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

EARLY ACADEMIC PURSUITS

Ashal Tyurkay began his academic journey at Istanbul Technical University, where he obtained his Bachelor's and Master's degrees in Architecture with a focus on Environmental Control and Construction Technologies. His commitment to excellence earned him recognition as a finalist in Archiprix Turkey 2014.

PROFESSIONAL ENDEAVORS

Ashal Tyurkay's professional endeavors encompass a diverse range of research and teaching activities. From contributing to research projects funded by prestigious institutions to co-editing final book series for COST Action, his career reflects a dedication to advancing knowledge in the field of architecture and construction.

CONTRIBUTIONS AND RESEARCH FOCUS

Ashal Tyurkay's research focuses on Circular Construction Materials, building performance, facade design, and conservation. His work spans from developing multi-functional facade panels to co-creating Nature-Based Solutions for urban regeneration. Through projects like the "PRÄKLIMA Fassade" and "Energetic Panel," he has made significant contributions to sustainable building technologies.

IMPACT AND INFLUENCE

Through his involvement in research projects and collaborations, Ashal Tyurkay has made a tangible impact on the field of architecture and construction. His research outputs, including publications and co-edited book series, have likely influenced academic discourse and practical applications in the industry.

LEGACY AND FUTURE CONTRIBUTIONS

As Ashal Tyurkay continues his academic and research endeavors, his legacy will be marked by his pioneering work in sustainable building technologies and Circular Construction Materials. His future contributions hold promise for further innovations in architectural design, construction methodologies, and environmental conservation practices.