiran Batool’s research interests lie in the development and characterization of advanced nanomaterials for energy and environmental applications. She is particularly focused on electrochemical energy storage systems, including supercapacitors and batteries, where she explores novel material compositions for enhanced performance. Her work also extends to catalysis, investigating sustainable materials for environmental remediation. Dr. Batool is deeply involved in the synthesis of nanostructured materials using techniques such as hydrothermal, sol-gel, and solvothermal methods. She is keen on integrating experimental and computational approaches to optimize material properties. Her research aims to contribute to the advancement of green energy solutions and environmentally friendly materials. By exploring innovative synthesis techniques and material functionalities, she seeks to develop next-generation energy storage devices that are both efficient and sustainable.

Research Skills

Dr. Kiran Batool possesses a diverse range of research skills that contribute to her excellence in material science and energy research. Her expertise includes nanomaterial synthesis through hydrothermal, sol-gel, and solvothermal techniques. She is proficient in material characterization methods such as X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and Raman spectroscopy. Dr. Batool is also skilled in electrochemical analysis, including cyclic voltammetry and electrochemical impedance spectroscopy. Her ability to integrate various experimental techniques allows her to conduct in-depth analyses of material properties. Additionally, she has experience in data analysis, statistical modeling, and research project management. Her technical proficiency, combined with her strong analytical skills, enables her to conduct high-impact research that contributes to scientific advancements in energy storage and catalysis.

Awards and Honors

Dr. Kiran Batool has received multiple recognitions for her contributions to scientific research and academia. She has been acknowledged for her high-impact publications and significant advancements in nanomaterial synthesis and characterization. Her research on electrochemical energy storage has been cited extensively, highlighting its relevance in the field. Dr. Batool has also been honored for her teaching excellence, receiving commendations from academic institutions for her dedication to student mentorship and education. Additionally, she has participated in several international conferences and research symposiums, where her work has been recognized by peers and experts in the field. Her commitment to advancing scientific knowledge and her contributions to sustainable energy solutions continue to earn her accolades in the academic and research communities.

Conclusion

Dr. Kiran Batool stands out as a distinguished researcher and academic with a strong background in nanomaterials, energy storage, and material characterization. Her extensive research output, combined with her technical proficiency and teaching experience, makes her a valuable asset to the scientific community. She continues to push the boundaries of innovation, focusing on sustainable and efficient energy solutions. With expertise spanning experimental research, data analysis, and mentorship, she exemplifies excellence in academia and applied sciences. Dr. Batool’s dedication to research and education ensures that her contributions will have a lasting impact on the fields of material science and renewable energy. Her growing recognition and commitment to scientific progress make her a strong candidate for prestigious research awards and honors.

Publications Top Notes

  1. Sustainable Synthesis and Electrochemical Characterization of Ti₃C₂/Fe₁₋ₓBaₓCr₂O₄ Nanocomposite for Enhanced Supercapacitor Electrode Performance

    • Authors: Kiran Batool, Adel A. El-Marghany, Muhammad Usman Saeed
    • Year: 2025

  2. Bandgap Nature Transition and the Optical Properties of ABX₃ (A = K, Rb; B = Sr, Ba, Ca; X = Cl, Br, I) Perovskites Under Pressure

    • Authors: Mohib Ullah, Naqeeb Ullah, Ammar M. Tighezza, Kiran Batool, Ghulam M. Murtaza
    • Year: 2025
    • Citations: 2

  3. Electrifying Energy Storage by Investigating the Electrochemical Behavior of CoCr₂O₄/Graphene-Oxide Nanocomposite as Supercapacitor High-Performance Electrode Material

    • Authors: Rubia Shafique, Malika M. Rani, Naveed Kasuar Janjua, Mariam Akram, Akram A. Ibrahim
    • Year: 2024

 

 

Yan Liu | Materials Science | Best Researcher Award

Published on by World Science Awards

Prof. Yan Liu | Materials Science | Best Researcher Award

The Associate Director of both National Key Laboratory of Automotive Chassis Integration and Bionics and the Key Laboratory of Bionic Engineering (Ministry of Education) at Jilin University, China

