Prof. Maria Stefanidou | Building Materials | Best Researcher Award
Professor at Aristotle University of Thessaloniki, Greece
Maria Stefanidou is a distinguished Full Professor at Aristotle University in Thessaloniki, renowned for her expertise in geology, nanoscience, and building materials science. With a robust academic background including a Ph.D. in Traditional Materials, she serves as the Director of the Laboratory of Building Materials within the School of Civil Engineering since 2015. Maria’s research focuses on enhancing traditional and cement-based materials using nanoparticles, bio-fibres, and industrial by-products, aiming to improve their performance and sustainability. She has contributed significantly to over 94 national and European projects, published extensively, and holds editorial roles in prestigious journals. Maria Stefanidou’s impactful research and leadership continue to shape the field of building materials science globally.
Professional Profiles:
Education:
Maria Stefanidou completed her education with a diploma in Geology from Aristotle University in Thessaloniki in 1993. She pursued further studies, earning a Master’s degree in Nanoscience and Nanotechnologies from the Physics Department of the same university in 2011. Maria continued her academic journey by obtaining a Ph.D. in Traditional Materials from the School of Civil Engineering at Aristotle University in Thessaloniki in 2000. Her educational background has equipped her with a comprehensive understanding of geology, nanoscience, and traditional materials, forming a solid foundation for her subsequent research and professional endeavors in building materials science.
Professional Experience:
Maria Stefanidou has garnered extensive experience in academia and research throughout her career. She currently holds the position of Full Professor at Aristotle University in Thessaloniki, where she has made significant contributions to the fields of geology, nanoscience, and building materials science. Since 2015, Maria has served as the Director of the Laboratory of Building Materials within the School of Civil Engineering at Aristotle University, overseeing research initiatives aimed at advancing traditional and cement-based materials using innovative technologies such as nanoparticles and industrial by-products. Her leadership and expertise have been instrumental in shaping research agendas and fostering collaboration on numerous national and European projects. Maria’s dedication to academic excellence is further underscored by her role as a reviewer for prominent scientific journals and as an associate editor for the Journal of Building Engineering (Elsevier). Her contributions to the field have been recognized internationally, cementing her reputation as a leading authority in building materials science.
Research Interest:
Maria Stefanidou’s research interests focus on enhancing traditional and cement-based materials through innovative technologies. She specializes in utilizing nanoparticles, bio-fibres, and industrial by-products to upgrade construction materials. Her work aims to improve the performance, durability, and sustainability of these materials, contributing to advancements in building science and engineering. Maria’s research is characterized by its practical applications and its potential to address contemporary challenges in construction and infrastructure development. Her expertise in this area is widely acknowledged, reflecting her commitment to advancing the field of building materials science.
Influence of nano-SiO2 on the Portland cement pastes
Authors: M Stefanidou, I Papayianni
Journal: Composites Part B: Engineering
Volume: 43
Issue: 6
Pages: 2706-2710
Citations: 429
Year: 2012
Utilization of fine recycled aggregates in concrete with fly ash and steel slag
Authors: E Anastasiou, KG Filikas, M Stefanidou
Journal: Construction and Building Materials
Volume: 50
Pages: 154-161
Citations: 256
Year: 2014
The role of aggregates on the structure and properties of lime mortars
Authors: M Stefanidou, I Papayianni
Journal: Cement and Concrete Composites
Volume: 27
Issues: 9-10
Pages: 914-919
Citations: 182
Year: 2005
Strengthāporosity relationships in limeāpozzolan mortars
Authors: I Papayianni, M Stefanidou
Journal: Construction and Building Materials
Volume: 20
Issue: 9
Pages: 700-705
Citations: 179
Year: 2006
Natural fiber-reinforced mortars
Authors: F Kesikidou, M Stefanidou
Journal: Journal of Building Engineering
Volume: 25
Pages: 100786
Citations: 165
Year: 2019
Towards a more effective and reliable salt crystallization test for porous building materials: state of the art
Authors: B Lubelli, V Cnudde, T Diaz-Goncalves, E Franzoni, RPJ van Hees, …
Journal: Materials and Structures
Volume: 51
Pages: 1-21
Citations: 130
Year: 2018
Methods for porosity measurement in lime-based mortars
Authors: S Maria
Journal: Construction and Building Materials
Volume: 24
Issue: 12
Pages: 2572-2578
Citations: 118
Year: 2010
Evaluation of workability parameters in 3D printing concrete
Authors: M Papachristoforou, V Mitsopoulos, M Stefanidou
Journal: Procedia Structural Integrity
Volume: 10
Pages: 155-162
Citations: 113
Year: 2018
Modifications of Alfa fibers by alkali and hydrothermal treatment
Authors: S Ajouguim, K Abdelouahdi, M Waqif, M Stefanidou, L SaĆ¢di
Journal: Cellulose
Volume: 26
Pages: 1503-1516
Citations: 94
Year: 2019
Analysis of ancient mortars and design of compatible repair mortars: The case study of Odeion of the archaeological site of Dion
Authors: I Papayianni, V Pachta, M Stefanidou
Journal: Construction and Building Materials
Volume: 40
Pages: 84-92
Citations: 93
Year: 2013
Nanomechanical characterization of cement-based pastes enriched with SiO2 nanoparticles
Authors: I Zyganitidis, M Stefanidou, N Kalfagiannis, S Logothetidis
Journal: Materials Science and Engineering: B
Volume: 176
Issue: 19
Pages: 1580-1584
Citations: 88
Year: 2011
External treatments for the preventive repair of existing constructions: A review
Authors: M SĆ”nchez, P Faria, L Ferrara, E Horszczaruk, HM Jonkers, A KwiecieÅ, …
Journal: Construction and Building Materials
Volume: 193
Pages: 435-452
Citations: 80
Year: 2018