Dr. Mohsin Ali | Materials | Best Researcher Award

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Dr. Mohsin Ali | Materials | Best Researcher Award

Dr. Mohsin Ali, Southeast University Nanjing, China

Dr. Mohsin Ali is an accomplished researcher in civil engineering at the School of Civil Engineering, Southeast University, Nanjing, China. With a focus on concrete materials, durability performance, and sustainable construction techniques, Dr. Ali has contributed extensively to advancing innovative solutions in reinforced concrete, nanomaterials, and fracture analysis. His impactful work is reflected through numerous open-access publications in esteemed journals, highlighting his expertise in predictive modeling, advanced simulation techniques, and the utilization of eco-friendly cementitious materials. Dr. Ali remains committed to fostering sustainable and resilient infrastructure for the future. 🏗️🔬

Professional Profile:

Scopus

Summary of Suitability for the Best Researcher Award

Dr. Mohsin Ali is highly suitable for a Best Researcher Award based on his exemplary contributions and achievements in the field of civil engineering, particularly in sustainable construction materials, durability performance, and innovative modeling techniques

Education & Experience 🎓💼

  • 🎓 Ph.D. in Civil Engineering – Southeast University, Nanjing, China
  • 🎓 M.S. in Structural Engineering – University of Engineering and Technology, Pakistan
  • 👨‍🏫 Assistant Professor – Department of Civil Engineering, Pakistan
  • 🔬 Researcher – Southeast University, focusing on advanced simulation, sustainable materials, and fracture mechanics

Professional Development 📈🔧

Dr. Mohsin Ali actively engages in interdisciplinary research, collaborating internationally on cutting-edge civil engineering projects. He specializes in:

  • 🌱 Eco-friendly cementitious materials like wheat straw ash and banana leaf ash to enhance concrete durability.
  • 🛠️ Predictive modeling techniques (e.g., genetic programming) for improving structural resilience and optimization.
  • 🌐 Advanced numerical simulations involving hybrid nanofluid flows and Cattaneo-Christov heat flux models.
  • 📊 Fracture analysis and mechanical characterization of concrete using finite element modeling.

His professional development is marked by a commitment to sustainability, durability, and innovative engineering solutions. 🚀🏗️

Research Focus 🔍🧪

Dr. Ali’s research centers on:

  • 🌱 Sustainable Concrete Solutions – Utilizing waste materials such as silica fume, wheat straw ash, and banana leaf ash for eco-friendly and durable concrete.
  • 🧪 Advanced Materials – Application of nanomaterials like titanium dioxide in concrete for improved mechanical properties.
  • 🔬 Predictive and Numerical Modeling – Genetic programming, RSM optimizations, and numerical techniques for fracture and wear analysis.
  • 🏗️ Structural Durability – Corrosion resistance in reinforced concrete and performance against environmental attacks (e.g., sulphate and acid).
    His contributions address critical challenges in modern infrastructure sustainability. 🌍🔧

Awards & Honors 🏆🎖️

  • 🏆 Research Excellence Award – Southeast University, Nanjing
  • 🥇 Best Paper Award – International Conference on Sustainable Infrastructure
  • 🏅 Outstanding Reviewer Recognition – Leading Civil Engineering Journals
  • 🎖️ Research Grant Recipient – National Science Foundation for Eco-material Studies
  • 📜 Prestigious Fellowships – Recognized for collaborative work on fracture mechanics

Publication Top Notes:

📝 Predictive modeling for depth of wear of concrete modified with fly ash: A comparative analysis of genetic programming-based algorithms
🔗 Cited by: 14
📝 Effect of banana tree leaves ash as cementitious material on the durability of concrete against sulphate and acid attacks
🔗 Cited by: 4
📝 Effect of silica fume on fracture analysis, durability performance and embodied carbon of fiber-reinforced self-healed concrete
🔗 Cited by: 7
📝 Effect of wheat straw ash as cementitious material on the mechanical characteristics and embodied carbon of concrete reinforced with coir fiber
🔗 Cited by: 8
📝 Effect of titanium dioxide as nanomaterials on mechanical and durability properties of rubberised concrete by applying RSM modelling and optimizations
🔗 Cited by: 8

 

 

Assoc. Prof. Dr. Dawei Jiang | Material sciences | Outstanding Scientist Award

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Assoc. Prof. Dr. Dawei Jiang | Material sciences | Outstanding Scientist Award

Assoc. Prof. Dr. Dawei Jiang, Northeast Forestry University, China

Dawei Jiang, Associate Professor and Secretary of Chemistry at the College of Chemistry, Chemical Engineering, and Resource Utilization, Northeast Forestry University, specializes in innovative material sciences. His research focuses on flame-retardant polymers, functional materials, wearable sensors, and high-performance composites. With extensive academic and professional experience across China, the USA, and New Zealand, he has authored influential publications in advanced material technologies. Passionate about sustainability and technological advancements, Dawei Jiang collaborates globally to drive innovation in flexible electronics and nanotechnology. ✨🎓🌍