Yan Liu, Ph.D. in Engineering, is a distinguished scholar renowned for her contributions to bionic engineering and materials science. She is a CJ Scholar Distinguished Professor under the Major Talent Project Incentive Program of the Ministry of Education of China, a Changbaishan Scholar of Jilin Province, and a professor and Ph.D. supervisor at Jilin University. Currently serving as the Associate Director of the National Key Laboratory of Automotive Chassis Integration and Bionics, she is instrumental in advancing bionic technologies for automotive and materials applications. As a founding member of the International Society of Bionics and vice chairman of the Jilin Association of Corrosion Prevention Technology, Yan Liu has established herself as a global leader in her field. Her research, which focuses on designing multifunctional materials inspired by biological systems, has led to over 150 publications in prestigious journals and the filing of 40 patents, 17 of which have been granted. Yan Liu’s work has significantly impacted anti-corrosion, anti-icing, and self-repairing materials, making her a pioneer in bionic materials science.

Professional Profile

Education

Yan Liu has a robust academic foundation in engineering and materials science. She earned her Ph.D. in Agricultural Mechanization Engineering from Jilin University in December 2006, following her Master’s degree in the same field from the same institution in July 2003. Her undergraduate studies were completed at the Former School of Materials, Jilin University of Technology, where she graduated with a Bachelor’s degree in July 1997. Her academic journey has been marked by a consistent focus on integrating engineering principles with innovative materials development, laying the groundwork for her expertise in bionics and biomimetic materials. This strong educational background has enabled her to excel in multidisciplinary research, combining agricultural engineering, materials science, and bionic technologies.

Professional Experience

Yan Liu has an illustrious professional career spanning over two decades, primarily at Jilin University. Since September 2013, she has served as a Professor and Ph.D. Supervisor at the Key Laboratory of Engineering Bionics, Ministry of Education, Jilin University. Prior to this, she was an Associate Professor and Master’s Supervisor in the same department from 2008 to 2013. Yan Liu also gained international experience as a Postdoctoral Researcher and Visiting Scholar at the University of Bristol, UK, between 2010 and 2011. Her earlier postdoctoral work, from 2009 to 2013, at the College of Materials Science and Engineering, Jilin University, further honed her expertise in advanced materials research. Currently, as the Associate Director of the National Key Laboratory of Automotive Chassis Integration and Bionics, Yan Liu plays a vital role in steering cutting-edge research in bionic materials and technologies.

Research Interests

Yan Liu’s research focuses on bionic intelligent protective coatings and materials, with applications in automotive and surface engineering. She draws inspiration from biological structures to develop multifunctional materials, including self-repairing and self-warning coatings, superhydrophobic anti-corrosion surfaces, and anti-icing multifunctional coatings. Her work also extends to flexible electronic devices and polymer-based materials, combining advanced material science with biomimetic principles. Yan Liu is dedicated to addressing real-world challenges such as corrosion resistance and ice formation on automotive surfaces, making her research highly relevant and impactful. Her interdisciplinary approach integrates biology, materials science, and engineering to pioneer innovative solutions that bridge academic research and industrial applications.

Research Skills

Yan Liu possesses a wide array of advanced research skills in bionic and materials engineering. She specializes in designing multifunctional coatings and materials inspired by biological mechanisms, with expertise in self-repairing, anti-corrosion, and anti-icing technologies. Her skills include surface engineering, interface science, and the development of superhydrophobic materials. Yan Liu is adept at leading large-scale research projects, having managed several national and international R&D initiatives, including projects funded by the National Natural Science Foundation and major international collaboration programs. She also excels in intellectual property development, with 40 patent applications, 17 of which have been granted. Her ability to translate complex research into practical innovations highlights her technical acumen and problem-solving expertise.

Awards and Honors

Yan Liu’s exceptional contributions to science and engineering have earned her numerous accolades. She is a recipient of the prestigious CJ Scholar Distinguished Professor Award under the Ministry of Education’s Major Talent Project. As a Changbaishan Scholar of Jilin Province, she has been recognized for her leadership in materials science and bionics. She also holds prominent positions, including the Associate Directorship of the National Key Laboratory of Automotive Chassis Integration and Bionics and vice chairmanship of the Jilin Association of Corrosion Prevention Technology. Yan Liu’s work has been supported by over seven national-level grants and international collaboration programs, underscoring her excellence in research leadership. Her contributions to the field are further validated by her extensive publication record and numerous granted patents.

