TY - JOUR
T1 - Biofouling resistance and practical constraints of titanium dioxide nanoparticulate silane/siloxane exterior facade treatments
AU - Radulovic, Jovana
AU - MacMullen, James
AU - Zhang, Zhongyi
AU - Dhakal, Hom
AU - Hannant, S.
AU - Daniels, L.
AU - Elford, J.
AU - Herodotou, C.
AU - Totomis, M.
AU - Bennett, Nick
PY - 2013
Y1 - 2013
N2 - This paper presents the evaluation of titanium dioxide nanoparticulate enhanced silane/siloxane emulsions and their resistance to biofouling by algal colonisation. Varying amounts of titanium dioxide nanoparticulates were incorporated into silane/siloxane emulsions and bioreceptivity assessed. A culture streaming study was conducted to evaluate each treatment using mortar samples. Characterisation of the treatments included assessment of the porosity, surface roughness, sorptivity, hydrophobicity, treatment depth and visual aesthetical alteration. The results showed that titanium dioxide nanoparticulate incorporation did not adversely alter treatment penetration. All titanium dioxide treatments imparted superhydrophobic water repellent attributes while effectively conserving the morphology of the substrate.
It was concluded that the reduced bioreceptivity observed primarily stemmed from the nanoparticulates ability to photocatalytically breakdown contaminants and that only a small concentration was required to achieve vastly significant improvements at concentrations
AB - This paper presents the evaluation of titanium dioxide nanoparticulate enhanced silane/siloxane emulsions and their resistance to biofouling by algal colonisation. Varying amounts of titanium dioxide nanoparticulates were incorporated into silane/siloxane emulsions and bioreceptivity assessed. A culture streaming study was conducted to evaluate each treatment using mortar samples. Characterisation of the treatments included assessment of the porosity, surface roughness, sorptivity, hydrophobicity, treatment depth and visual aesthetical alteration. The results showed that titanium dioxide nanoparticulate incorporation did not adversely alter treatment penetration. All titanium dioxide treatments imparted superhydrophobic water repellent attributes while effectively conserving the morphology of the substrate.
It was concluded that the reduced bioreceptivity observed primarily stemmed from the nanoparticulates ability to photocatalytically breakdown contaminants and that only a small concentration was required to achieve vastly significant improvements at concentrations
U2 - 10.1016/j.buildenv.2013.07.001
DO - 10.1016/j.buildenv.2013.07.001
M3 - Article
SN - 0360-1323
VL - 68
SP - 150
EP - 158
JO - Building and Environment
JF - Building and Environment
ER -