The CERAMIC AND CEMENT-BASED MATERIALS GROUP
C2M
MODElling
Atomistic & COLLOIDAL
SUB/SUPER CRITICAL SYNTHESIS
OF NANOPARTICLES
(Xonotlite, TOBERMORITE)
NOVEL SINTERING
And CLINKERIZATION METHODS
Combining knowledge from different disciplines like solid-state physics, soft-matter physics, geochemistry and chemical engineering, the “Ceramic and Cement-based Materials” group focuses on the computational design and synthesis of new ceramic and cement based materials with lower CO2 fingerprint. Among its different lines of research, they are worth mentioning:
* The use of
atomistic and colloidal simulations to study the structure
and properties of materials
* The implementation of new hydrothermal and supercritical fluids (SCF) technologies for the ultra-fast synthesis of ceramic nanoparticles
* The development of new sintering methodologies through the use of autoclaves or microwaves that allow notable energy saving and a drastic reduction of CO2 emission
* The implementation of new hydrothermal and supercritical fluids (SCF) technologies for the ultra-fast synthesis of ceramic nanoparticles
* The development of new sintering methodologies through the use of autoclaves or microwaves that allow notable energy saving and a drastic reduction of CO2 emission