Conclusion

Yan Liu is an exceptional candidate for the Best Researcher Award due to her groundbreaking contributions in bionic engineering and materials science. Her achievements in developing multifunctional coatings, securing competitive funding, and publishing extensively in high-impact journals firmly establish her as a leading figure in her field. While enhancing international collaborations and emphasizing the practical impact of her innovations could further bolster her profile, her existing accomplishments position her as a highly suitable nominee for this prestigious recognition.

Publication Top Notes

  1. Fluorine-free and high-robustness photothermal self-healing superhydrophobic coating with long-term anticorrosion and antibacterial performances
    • Authors: Wenliang Zhang, Shuyi Li, Dongsong Wei, Yafei Shi, Ting Lu, Zhen Zhang, Zaihang Zheng, Yan Liu
    • Year: 2025
    • DOI: 10.1016/j.jmst.2024.05.052
  2. Eucalyptus spp.-inspired degradable lubricant-releasing coating for marine antifouling surfaces
    • Authors: Yafei Shi, Miaomiao Qian, Dongsong Wei, Wenliang Zhang, Ting Lu, Zhen Zhang, Shuyi Li, Yan Liu
    • Year: 2025
    • DOI: 10.1016/j.porgcoat.2024.108917
  3. Bioinspired interlaced wetting surfaces for continuous on-demand emulsion separation
  4. Facile and effective construction of superhydrophobic, multi-functional and durable coatings on steel structure
    • Authors: Zhenlin Tang, Meihuan Gao, Haidi Li, Ziyang Zhang, Xinying Su, Yingge Li, Zhishuang Han, Xinmeng Lv, Jing He, Zaihang Zheng, Yan Liu
    • Year: 2024
    • DOI: 10.1016/j.compositesb.2024.111850
  5. A fluorine-free bioinspired multifunctional slippery coating for ultra-long-term anticorrosion of Mg alloy, static/dynamic anti-icing, antibacterial and antifouling
    • Authors: Wenliang Zhang, Shuyi Li, Dongsong Wei, Yafei Shi, Ting Lu, Zhen Zhang, Zhiwu Han, Yan Liu
    • Year: 2024
    • DOI: 10.1016/j.cej.2024.157516
  6. Ultralight, elastic, hydrophobic Willow moss-derived aerogels for efficient oil-water separation
    • Authors: Zhibiao Chen, Bin Zhan, Shuyi Li, Dongsong Wei, Wenting Zhou, Zhengping Fang, Guoyong Wang, Yan Liu
    • Year: 2024
    • DOI: 10.1016/j.colsurfa.2024.134648
  7. Optically Responsive Hydrogel with Rapid Deformation for Motion Regulation of Magnetic Actuators
  8. Superwetting PVA/cellulose aerogel with asymmetric structure for oil/water separation and solar-driven seawater desalination
  9. Flexible Pressure, Humidity, and Temperature Sensors for Human Health Monitoring
  10. One-Step Spraying Strategy for Fabricating Bioinspired, Graphene-Based, and Multifunctional-Integrated Coatings on Structural Steel with Good Water Repellency, Fireproofing, Anticorrosion, and Durability
    • Authors: Zhenlin Tang, Meihuan Gao, Haidi Li, Ziyang Zhang, Xinying Su, Yingge Li, Zhishuang Han, Xinmeng Lv, Jing He, Yan Liu
    • Year: 2024
    • DOI: 10.1021/acs.langmuir.4c02001
  11. Fabrication of superhydrophobic all-biomass aerogels with ultralight, elasticity and degradability for efficient oily wastewater treatment
    • Authors: Zhengping Fang, Jiaqi Li, Shiting Li, Chaohuan Yang, Chenchen Liao, Chengyu Du, Zhibiao Chen, Dongsong Wei, Jiayu Qi, Xiaopeng Guo, Yan Liu
    • Year: 2024
    • DOI: 10.1016/j.jwpe.2024.105607
  12. Fluorine-free, robust and self-healing superhydrophobic surfaces with anticorrosion and antibacterial performances

 

Soma A. El Mogy | Materials Science | Best Researcher Award

Published on by World Science Awards

Assoc Prof Dr. Soma A. El Mogy | Materials Science | Best Researcher Award

Associate Professor, National institute of standards, Egypt

Assoc. Prof. Dr. Soma A. El Mogy is a distinguished researcher in Materials Science, recognized for her innovative contributions to the field. With a deep understanding of material properties and their applications, Dr. El Mogy has authored numerous influential publications that have advanced the understanding of materials engineering. Her work, which often intersects with sustainability and technological advancements, has earned her the prestigious Best Researcher Award, highlighting her impact on both academia and industry. Dr. El Mogy’s dedication to research and education continues to inspire the next generation of scientists in the field.

