Suez university - Egypt

AUTHOR PROFILE

GOOGLE SCHOLAR

Based on the provided information about Mohammed Mahmoud M. Attia, he appears to be a suitable candidate for the Research for Community Impact Award. His extensive academic and professional background, combined with his contributions to sustainable construction and innovative materials, aligns well with the award's criteria.

EDUCATION

Mohammed Mahmoud M. Attia earned his Ph.D. in Civil Construction from Suez University, Egypt, in October 2018. His thesis, titled "Behavior of Post-Tension Prestressed Lightweight Fiber Reinforced Concrete Beams," was supervised by Prof. Dr. Aymen Hussien Hosny Khalil. He also holds a Master’s degree from the same institution, granted in September 2013, with a thesis on producing lightweight self-cured concrete using local materials. His Bachelor’s degree in Civil Construction was obtained from Suez Canal University in May 2007.

TEACHING EXPERIENCE

Dr. Attia has extensive teaching experience, having taught various courses at different academic levels. These include Technical Reports (Arabic and English), Technical Drawing, Properties and Strength of Materials, Theory of Structures, Architectural Drawing, Surveying, Building Technology, Reinforced Concrete Design, and several others. His teaching spans from first-year undergraduate courses to advanced topics in civil engineering.

PROFESSIONAL EXPERIENCE

Dr. Attia currently serves as an Assistant Professor in the Civil Construction Department at Suez University, a position he has held since June 2021. Prior to this, he was a lecturer and assistant lecturer in the same department. He has also been actively involved in consultancy projects for Suez University and has significant experience in quality control and accreditation processes for educational programs and laboratories.

RESEARCH SUPERVISION

Dr. Attia has supervised multiple M.Sc. and Ph.D. researchers on topics such as textile composite materials as alternatives to rebar, eco-friendly concrete nanomaterials for radiation shielding, and the flexural behavior of RC beams strengthened with hybrid steel-FRP bars. These research projects indicate his commitment to advancing knowledge in sustainable and innovative construction materials.

SOFTWARE PROFICIENCY

Dr. Attia is proficient in various software programs essential for civil engineering and structural analysis, including Ansys, SAP 2000, AutoCAD, MATLAB, CSI ETABS, CSI SAFE, Revit Structure, and Microsoft Word.

PROFESSIONAL SERVICE AND LEADERSHIP

Dr. Attia has held several key positions and participated in numerous workshops and tutorials related to his field. He has been a reviewer for prestigious journals such as the American Journal of Construction and Building Materials, Springer Nature Journal, and Advances in Concrete Construction. He has also coordinated multiple accreditation and quality assurance programs, as well as seminars on sustainable development and green energy.

MEDIA ENGAGEMENT AND OUTREACH

Dr. Attia has actively engaged with the media to discuss important topics such as climate change, technological education, and artificial intelligence. His appearances on Egyptian TV channels highlight his ability to communicate complex scientific ideas to a broader audience, thereby increasing public awareness and understanding.

PUBLICATIONS

Dr. Attia has contributed to the field of civil engineering through various publications. His research on sustainable materials, such as the use of sugarcane bagasse ash and nano eggshell powder in high-strength concrete, and the development of eco-friendly radiation shielding composites using metal-nail waste and steel slag aggregate, demonstrates his focus on innovative and environmentally friendly construction solutions.

CONCLUSION

Dr. Mohammed Mahmoud M. Attia’s extensive academic background, teaching experience, professional service, and research contributions make him a highly suitable candidate for the Research for Community Impact Award. His work in sustainable construction and innovative materials has a significant positive impact on the community, aligning perfectly with the objectives of this award.

