PhD in Structural Engineering, The German University in Cairo, Egypt

Nancy Hammad is an accomplished academic at the Faculty of Engineering and Materials Science, The German University in Cairo, Egypt. She has a profound impact on the field of materials science, particularly in the domain of alkali-activated materials and self-healing concrete. Her extensive work has garnered 111 citations across 5 key publications, demonstrating her expertise and influence. Nancy actively collaborates with fellow researchers and contributes to groundbreaking advancements in sustainable construction technologies.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

Innovative Research Focus: Nancy Hammad has significantly contributed to the field of self-healing concrete and alkali-activated slag materials. Her research on microbial self-healing mechanisms and fiber-reinforced concrete enhances sustainable construction practices.
High Impact Publications: She has authored five impactful publications, with 111 citations across 88 documents, reflecting the academic community’s recognition of her work.
Collaborative Efforts: Nancy has worked with multiple co-authors, showcasing her ability to collaborate effectively within interdisciplinary teams.
Practical Contributions: Her research addresses real-world challenges, such as durability and sustainability in construction materials, emphasizing its relevance and application.
Recognition of Expertise: Her h-index of 5 underscores the consistent quality and influence of her publications within the academic and engineering communities.

AREAS FOR IMPROVEMENT

Increased Diversity in Research Topics: While her focus on alkali-activated materials is strong, diversifying research into complementary areas could further enhance her profile.
Funding and Grant Success: Securing awarded grants for research can add to her credentials, highlighting the practical and financial backing for her work.
Broader Collaboration: Expanding collaborations internationally or within industry could amplify the application and dissemination of her research.

EDUCATION

Nancy Hammad earned her academic credentials with a focus on civil and materials engineering. She pursued her undergraduate and postgraduate studies at prestigious institutions, culminating in her research at The German University in Cairo. Her dedication to innovative materials science has been the cornerstone of her academic journey, equipping her to lead pioneering studies in self-healing concrete and alkali-activated materials.

EXPERIENCE

With years of academic and research experience, Nancy Hammad has significantly contributed to engineering and materials science. She has worked on cutting-edge research projects and authored several influential publications. As a faculty member at The German University in Cairo, Nancy combines teaching, research, and mentorship to foster innovation and knowledge dissemination.

AWARDS AND HONORS

Nancy Hammad has been recognized for her exceptional contributions to materials science, earning accolades for her research in sustainable construction technologies. Her work in microbial self-healing concrete and fiber-reinforced alkali-activated materials has received widespread acclaim, reflecting her commitment to advancing engineering solutions.

RESEARCH FOCUS

Nancy Hammad’s research focuses on the efficiency of calcium oxide in microbial self-healing activity, self-healing capabilities of alkali-activated slag (AAS) concrete, and fiber-reinforced alkali-activated materials. Her work aims to enhance sustainability and resilience in construction materials, pushing the boundaries of engineering innovation.

PUBLICATION TOP NOTES

🌟 The Efficiency of Calcium Oxide on Microbial Self-Healing Activity in Alkali-Activated Slag (AAS)
📚 State-of-the-Art Report: The Self-Healing Capability of Alkali-Activated Slag (AAS) Concrete
🧬 Efficiency of Bacteria-Based Self-Healing Mechanism in Concrete
🔧 Flexural Performance of Reinforced Alkali-Activated Concrete Beams Incorporating Steel and Structural Macro Synthetic Polypropylene Fiber
🏗️ The Performance of Fiber GGBS Based Alkali-Activated Concrete

CONCLUSION

Nancy Hammad is a strong candidate for the Best Researcher Award. Her innovative work on sustainable construction materials and self-healing concrete demonstrates significant scientific and practical contributions. Addressing areas for improvement, such as securing grants and expanding research topics, could further solidify her standing as a leading researcher in her field. Given her accomplishments and potential for continued impact, she is highly deserving of this recognition.