Profile

Education 

Assoc. Prof. Dr. Soma A. El Mogy earned her Bachelor of Science degree in Special Chemistry with an “Excellent with honor” distinction from Al-Azhar University in 2005. She continued her academic journey at the College of Science at Al-Azhar University, where she completed her Pre-Masters in 2007, achieving an overall grade of “Very Good.” In 2011, she obtained her Master’s degree in Physical Chemistry, with a thesis titled “Using Rice-Husk as a Filler for Production and Characterization of New Polymer-Composites having Industrial Applications.” Dr. El Mogy further advanced her research, earning her Ph.D. in Science in 2015 with a focus on “Study of the physico-mechanical properties of polypropylene filled with carbon nanotubes.” Her extensive academic background and research expertise have positioned her as a leader in the field of Materials Science.

Training Courses

Assoc. Prof. Dr. Soma A. El Mogy has a robust background in quality training and laboratory techniques, significantly enhancing her expertise in materials science. She has completed numerous quality training courses, including awareness of ISO/IEC 17025:2017 requirements, internal auditing, and method validation for calibration laboratories at the National Institute of Standards. Her training also encompasses quality control charts, intermediate calibration checks, and the estimation of uncertainty in chemical measurements, with a foundational introduction to ISO 17025 dating back to 2008. Additionally, Dr. El Mogy has gained hands-on experience with advanced laboratory equipment for plastics and rubber, having undertaken specialized courses on operating instructions for hardness testers, hardness calibrators, melt flow index (MFI), and Z010/TH2A machines, all completed in compliance with machinery directives in June 2017.

Internationally, she has expanded her expertise through training in nanotechnology technologies and applications under the Association of Materials Science and Engineering and Nanotechnology, as well as academic writing and statistical analysis using SPSS. Her local training includes courses on EndNote application, scientific paper writing and presentation, proposal and report writing, and nanoscience and nanotechnology. She has also engaged in workshops on publishing research open access, nanocarriers and drug delivery, nanostructures, and the future prospects of scientific research. These extensive training experiences highlight Dr. El Mogy’s dedication to maintaining a high standard of excellence in her research and professional activities.

Career

Assoc. Prof. Dr. Soma A. El Mogy began her career as a Research Assistant at the National Institute of Standards in the Metrology and Polymer Technology lab on May 10, 2006. She was promoted to Assistant Researcher on July 11, 2011, and later became a Doctor at the same lab on November 1, 2015. In June 2021, Dr. El Mogy was appointed as an Assistant Professor at the National Institute of Standards in the Material Testing and Surface Chemical Analysis lab in Giza, Egypt. Additionally, she served as a Lecturer in the Chemistry Department at the Faculty of Science, Al-Azhar University (Girls Branch) from September 2016 until 2020.

 

Scientific Workshop Attended

Assoc. Prof. Dr. Soma A. El Mogy has an extensive background in practical and theoretical aspects of scientific research, demonstrated by her participation in numerous specialized training courses and workshops. She has actively engaged in learning about the selection, writing, and submission of research projects, highlighted by her training at the Agricultural Research Center’s Animal Reproduction Research Institute in February 2020. Her skills in synthesizing chitosan nanoparticles were honed at the Naqaa Foundation for Scientific Research in 2019. Dr. El Mogy has also been involved in initiatives that support women in science, energy and water challenges, and the applications of nanotechnology for sustainable packaging, showcasing her commitment to addressing global scientific and environmental issues.

Her expertise extends to intellectual property management and its application in scientific research, as evidenced by her training at the Academy of Scientific Research and Technology in 2019. She has acquired advanced knowledge in scientific research methodologies, publishing within international databases, and managing resources using tools like Mendeley and EndNote. Dr. El Mogy’s dedication to combating predatory journals, reducing fraud in scientific research, and ensuring the integrity of academic work is reflected in her numerous certifications from leading universities and institutions across Iraq and the Middle East. Her participation in workshops on aligning with the publishing process, utilizing statistical data, and leveraging modern knowledge cycles further emphasizes her ongoing pursuit of excellence in research and publication.