NOTABLE PUBLICATION

Effects of sugarcane bagasse ash and nano eggshell powder on high-strength concrete properties 2022 (50)

Metal-nails waste and steel slag aggregate as alternative and eco-friendly radiation shielding composites 2022 (27)

Behavior of FRP rods under uniaxial tensile strength with multiple materials as an alternative to steel rebar 2022 (19)

Performance of RC beams with novelty GFRP under the bending load: An experimental and FE study 2023 (2)

Tests and finite element modeling of concrete beams reinforced with reused steel bars 2024

BANTAMLAK BIRLIE – Materials Science and Engineering – Best Researcher Award

Published on 08/06/202408/06/2024 by Civil Engineering Awards

BANTAMLAK BIRLIE - Materials Science and Engineering - Best Researcher Award

Bahir Dar University - Ethiopia

AUTHOR PROFILE

Google Scholar

BANTAMLAK BIRLIE: A JOURNEY OF EXCELLENCE IN TEXTILE ENGINEERING AND INNOVATION 🌟

My educational journey has been a pursuit of mastery in Bachelor of Science in Textile Engineering and Manufacturing. Armed with a Master of Science in Textile Manufacturing and Material Science and Engineering, alongside a Bachelor of Science in Textile Engineering, I've delved deep into the intricacies of the field. For the past seven years, I've had the privilege of sharing my knowledge and insights as a lecturer and researcher at Bahir Dar University Ethiopian Institute of Textile and Fashion Technology. This experience has not only enriched my understanding of the discipline but also fueled my passion for exploration and innovation within the textile industry. Through rigorous academic pursuits and hands-on research, I have garnered a robust skill set and a keen eye for emerging trends and technologies.

ACADEMIC ACHIEVEMENTS AND COMMITMENT TO EXCELLENCE 📚

My academic achievements stand as milestones in my journey, reflecting my commitment to excellence and my aspiration to contribute meaningfully to the advancement of extraction and characterization of natural cellulosic fibers for green composite manufacturing applications due to its biodegradability and eco-friendly nature. As I look ahead, I am excited to continue pushing boundaries, fostering collaboration, and driving positive change in the ever-evolving landscape of textiles. My contributions to research and development, innovation, and extension have been multifaceted and impactful.

EXPERTISE IN SUSTAINABLE MATERIALS 🌿

One significant aspect of my work has been in the realm of sustainable materials, where I have dedicated myself to extracting and characterizing natural cellulosic fibers for green composite applications. This endeavor not only advances the field of materials science but also promotes environmentally friendly alternatives in various industrial applications. Additionally, my research has shed light on eco-friendly approaches for textile waste effluent treatment, addressing a critical issue in the textile industry and advocating for sustainable practices.

INNOVATIONS IN BIOBASED FLAME RETARDANCY 🔥

Furthermore, my exploration into biobased flame retardancy of textile polymeric materials has offered novel solutions for enhancing safety without compromising on eco-friendliness. These innovations stand as a testament to my dedication to pushing the boundaries of what is possible in the textile industry, ensuring that advancements are both cutting-edge and sustainable.

DEDICATION TO KNOWLEDGE DISSEMINATION 🧑‍🏫

Beyond research, I have actively engaged in knowledge dissemination by delivering lectures to graduate students, fostering a culture of learning and innovation. Through these efforts, I strive to not only contribute to the academic community but also inspire others to embrace sustainable practices and drive positive change in their respective fields.

PASSION FOR ENVIRONMENTAL SUSTAINABILITY 🌍

Through rigorous academic pursuits and hands-on research, I have garnered a robust skill set and a keen eye for emerging trends and technologies. My work emphasizes the importance of environmental sustainability, advocating for practices that protect and preserve our planet for future generations. This passion for sustainability permeates every aspect of my professional endeavors, from research to teaching.

VISION FOR THE FUTURE OF TEXTILES 🚀

As I look ahead, I am excited to continue pushing boundaries, fostering collaboration, and driving positive change in the ever-evolving landscape of textiles. My vision for the future includes continued contributions to research and development, particularly in sustainable materials and eco-friendly practices, ensuring that the textile industry evolves in a manner that is both innovative and responsible.