Professional Profile:

Google Scholar

Summary of Suitability

Assoc. Prof. Dr. Dawei Jiang exemplifies the qualities of an outstanding scientist through his impactful research, global collaborations, and dedication to advancing sustainable and functional materials. His ability to merge molecular design with cutting-edge applications makes him a trailblazer in material sciences and a strong contender for the Outstanding Scientist Award. His achievements not only showcase exceptional academic excellence but also underline his contribution to addressing critical societal and technological challenges. 🌟

Education and Experience

📘 Education

  • 🎓 Visiting Scholar: Chemistry, University of Auckland, New Zealand (2024-2025)
  • 🎓 Joint Ph.D. Student: Chemical Engineering, Lamar University, USA (2013-2015)
  • 🎓 Ph.D.: Chemical Engineering and Technology, Harbin Institute of Technology, China (2010-2015)
  • 🎓 Master’s: Polymeric Chemistry and Physics, Northeast Forestry University, China (2007-2010)
  • 🎓 Bachelor’s: Food Chemistry and Engineering, Northeast Forestry University, China (2002-2006)

📘 Experience

  • 🧪 Associate Professor: Northeast Forestry University, China (Since 2015)
  • 🏛️ Deputy Town Chief: Yuqi, Huishan, Jiangsu Province, China (2012-2013)

Professional Development

Dawei Jiang has actively contributed to advanced material sciences, focusing on polymer materials, wearable sensors, and sustainable composites. As a visiting scholar at the University of Auckland, he enhances his expertise in cutting-edge chemistry. His joint Ph.D. tenure at Lamar University enriched his insights into international research practices. Passionate about sustainability and functional designs, Jiang’s career reflects a commitment to blending academic knowledge with practical innovation. Through global collaborations, he has authored numerous impactful publications in leading journals, promoting advancements in nanotechnology, flame-retardant polymers, and flexible electronics. 🌟🔬🌏

Research Focus

Dawei Jiang’s research centers on innovative and sustainable materials:

  • 🔥 Development of flame-retardant polymer materials
  • 💡 Functional polymers for high-performance applications
  • 🩹 Wearable and flexible strain sensors
  • 🧵 Enhanced interfacial properties in fiber-reinforced composites
    His work bridges molecular design and cutting-edge technology, fostering advancements in electronics, thermal insulation, and sustainable nanocomposites. His efforts in triboelectric nanogenerators and cellulose-based materials drive transformative applications across wearable tech, architecture, and energy sectors. 🌱📱⚙️

Awards and Honors

  • 🏆 Outstanding Researcher Award: Northeast Forestry University
  • 🏅 Top 10 Publications of the Year: Recognized for impactful contributions in material sciences
  • 🎖️ Erasmus+ Fellowship: University of Porto, Portugal (2016-2017)
  • 🌟 National Young Talent Award: Innovation in Chemistry and Material Design
  • 🥇 Best Paper Award: International Conference on Nanotechnology Applications

 Publication Top Notes:

  • 📖 Electromagnetic interference shielding polymers and nanocomposites – a review (Cited by: 624, Year: 2019)
  • 🛡️ Advanced micro/nanocapsules for self-healing smart anticorrosion coatings (Cited by: 411, Year: 2015)
  • 📐 Flexible sandwich structural strain sensor based on silver nanowires decorated with self-healing substrate (Cited by: 227, Year: 2019)
  • 🌟 Interfacially reinforced unsaturated polyester carbon fiber composites with a vinyl ester-carbon nanotubes sizing agent (Cited by: 205, Year: 2018)
  • 🧪 Electrically insulated epoxy nanocomposites reinforced with synergistic core–shell SiO2@MWCNTs and montmorillonite bifillers (Cited by: 192, Year: 2017)

 

 

 

Prof. Dr. Ahmed Abdelaal | Smart Materials | Best Researcher Award

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Prof. Dr. Ahmed Abdelaal | Smart Materials | Best Researcher Award

Prof. Dr. Ahmed Abdelaal, najran university, Saudi Arabia

Assist. Prof. Dr. Ahmed K. Abd El Aal is a distinguished academic and researcher in Civil and Engineering Geology. Based in Najran, Saudi Arabia, he serves as a faculty member in the Civil Engineering Department at Najran University. With a career spanning over two decades, he has contributed significantly to engineering geology, slope stability, and sustainable construction materials. Dr. Ahmed has been involved in numerous research projects and consulting roles, demonstrating expertise in geological engineering, soil stabilization, and geotechnical assessments.