Publication Top Notes

  • El Mogy, S. A. (2019). Processing of Polyurethane Nanocomposite Reinforced with Nanosized Zinc Oxide: Effect on Mechanical and Acoustic Properties. Egyptian Journal of Chemistry, 62, 333-341.
  • El Mogy, S. A. (2019). Radiation Crosslinking of Acrylic Rubber/Styrene Butadiene Rubber Blends Containing Polyfunctional Monomers. Radiation Physics and Chemistry, April.
  • Lawandy, S. N., El Mogy, S. A. (2020). Effect of Natural Oil Content and Viscosity on the Adhesion of Nitrile Rubber to Polyester Fabric. Adhesion Science and Technology, Accepted Manuscript, Published online 15 May.
  • Saleh, B. K., El Mogy, S. A. (2020). Use of Waste Rubber and Bionanofiller in Preparation of Rubber Nanocomposites for Friendly Environmental Flooring Applications. Egyptian Journal of Chemistry, 63(7).
  • El Mogy, S. A., Darwish, N. A., Awad, A. (2020). Comparative Study of the Cure Characteristics and Mechanical Properties of Natural Rubber Filled with Different Calcium Carbonate Resources. Journal of Vinyl and Additive Technology, 26(3).
  • Eyssa, H. M., El Mogy, S. A., Youssef, H. A. (2020). Impact of Foaming Agent and Nanoparticle Fillers on the Properties of Irradiated Rubber. Radiochimica Acta, Accepted 2 Nov.
  • Moustafa, H. A. Z., El Mogy, S. A., Mohamed, S. A., Darwish, N. A., Abd El Megeed, A. A. (2020). Bio-Enveloping Inorganic Filler Based Eggshell Wastes for Enhancing the Properties of Natural Rubber Biocomposites. Tire Science & Technology Journal, Accepted 22 July.
  • El Mogy, S. A., Abd El Megeed, A. A. (2020). Improvement of EPDM Properties Using Nanofiller Derived from Biogenic Wastes. International Journal of Science and Research, Accepted 1 Dec.
  • El Mogy, S. A., Khodier, S. A., Abd El-Megeed, A. A. (2017). Effect of Thermal Ageing on Mechanical and Optical Properties of Polystyrene. 13th Arab International Conference on Polymer Science and Technology, 22-26 October, Sharm El-Sheikh, Egypt.
  • El Mogy, S. A., Lawandy, S. N. (2023). Enhancement of the Cure Behavior and Mechanical Properties of Nanoclay Reinforced NR/SBR Vulcanizates Based on Waste Tire Rubber. Journal of Thermoplastic Composite Materials, 08927057231180493.
  • El Mogy, S. A., Lawandy, S. N. (2023). Effect of Black Sand Nanoparticles on Physical-Mechanical Properties of Butyl Rubber Compounds. Journal of Thermoplastic Composite Materials, 36(8), 3361-3382.
  • Abdel-Hakim, A., El Mogy, S. A., Abou-Kandil, A. I. (2021). Novel Modification of Styrene Butadiene Rubber/Acrylic Rubber Blends to Improve Mechanical, Dynamic Mechanical, and Swelling Behavior for Oil Sealing Applications. Polymers and Polymer Composites, 29(9_suppl), S959-S968.
  • El-Wakil, A. E. A. A., El Mogy, S., Halim, S. F., Abdel-Hakim, A. (2022). Enhancement of Aging Resistance of EPDM Rubber by Natural Rubber-g-N (4-phenylenediamine) Maleimide as a Grafted Antioxidant. Journal of Vinyl and Additive Technology, 28(2), 367-378.
  • Abdel-Hakim, A., El-Wakil, A. E. A. A., El Mogy, S., Halim, S. (2021). Effect of Fiber Coating on the Mechanical Performance, Water Absorption, and Biodegradability of Sisal Fiber/Natural Rubber Composite. Polymer International, 70(9), 1356-1366.
  • Rabee, M., El Mogy, S. A., Morsy, M., Lawandy, S., Zahran, M. A. H., Moustafa, H. (2023). Biosynthesis of MgO Nanoparticles and Their Impact on the Properties of the PVA/Gelatin Nanocomposites for Smart Food Packaging Applications. ACS Applied Bio Materials.