Lucia Ferrari – Sustainability of construction materials – Best Researcher Award

Posted on 23/09/202423/09/2024 by ScienceFather

Lucia Ferrari - Sustainability of construction materials - Best Researcher Award

University of Bologna - Italy

AUTHOR PROFILE

SCOPUS

LUCIA FERRARI: MATERIALS INNOVATOR 🏗️

Lucia Ferrari is currently a Junior Assistant Professor at the University of Bologna, Italy, specializing in Civil, Chemical, Environmental, and Materials Engineering. With a strong academic background in physics and construction chemistry, she has merged her industry expertise and academic research to innovate sustainable materials for construction, focusing on lowering environmental impacts and developing green technologies for the future of building materials.

EXPERT IN GREEN MATERIALS 🌱

Ferrari’s research focuses on eco-sustainable construction materials, especially those that reduce carbon emissions. After 9 years at the CHRYSO R&D center, where she led projects to develop low-carbon cement technologies, she transitioned to academia. Her work at the University of Bologna explores cutting-edge methods for recycling materials, aiming to create durable, low-carbon alternatives that contribute to sustainable construction practices.

RESEARCH ON CEMENT TECHNOLOGY 🧪

Lucia has made significant contributions to the understanding of cementitious materials, particularly through her work on superplasticizers and alternative binders. By studying the physical-chemical properties of polymers and cement, she has developed new products that enhance cement performance while reducing CO2 emissions. Her projects have had a profound impact on improving cement plant efficiency and promoting the use of industrial waste in construction.

LEADERSHIP IN R&D TEAMS 👩‍🔬

Throughout her career, Ferrari has led several research teams, including managing CHRYSO’s Activation/Acceleration platform. She supervised engineers, technicians, and students, guiding research on new admixtures and low-carbon binders. Her ability to coordinate teams, manage projects, and contribute to innovation in construction materials makes her a respected leader in both industry and academia.

FOCUS ON SUSTAINABILITY 🌍

Lucia’s academic projects, like the study of low-carbon cements, reflect her commitment to addressing the environmental challenges of the construction industry. She explores the influence of porosity and material composition on durability and aims to incorporate sustainable practices in every aspect of her research. Ferrari’s work is driving the construction industry toward greener, more efficient materials that reduce the environmental footprint of modern buildings.

CONFERENCE CONTRIBUTIONS 📢

Lucia Ferrari is an active participant in international scientific conferences, sharing her research on sustainable alternatives to traditional cement. Her presentations on the incorporation of recycled ceramics into limestone-calcined clay cement and the role of calcined clay in reducing cement’s carbon footprint highlight her dedication to innovation. Ferrari’s work not only contributes to academic discourse but also promotes practical solutions for industry-wide sustainability.

COLLABORATION WITH INDUSTRY PARTNERS 🤝

Ferrari has a rich history of collaboration with industry, including her work with HeidelbergCement and CHRYSO. By working closely with both academic and industrial partners, she bridges the gap between research and real-world application, ensuring that her innovations have a tangible impact on construction practices. Her collaborative efforts continue to push forward the development of sustainable building materials globally.

NOTABLE PUBLICATION

Title: Reaction of Clinker Surfaces Investigated with Atomic Force Microscopy
Authors: Ferrari, L., Kaufmann, J., Winnefeld, F., Plank, J.
Journal: Construction and Building Materials
Year: 2012

Title: Characterization of Polycarboxylate-Ether Based Superplasticizer on Cement Clinker Surfaces
Authors: Ferrari, L., Bernard, L., Deschner, F., Winnefeld, F., Plank, J.
Journal: Journal of the American Ceramic Society
Year: 2012

Title: Multi-Method Approach to Study Influence of Superplasticizers on Cement Suspensions
Authors: Ferrari, L., Kaufmann, J., Winnefeld, F., Plank, J.
Journal: Cement and Concrete Research
Year: 2011