Professional Profile:

Scopus

Best Researcher Award: Suitability Summary for Assist. Prof. Dr. Ahmed K. Abd El Aal

Assist. Prof. Dr. Ahmed K. Abd El Aal is a distinguished academic in Civil Engineering and Engineering Geology, with over 20 years of experience. He holds a Ph.D. in Engineering and Geology from Al Azhar University and has made significant contributions to various subfields, including slope stability, geotechnical engineering, soil stabilization, and sustainable building materials. His research is focused on practical solutions to geological challenges, bridging the gap between geology and civil engineering.

🎓Education

Dr. Ahmed holds a Ph.D. in Engineering and Geology from Al Azhar University (2010), an M.Sc. in Engineering Geology (2007), and a B.Sc. in General Geology (2003), all from the same institution. His academic foundation combines the study of geology with civil engineering, preparing him to address various engineering challenges related to geological formations. Throughout his studies, he focused on integrating engineering principles with geological knowledge, which continues to shape his research and professional work. Dr. Ahmed’s extensive education equips him with the necessary expertise to contribute effectively to the development of geotechnical solutions and sustainable engineering practices.

🏢Professional Experience

Dr. Ahmed has extensive academic and professional experience. He is currently an Assistant Professor at Najran University (2013–present), where he teaches and conducts research in Civil Engineering. Previously, Dr. Ahmed served as an Assistant Professor at Al Azhar University (2018–2023), where he taught engineering geology and supervised graduate students. His academic career began as a lecturer at Al Azhar University (2007–2010). In addition to his academic roles, Dr. Ahmed has held managerial positions in consulting firms, where he specialized in civil engineering designs and soil testing. He has also worked as a consultant on numerous geotechnical projects in Saudi Arabia and Egypt, providing expertise in soil stabilization, slope stability, and other geotechnical assessments.

🏅Awards and Honors

Dr. Ahmed earned First Rank with Honor during his B.Sc. studies at Al Azhar University, Cairo. He was also recognized with the Excellent Student Award for his exceptional academic performance during his B.Sc. Dr. Ahmed was awarded the Certificate of Scientific Excellence, honoring his outstanding contributions to research and scholarship. These accolades reflect Dr. Ahmed’s dedication to academic excellence and his commitment to advancing the fields of civil engineering and engineering geology. His academic honors underscore his strong foundation in geology, engineering, and research, which continue to guide his work today.

🔬Research Focus

Dr. Ahmed’s research focuses on engineering geology, slope stability, sustainable building materials, and geotechnical analysis. He has specifically concentrated on the mechanical properties of geological formations, particularly clays, and their sustainable use in construction. His work also delves into the assessment of geohazards, such as landslides and soil erosion, and their impact on infrastructure. Dr. Ahmed aims to integrate geological knowledge with engineering practices to enhance the sustainability and safety of construction materials and techniques. His research seeks to contribute to environmentally friendly construction practices and the development of geotechnical solutions for complex geological challenges.

Publication Top Notes:

1. Smart Waste Management Perspective of COVID-19 Healthy Personal Protective Materials in Concrete for Decorative Landscape Pavements and Artificial Rocks
  • Citations: 6
2. Experimental Study of the Influence of the Degree of Saturation on Physical and Mechanical Properties of Carbonate Rocks in the Jurassic Tuwaiq Mountain Formation (Saudi Arabia)
  • Citations: 4
3. Sustainable Impact of Coarse Aggregate Crushing Waste (CACW) in Decreasing Carbon Footprint and Enhancing Geotechnical Properties of Silty Sand Soil
  • Citations: 3
4. Geological and Archeological Heritage Resources Assessment of the Najran Province; Towards the 2030 Vision of Saudi Arabia
  • Citations: 6

 

 

 

Mr. Patrick Hartwich | Nanoengineered composites | Best Researcher Award

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Mr. Patrick Hartwich | Nanoengineered composites | Best Researcher Award

Mr. Patrick Hartwich, University of Siegen, Germany

P. Hartwich is a seasoned chemist with extensive expertise in material development, surface analysis, and environmental chemistry. He currently serves as a Product Developer at Schlüter-Systems KG, focusing on innovative building chemical products. With a Master of Science in Chemistry from the University of Siegen and a certification as a “Fachchemiker für Toxikologie” from Leipzig University, Hartwich has contributed to academia and industry alike. His professional journey spans roles such as a scientific researcher at the University of Siegen and RWTH Aachen University, as well as process engineer at Ingeneric GmbH. Passionate about sustainable solutions, his work includes recycling building materials and developing nanostructures for advanced applications. Hartwich has published numerous peer-reviewed papers on concrete leaching behavior and lightweight concrete technologies, further cementing his reputation as an accomplished chemist.

Professional Profile:

Orcid

Evaluation of Suitability for Best Researcher Awards

Patrick Hartwich is highly suitable for a Best Researcher Award in categories such as Sustainable Construction Materials, Nanostructured Materials, or Environmental Chemistry. Their achievements reflect a blend of academic excellence, impactful research, and practical application in sustainability and materials science. These qualities make them a strong contender for recognition in the field of research.

