Multifunctional wall coating combining photocatalysis, self-cleaning and latent heat storage

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abstract

Mortars, one of the most common construction materials, have not received any substantial modification for many decades. This has changed in recent years; new compositions are now being developed, with new properties, using nano-additives, fibres and capsules. In this work, surfaces with new and innovative functionalities that promote energy savings and improve air quality have been developed and studied. Incorporation of phase change materials (PCM) and titanium dioxide (TiO2) nanoparticles in construction products is currently under study by different research groups. However, these studies only address their incorporation separately. Adding new additives into the mortar's matrix can be complex-due to microstructural modifications that will influence both fresh and hardened state properties. Moving from a single additive to multiple additions, as in this study, increases the system's complexity. Only with a good understanding of the microstructural properties, it is possible to add multiple additives (including nano and microparticles) to mortars, without damaging its final quality. This work demonstrates that a higher additive content is not always a guarantee of better results; lower additions can often provide a better compromise between performance and final mechanical properties. The results presented in this paper confirmed this and show that combining PCM microcapsules and TiO2 nanoparticles open a new path in the development of mortars with multiple functionalities. In this study, a new material with depolluting, self-cleaning and heat storage was created. For the development of new and innovative mortars, a proper balance of multiple additives, supported by the study of microstructural changes, can lead to an optimization of the compositions, ensuring that the mortar's final properties are not affected.

keywords

TITANIUM-DIOXIDE; NOX REMOVAL; TIO2; MORTARS; INDOOR; DEGRADATION; POLLUTANTS; CHEMISTRY; ABATEMENT; SYSTEMS

subject category

Materials Science

authors

Lucas, SS; de Aguiar, JLB

Groups

Projects

Study of functional mortars for a sustainable construction (PTDC/ECM/72104/2006)

acknowledgements

This work has been supported by the project (PTDC/ECM/72104/2006), funded by the Foundation for Science and Technology (FCT) and the project 13265 R08132 from REF 2016, University of Greenwich.

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Publication Details

type
Journal Article
year
2018
journal
MATERIALS RESEARCH EXPRESS
volume
5
article number
25702
publisher
IOP PUBLISHING LTD
issn
2053-1591
issue
2
digital object identifier
10.1088/2053-1591/aaa82f
web of science article identifier
WOS:000424028100002

Journal Metrics (JCR 2019)

Journal Impact Factor
1.929
Journal Impact Factor (5 yrs)
1.783
category normalized journal percentile
35.51

Citations

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