Title: Force Measurements by AFM on Clinker Surfaces and Model Systems in Aqueous Solutions Containing Superplasticizer
Authors: Ferrari, L., Haha, M.B., Kaufmann, J., Winnefeld, F.
Conference: 32nd International Conference on Cement Microscopy
Year: 2010

V. Madhavi – Environmental treatment – Best Researcher Award

Posted on 11/03/202411/03/2024 by ScienceFather

Dr. V. Madhavi - Environmental treatment - Best Researcher Award

BVRIT HYDERABAD College of Engineering for Women - India

AUTHOR PROFILE

Scopus

Google Scholar

EARLY ACADEMIC PURSUITS

Dr. V. Madhavi embarked on her academic journey with a strong foundation in the field of chemistry, completing her Bachelor's degree in M.P.C. from Sri Venkateswara University, Tirupati, in 2006. She continued her academic pursuits by obtaining a Master's degree in Chemistry from the same university in 2008, followed by a Ph.D. in Chemistry in 2014, demonstrating her commitment to advancing knowledge in her field.

PROFESSIONAL ENDEAVORS

Dr. Madhavi has garnered extensive experience in academia and research, holding various teaching and research positions. She has served as an Academic Consultant at Yogi Vemana University, Kadapa, and as an Assistant Professor at Annamacharya Engineering College, Tirupati. Additionally, she contributed as a Teaching Assistant at Sri Venkateswara University and held positions as an Assistant Professor at CMRIT, Hyderabad, and BVRITH, Hyderabad, where she currently serves.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Madhavi's research focus lies in environmental treatment, particularly in the remediation of heavy metals from wastewater using innovative nanocomposite materials. Her contributions have been highlighted through numerous publications in international journals, covering a wide range of topics such as nanotechnology for environmental engineering, graphene-based analytical sensors, and polymeric nanoparticles for sustainable agriculture.

IMPACT AND INFLUENCE

Dr. Madhavi's research has made a significant impact in the field of environmental treatment, as evidenced by her publications in reputable journals and her active involvement in national and international conferences. Her work on the synthesis of graphene from agricultural waste and its application in the remediation of heavy metals has garnered attention and recognition within the scientific community.

ACADEMIC CITES

Dr. Madhavi's scholarly works have been cited extensively, indicating the relevance and significance of her research findings in the field of environmental treatment. Her contributions to the development of sustainable solutions for wastewater remediation have been acknowledged by fellow researchers and scholars, further solidifying her reputation as a leading expert in the field.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Madhavi's legacy encompasses her dedication to advancing environmental treatment through innovative research and her commitment to educating future generations of scientists. Her future contributions are expected to further expand our understanding of nanocomposite materials and their applications in addressing environmental challenges, leaving a lasting impact on the field.

ENVIRONMENTAL TREATMENT IN FOCUS

Dr. V. Madhavi's professional journey exemplifies a steadfast commitment to advancing environmental treatment through interdisciplinary research and academic leadership. From her early academic pursuits to her current position as an Assistant Professor, Dr. Madhavi's contributions in nanotechnology and environmental engineering have had a profound impact on addressing critical challenges in wastewater remediation. With a focus on sustainability and innovation, Dr. Madhavi continues to pave the way for future advancements in environmental treatment, leaving a legacy of impactful research and scholarly excellence.

NOTABLE PUBLICATION

Polymeric nanoparticles as effective delivery systems in agriculture sustainability. 2023 (2)

hab. Grażyna Łaska – Environmental Engineering – Best Researcher Award

Posted on 03/02/202414/02/2024 by ScienceFather

Dr. hab. Grażyna Łaska - Environmental Engineering - Best Researcher Award

Politechnika Białostocka - Poland

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Dr. hab. Grażyna Łaska, prof. PB, began her academic journey with a strong focus on biological sciences and environmental engineering. Her early academic pursuits laid the foundation for a distinguished career characterized by excellence and innovation.

