Ahmed Tawfik | Building Materials | Best Researcher Award-9503

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Ahmed Tawfik | Building Materials | Best Researcher Award

Prof. Ahmed Tawfik ,  National Research Centre in Cairo, Egypt .

Prof. Ahmed Tawfik Ahmed Omar is an Associate Professor of Chemistry and Materials Technology at the National Research Centre in Cairo, Egypt. With a Ph.D. in Physical and Inorganic Chemistry, he specializes in the chemistry of cement and building materials, focusing on sustainable construction materials and green housing technology. His research interests include low-density building materials, recycling industrial by-products, and non-traditional binders. Dr. Omar has published over 30 research papers and has participated in various international conferences. 🌍🔬📚

Publication Profile

Suitability For The Award

Ahmed Tawfik Ahmed is a distinguished researcher in the field of ceramic materials, with a focus on the chemistry of cement and building materials technology. His extensive research experience, significant contributions to the field, and involvement in groundbreaking projects make him a highly suitable candidate for the Best Researcher Award.

Education And Experience 💼

Dr. Ahmed Tawfik Ahmed Omar holds a B.Sc. in Special Chemistry from Helwan University, an M.Sc. in Inorganic and Physical Chemistry from the same institution, and a Ph.D. from Zagazig University. His career began as a Research Student and progressed through roles such as Lecturer and Researcher Assistant. Currently, he serves as an Associate Professor, with prior experience as a visiting scholar at Penn-State University. 🎓🔬🌟

Professional Development

Dr. Omar has completed advanced training in analytical chemistry, environmental recovery, and laboratory safety. He has attended workshops and conferences on concrete quality, green construction, and energy efficiency. His professional development includes hands-on training in X-ray fluorescence and hazardous waste management, reflecting his commitment to ongoing learning and expertise in his field. 🏆🌿📈

Research Focus

Dr. Ahmed Tawfik Ahmed Omar focuses his research on ceramic materials, cement technology, and building materials. His work includes studying concrete admixtures, developing low-density building materials, and exploring the recycling of industrial by-products for green housing technologies. Key areas of his research involve non-traditional binders, smart materials, and sustainable construction practices. Additionally, he investigates lightweight bricks and novel materials like geopolymer and alumino-silicates. His expertise spans environmentally friendly solutions and innovative building technologies, contributing to advancements in construction materials and waste recycling🌍🏗️🧱🔬

Publications 📚📝

  • “Effect of some waste additives on the physical and mechanical properties of gypsum plaster composites” – Construction and Building Materials, 2014, Cited by 97 📄🏗️
  • “Evaluation of heavy metals removal using some Egyptian clays” – International Proceedings of Chemical, Biological and Environmental, 2011, Cited by 48 ⚗️🌍
  • “Plaster composites modified morphology with enhanced compressive strength and water resistance characteristics” – Construction and Building Materials, 2018, Cited by 47 🧱🔬
  • “Effect of different forms of silica on the physical and mechanical properties of gypsum plaster composites” – Materiales de Construcción, 2013, Cited by 34 🏠🔍
  • “Hydrotalcite and hydrocalumite as resources from waste materials of concrete aggregate and Al-dross by microwave-hydrothermal process” – Construction and Building Materials, 2019, Cited by 22 ♻️🏛️
  • “A simple approach to synthesis uniform 3D hollow yttrium oxide spheres using a hydrothermal scheme” – Materials Chemistry and Physics, 2020, Cited by 16 🧪🔬

 

Conclusion

Ahmed Tawfik Ahmed’s extensive research portfolio, innovative contributions, and active involvement in the development of cutting-edge materials and technologies position him as an exceptional candidate for the Best Researcher Award. His dedication to advancing the field of ceramic materials and building technologies, coupled with his significant impact through research and collaboration, underscores his suitability for this prestigious recognition.