Add to ORKGThe day-to-day negative effect of contaminating substances on the NOx removal effectiveness of photocatalytic surfaces and their recovery capacity after undergoing cleansing is of real academic and practical interest. This paper analyzes the NOx removal effectiveness of two different types of photocatalytic concrete surface layers incorporating nano-TiO2 particles. Both types of surfaces are examined before and after being subjected to dust accumulation and oil impregnation. The recovery of their NOx removal capacity after undergoing various cleansing processes is also evaluated. The results are compared to those of their respective reference samples. The results show that the high NOx removal capacity of the spray-coated samples is partial...
Self-cleaning, air-purifying pervious concrete pavement is a promising technology that can be constr...
Photocatalytic compounds such as titanium dioxide (TiO 2) can be used to construct pervious concrete...
The potential of TiO2-based photocatalysts in mitigating the effects of environmental pollutants is ...
Using cement-based building materials as a matrix for nano-photocatalysts is an important developmen...
<div><p>Nitrogen oxides (NOx) emitted from combustion processes have elevated concentrations in larg...
Nitrogen oxides (NO x) emitted from vehicle exhaust are associated with negative health impacts and ...
Nitrogen oxides (NOx) emitted from vehicle exhausts are associated with adverse health effects on th...
This work aimed to investigate the influence of selected material variables on the self-cleaning and...
Photocatalytic compounds have the potential to remove harmful air pollutants from urban areas. The o...
Photocatalytic concrete containing nano TiO2 particles has generated interest in the 21st century fo...
Heterogeneous photocatalysis is considered one of the potential solutions for pollution remediation ...
Numerous laboratory studies have demonstrated the ability of nano and ultrafine titanium dioxide (Ti...
Heterogeneous photocatalysis for self-cleaning and air purifying construction materials, using titan...
International audienceDiesel soot emissions deteriorate the appearance of architectural building mat...
Titanium dioxide is the most important photocatalysts used for purifying applications. It was the pu...
Self-cleaning, air-purifying pervious concrete pavement is a promising technology that can be constr...
Photocatalytic compounds such as titanium dioxide (TiO 2) can be used to construct pervious concrete...
The potential of TiO2-based photocatalysts in mitigating the effects of environmental pollutants is ...
Using cement-based building materials as a matrix for nano-photocatalysts is an important developmen...
<div><p>Nitrogen oxides (NOx) emitted from combustion processes have elevated concentrations in larg...
Nitrogen oxides (NO x) emitted from vehicle exhaust are associated with negative health impacts and ...
Nitrogen oxides (NOx) emitted from vehicle exhausts are associated with adverse health effects on th...
This work aimed to investigate the influence of selected material variables on the self-cleaning and...
Photocatalytic compounds have the potential to remove harmful air pollutants from urban areas. The o...
Photocatalytic concrete containing nano TiO2 particles has generated interest in the 21st century fo...
Heterogeneous photocatalysis is considered one of the potential solutions for pollution remediation ...
Numerous laboratory studies have demonstrated the ability of nano and ultrafine titanium dioxide (Ti...
Heterogeneous photocatalysis for self-cleaning and air purifying construction materials, using titan...
International audienceDiesel soot emissions deteriorate the appearance of architectural building mat...
Titanium dioxide is the most important photocatalysts used for purifying applications. It was the pu...
Self-cleaning, air-purifying pervious concrete pavement is a promising technology that can be constr...
Photocatalytic compounds such as titanium dioxide (TiO 2) can be used to construct pervious concrete...
The potential of TiO2-based photocatalysts in mitigating the effects of environmental pollutants is ...