PROFESSIONAL ENDEAVORS:

Dr. Łaska's professional achievements are exemplified by the outstanding parametric assessment she received in 2023. This assessment, specific to the discipline of biological sciences and environmental engineering, awarded her a total of 1291.1 points. Notably, 863.15 points were attributed to her scientific and research activities, while 427.95 points recognized her teaching and organizational contributions.

CONTRIBUTIONS AND RESEARCH FOCUS environmental engineering:

Dr. Łaska has significantly contributed to the field of biological sciences with a substantial body of work. Her scientific portfolio includes 238 papers, with 136 being original scientific papers. These contributions have earned her a notable MEiN score of 2,480.36 points and an impressive Impact Factor (IF) of 60.190. Seven of her original scientific papers have been recognized by the Philadelphia Institute of Scientific Information in 2021-2022.

INNOVATION AND PATENTS:

In the realm of innovation, Dr. Łaska filed 9 patent inventions in 2020-2021, securing 6 patents from the Patent Office of the Republic of Poland. These patents garnered a total score of 490 points, highlighting her commitment to advancing scientific knowledge through practical applications.

ACADEMIC SUPERVISION AND REVIEW:

Dr. Łaska's commitment to academic mentorship is evident in her current role as the supervisor of 8 ongoing scientific works. She has also successfully supervised 4 completed doctorates, including the prestigious role of supervising the implementation doctorate of the Ministry of Science and Higher Education in 2022. Additionally, she actively participates as a reviewer for scientific monographs and articles in both international and national periodicals.

INTERNATIONAL RESEARCH COOPERATION:

As part of her international research collaboration, Dr. Łaska engages in research focused on the genetic and biological variability of the pasque flower Pulsatilla patens (L.) Mill. in north-eastern Poland. Collaborating with esteemed researchers such as Prof. Jason Hoeksema from the Department of Biology at the University of Mississippi in Oxford and the research team from Palackeho v Olomouci University in the Czech Republic, she contributes to global scientific advancements.

LEADERSHIP AND MEMBERSHIPS:

Dr. Łaska's leadership roles are noteworthy, serving multiple terms as the Vice-President of the Polish Botanical Society and Chairwoman of the Białystok Branch of the Polish Botanical Society. Her memberships in national and international ecological and pharmaceutical organizations, including PAEK, IALE, INTECOL, ASP, and the Polish Society of Ecological Engineering, showcase her broad interdisciplinary engagement.

LEGACY AND FUTURE CONTRIBUTIONS:

Dr. Łaska's legacy is built on a foundation of outstanding contributions to academia, research, and environmental sustainability. Her future contributions are poised to further advance scientific knowledge, mentor emerging scholars, and continue her impactful leadership in professional societies.

NOTABLE PUBLICATION

Green Building Excellence Award

Posted on 16/11/2023 by ScienceFather

Introduction: Step into a sustainable future with the "Green Building Excellence Award." This prestigious accolade celebrates innovation and excellence in environmentally conscious construction, setting the standard for sustainable building practices.

Award Eligibility: Open to global participants, this award transcends age limits and welcomes entries from individuals and organizations committed to advancing green building initiatives. Qualifications include a demonstrated dedication to sustainable design and construction, with a preference for impactful publications.

Requirements: Applicants are required to submit their groundbreaking work, accompanied by a detailed biography, abstract, and supporting files. Evaluation criteria prioritize originality, environmental impact, and the integration of green building principles. Strict adherence to submission guidelines ensures a fair and thorough assessment.

Submission Guidelines: Follow the submission guidelines meticulously to ensure your entry aligns with the award's objectives. Provide a comprehensive biography, an engaging abstract, and all necessary supporting files to present a holistic view of your influential work.

Recognition: Winners receive widespread recognition for their exceptional contributions to green building excellence. The award serves as a platform to showcase your work on a global scale, fostering collaboration and knowledge-sharing within the sustainable construction community.

Community Impact: The awarded projects are expected to make a positive impact on communities, showcasing tangible benefits in terms of sustainability, energy efficiency, and overall environmental consciousness.