NOTABLE PUBLICATION

Textile effluent treatment methods and eco-friendly resolution of textile wastewater 2022 (110)

Nanotechnologies past, present and future applications in enhancing functionality of medical textiles: a review 2024

Textile Wastewater Treatment Using Polypyrrole/Polyphenol Oxidase Membranes 2024

Extraction and Characterization of Bast Fiber from Xanthium Oriental plant 2023

Textile effluent treatment methods and eco-friendly resolution of textile wastewater 2022

Sim Seungwoo – Materials Science and Engineering – Best Researcher Award

Published on 05/06/202405/06/2024 by Civil Engineering Awards

Sim Seungwoo - Materials Science and Engineering - Best Researcher Award

National Institute of Ecology - South Korea

AUTHOR PROFILE

Google Scholar

EARLY ACADEMIC PURSUITS

Sim Seungwoo commenced his academic journey with a focus on interdisciplinary studies, culminating in a Ph.D. candidacy in Biology at Kyung Hee University. His educational background includes an M.S. in Mechanical Engineering and Science from Kyoto University, where he delved into the observation and evaluation of cellular behaviors on micro-patterned surfaces.

PROFESSIONAL ENDEAVORS

Sim Seungwoo's professional trajectory showcases his dedication to bridging the gap between engineering and biological sciences. From research on termite population estimation to the simulation of microbial invasion in avian eggshell membranes, he has demonstrated a versatile skill set and a passion for advancing knowledge in his field.

CONTRIBUTIONS AND RESEARCH FOCUS

Sim Seungwoo's research focus lies at the intersection of biology, engineering, and materials science. His publications and presentations delve into diverse topics such as microbial penetration in fibrous structures, termite behavior analysis, and biomimicry for biodiversity conservation.

IMPACT AND INFLUENCE

Through his research and scholarly activities, Sim Seungwoo has made significant contributions to the field of materials science and engineering. His work has been cited in various publications and has been presented at international conferences, highlighting its relevance and impact on the scientific community.

ACADEMIC CITATIONS

Sim Seungwoo's research findings have been published in reputable journals and presented at prestigious conferences, earning recognition and citations from fellow researchers and scholars. His contributions have enriched the academic discourse and expanded the knowledge base in materials science and engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As a leading figure in materials science and engineering, Sim Seungwoo's legacy is defined by his commitment to innovation, interdisciplinary collaboration, and scientific excellence. His future contributions are poised to further advance our understanding of complex biological and engineering systems, paving the way for transformative solutions to global challenges.

NOTABLE PUBLICATION

Estimating termite population size using spatial statistics for termite tunnel patterns 2022 (1)

Direction selection of termites at a skewed T-shaped tunnel junction 2017 (4)

The complete mitochondrial genome sequence of Populus davidiana Dode 2017 (8)

Using hidden Markov models to characterize termite traveling behavior in tunnels with different curvatures 2015 (18)

Ravindranadh – Materials Science and Engineering – Excellence in Research

Published on 23/05/202423/05/2024 by Civil Engineering Awards

Ravindranadh - Materials Science and Engineering - Excellence in Research

GMR INSTITUTE OF TECHNOLOGY - India

AUTHOR PROFILE

Scopus

ORCID

EARLY ACADEMIC PURSUITS

Ravindranadh's academic journey is marked by outstanding achievements and dedication to Materials Science and Engineering. He completed his B.Sc. in Physics, Mathematics, and Chemistry from Acharya Nagarjuna University, Guntur, A.P., India, in 2005, securing second position in his class. He went on to top his M.Sc. in Physics with Condensed Matter Physics from the same university in 2007. His academic excellence continued as he completed his M.Phil. in 2012, with a thesis on the preparation and characterization of Co(II) ions doped PVA capped CdSe nanoparticles. In 2015, he earned his Ph.D. with a focus on mechanochemical synthesis and spectral characterizations of transition metal ions doped Ca-Li hydroxyapatite nanopowders from Acharya Nagarjuna University.