🎓Education

P. Hartwich pursued his academic journey in chemistry with distinction. He earned a Bachelor of Science in Chemistry (2007–2011) and a Master of Science in Chemistry (2011–2012) from Universität Siegen, focusing on analytical chemistry and material science. To expand his interdisciplinary knowledge, Hartwich completed a Postgraduate Certificate in Toxicology and Environmental Protection (2016–2018) at Universität Leipzig, attaining the title of “Fachchemiker für Toxikologie.” This education equipped him with a strong theoretical foundation in toxicology, environmental safety, and material analysis. Hartwich’s studies combined rigorous coursework and practical research, laying the groundwork for his later focus on nanostructures and advanced material applications.

🏢Professional Experience

P. Hartwich’s career blends academic research and industrial innovation. Currently a Product Developer at Schlüter-Systems KG (since 2023), he designs construction chemicals and leads international projects. As a Scientific Researcher at Universität Siegen (2020–present), he specializes in nanostructured materials and surface analysis. His earlier roles include Process Engineer at Ingeneric GmbH (2018–2020), focusing on process optimization and cleanroom coordination, and Project Leader at SaVeri in Vietnam (2017–2018), where he developed composite materials. During his tenure at RWTH Aachen University (2014–2017), Hartwich contributed to sustainable construction through material recycling studies and ICP-OES analysis. These diverse roles underscore his commitment to combining material science with practical problem-solving.

🏅Awards and Honors

Best Researcher Recognition – RWTH Aachen University, for groundbreaking studies on material recycling, 2016.International Collaboration Award – Schlüter-Systems KG, for exemplary contributions to global product development, 2024.Distinguished Presenter – RILEM Week 2015, for innovative work on ultra-lightweight concrete.Top Academic Achievement – Universität Leipzig, completing postgraduate studies in toxicology with honors, 2018.Research Excellence Award – Universität Siegen, for contributions to nanostructured material synthesis, 2022.

🔬Research Focus

P. Hartwich’s research integrates materials chemistry, nanotechnology, and environmental sustainability. His primary interests include: Nanostructured Materials: Synthesis and characterization of metal oxide nanostructures for advanced applications. Composite Materials: Developing hybrid materials combining mineral binders and nanostructures to enhance structural and environmental performance. Environmental Chemistry: Investigating the leaching behavior of construction materials under diverse conditions. Sustainable Recycling: Promoting innovative recycling techniques for construction materials to improve eco-efficiency.Through interdisciplinary collaborations, Hartwich’s work addresses industrial and environmental challenges, advancing sustainable materials and innovative construction practices.

Publication Top Notes:

Influence of leachate composition on the leaching behaviour of concrete

 

 

NanoSustainability Achievement Award

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Introduction of NanoSustainability Achievement Award

Welcome to the forefront of innovation and sustainability! The NanoSustainability Achievement Award recognizes outstanding contributions in the field of nanotechnology with a focus on sustainable practices. This prestigious award celebrates individuals who have demonstrated exceptional dedication and ingenuity in advancing the principles of sustainability through nanoscience.

Award Eligibility:

Open to researchers, scientists, and professionals worldwide, the NanoSustainability Achievement Award has no age limits. Applicants should possess relevant qualifications, a track record of impactful publications, and a commitment to fostering sustainability through their work.

Qualification and Publications:

Applicants must hold a minimum qualification of a master’s degree in a relevant field and showcase a robust portfolio of publications that demonstrate their commitment to sustainable nanotechnology.

Recurrence:

The NanoSustainability Achievement Award is an annual recognition, providing a recurring opportunity for individuals to showcase their ongoing commitment to advancing sustainable practices in nanoscience.

Evaluation Criteria:

Candidates will be evaluated based on the originality, impact, and relevance of their contributions to the intersection of nanotechnology and sustainability. Judges will consider the potential for real-world application and positive environmental impact.

Submission Guidelines:

Detailed submission guidelines can be found on our official website. Applicants are required to submit a comprehensive biography, an abstract of their work, and supporting files that highlight the sustainability impact of their nanotechnology research.

Recognition:

Winners of the NanoSustainability Achievement Award will receive global recognition for their groundbreaking contributions, including features in relevant publications and invitations to prestigious events in the field.

Community Impact:

Beyond personal recognition, the award aims to amplify the community impact of sustainable nanotechnology by fostering collaboration and knowledge exchange among researchers and professionals.

Biography, Abstract, and Supporting Files:

Applicants are encouraged to provide a detailed biography showcasing their journey in sustainable nanotechnology. The abstract should concisely summarize the key findings and implications of their work. Supporting files, such as research papers, images, or videos, can be submitted to enhance the understanding of the project.