PROFESSIONAL ENDEAVORS

Ravindranadh's professional career spans various prestigious institutions and roles. He began as a lecturer in the Department of Physics at Bapatla Engineering College, Guntur, Andhra Pradesh, India. His research journey took him to Acharya Nagarjuna University as a research fellow and later to Chirala Engineering College as Research Director and Associate Professor. His post-doctoral work included significant projects under the BK21+ program at Gyeongsang National University and Nano/Mems Lab at Yeungnam University, Republic of Korea. From March 2021 to November 2023, he served as an Assistant Professor in the Department of Robotics Engineering at Yeungnam University. Currently, he is the Associate Dean of R&D and Professor in Physics at GMR Institute of Technology, Andhra Pradesh, India.

CONTRIBUTIONS AND RESEARCH FOCUS

Ravindranadh's research interests lie in Materials Science and Engineering, focusing on mono and bimetallic nanocomposites, UV and visible light enhanced metal-semiconductor nanocomposites, photocatalysis, photoelectrochemical hydrogen generation, nano-phosphors, and nano polymers. His expertise extends to the synthesis of nanoparticles using pulsed laser ablation and the growth of transition metal-bearing crystals. He is proficient in using advanced instrumentation like UV‑VIS‑NIR spectrophotometers, photoluminescence, XRD, FT-IR, SEM, TEM, ultracentrifuge, and ball milling. His work has led to 134 journal publications, 12 conference proceedings, 100 conference presentations, and two books, establishing him as a leading figure in Materials Science and Engineering.

IMPACT AND INFLUENCE

Ravindranadh's contributions to Materials Science and Engineering have been recognized globally. He has been selected as one of the top 2% of researchers in the world by Elsevier in 2021, 2022, and 2023. His research has significantly impacted the fields of photocatalysis, nanocomposites, and wide bandgap semiconductors. His academic awards, including the Best Researcher & Best Teacher award from the Global Management Council and the Young Scientist award for Best Poster Presentation at the Indian Youth Science Congress, highlight his influence and dedication to advancing science and technology.

ACADEMIC CITES

Ravindranadh's scholarly work is highly cited, reflecting his influence in the academic community. His research on Materials Science and Engineering is frequently referenced, demonstrating the relevance and impact of his contributions. His selection as one of the top 2% of researchers globally is a testament to the high citation rates and the significance of his published work.

LEGACY AND FUTURE CONTRIBUTIONS

Ravindranadh's legacy in Materials Science and Engineering is built on a foundation of rigorous research, innovative contributions, and academic excellence. As the Associate Dean of R&D and Professor in Physics, he continues to mentor the next generation of scientists and engineers. His future contributions are expected to further advance the fields of nanocomposites, photocatalysis, and material properties, cementing his legacy as a pioneer in Materials Science and Engineering.

MATERIALS SCIENCE AND ENGINEERING

Throughout his career, Ravindranadh has made significant strides in Materials Science and Engineering. His research has focused on developing advanced materials with superior properties, including mono and bimetallic nanocomposites and nano-phosphors. His expertise in Materials Science and Engineering has led to groundbreaking work in photoelectrochemical hydrogen generation and the transport and optical properties of wide bandgap semiconductors. His dedication to Materials Science and Engineering ensures his continued impact and leadership in this critical fields.

NOTABLE PUBLICATION

TIRTHA RAJ ACHARYA – Materials Science and Engineering – Environmental Impact Reduction Award

Published on 14/03/202414/03/2024 by Civil Engineering Awards

TIRTHA RAJ ACHARYA - Materials Science and Engineering - Environmental Impact Reduction Award

Kwangwoon University - South Korea

EARLY ACADEMIC PURSUITS

TIRTHA RAJ ACHARYA embarked on his academic journey with a Bachelor's degree in Physics from Tribhuvan University, Nepal, followed by a Master's degree in the same field. His early academic pursuits laid a solid foundation for his subsequent research endeavors, particularly in the field of nanoscience and nanotechnology.

PROFESSIONAL ENDEAVORS

As a committed Ph.D. candidate specializing in plasma physics at Kwangwoon University, Seoul, TIRTHA RAJ ACHARYA has engaged in both teaching and research assistance roles. He has supported undergraduate students in laboratory activities and electronics experiments, fostering their understanding of non-thermal plasma applications and fundamental circuit design crucial for plasma generation.

CONTRIBUTIONS AND RESEARCH FOCUS

TIRTHA RAJ ACHARYA's research focus centers on non-thermal plasma physics, with applications spanning environmental remediation, metal nanoparticle synthesis, and biomedical applications. His doctoral thesis on "Plasma-Assisted Environmental Remediation and Metal Nanoparticle Synthesis" underscores his commitment to addressing real-world challenges through innovative plasma-based solutions.

IMPACT AND INFLUENCE

TIRTHA RAJ ACHARYA's contributions to the field of plasma physics have been recognized through various awards and accolades, including Best Student Poster Presentation Awards from prestigious organizations like the Korean Vacuum Society (KVS). His research presentations and publications have helped disseminate knowledge and drive advancements in the field of materials science and engineering.

ACADEMIC CITES

TIRTHA RAJ ACHARYA's research findings have been disseminated through presentations at international conferences and symposiums, contributing to the academic discourse on plasma-assisted environmental remediation, metal nanoparticle synthesis, and plasma-based applications in various domains.

LEGACY AND FUTURE CONTRIBUTIONS

As TIRTHA RAJ ACHARYA completes his Ph.D. program and prepares to embark on the next phase of his career, his legacy in materials science and engineering is poised to grow. Armed with a diverse skill set and a proven track record of scholarly achievement, he is well-positioned to make significant contributions to the field and drive innovation in plasma-based technologies.

NOTABLE PUBLICATION

TIAN Weichen – Materials Science and Engineering – Best Researcher Award

Published on 14/03/2024 by Civil Engineering Awards

TIAN Weichen - Materials Science and Engineering - Best Researcher Award

The Hong Kong Polytechnic University - China

AUTHOR PROFILE

Scopus

ORCID

EARLY ACADEMIC PURSUITS

TIAN Weichen embarked on his academic journey with a focus on Mechanics at The Hong Kong Polytechnic University. His early academic pursuits laid the foundation for his research and professional endeavors in materials science and engineering.

PROFESSIONAL ENDEAVORS

TIAN Weichen's research and professional endeavors center around advanced manufacturing technology for concrete in extreme environments, nano-modified concrete, resource utilization of green concrete, and marine concrete durability. He has actively participated in projects funded by prestigious organizations such as the Hong Kong Innovation and Technology Fund and the National Natural Science Foundation.

CONTRIBUTIONS AND RESEARCH FOCUS

TIAN Weichen's research focuses on the multi-function application of conductive concrete and green efficient demolition of concrete structures. His work contributes to the development of sustainable construction materials and techniques, addressing challenges such as low-carbon transformation using waste glass and the regulation of electrical-chemical-thermal-moisture of UHPC subjected to electric activation curing.

IMPACT AND INFLUENCE

TIAN Weichen's contributions to materials science and engineering have been recognized through major awards and scholarships, including the Outstanding Graduate of Harbin Institute of Technology and the National Scholarship for doctoral students. His research has the potential to impact the construction industry by promoting sustainability and resilience through innovative materials and technologies.

ACADEMIC CITES

TIAN Weichen's research projects funded by prestigious organizations highlight the significance of his work in materials science and engineering. His involvement in projects focused on low-carbon transformation and performance regulation of concrete demonstrates his commitment to advancing knowledge and addressing real-world challenges in the field.

LEGACY AND FUTURE CONTRIBUTIONS

As TIAN Weichen's career progresses, his legacy in materials science and engineering is poised to grow. Through continued research, collaboration, and innovation, he aims to make further contributions to the development of sustainable construction materials and techniques. His dedication to advancing knowledge and solving complex problems ensures that his influence will endure in the field for years to come.