Add to ORKGCreating of photovoltaic cells with high conversion of solar light – promising trend in the field of solar energy. In this paper, we proposed the use of inkjet printing technology of photoactive films based on MOFentrapped and pure TiO2 thin films. For this application we develop a unique low temperature sol-gel synthesis using physically activated sol of crystalline phases based on the titanium dioxide produced in the process of co-crystallisation with MOF. It is shown that the developed technology and materials not only provide point positioning photovoltaic layers with high efficiency, but also to promote self-cleaning properties, exhibiting photocatalytic properties
TiO2 coatings can be used to create transparent, photocatalytically active, self-cleaning surfaces a...
Here we report the methodology for nanocomposite fabrication based on the inkjet printing technique....
Abstract Solar-driven processes may represent a key solution for the current energy and environment...
Creating of photovoltaic cells with high conversion of solar light – promising trend in the field of...
Materials based on titanium dioxide produced as a highly photoactive catalysts, attracted the attent...
This work investigates the use of different sol–gel routes for fabricating photocatalytic thin ...
A hybrid organo-silica sol was used as a binder for reinforcing of commercial titanium dioxide nanop...
In this paper, we present an inkjet printing approach suited for the deposition of photocatalyticall...
International audienceWe describe a one-pot chemical synthesis to produce TiO2−x(OH)2x colloidal sol...
Silicon solar cell manufacturing is an expensive and high energy consuming process. In contrast, dye...
This diploma thesis was focused on the preparation of self-cleaning and photocatalyticaly active tit...
This work reviews an eco-friendly process for producing TiO2 via colloidal aqueous sol–gel synthesis...
PhDThis thesis focuses on the synthesis and characterisation of titanium dioxide (TiO2) thin films f...
Silicon solar cell manufacturing is an expensive and high energy consuming process. In contrast, dye...
Ink-jet printing offers an ideal answer to the emerging trends and demands of depositing at ambient ...
TiO2 coatings can be used to create transparent, photocatalytically active, self-cleaning surfaces a...
Here we report the methodology for nanocomposite fabrication based on the inkjet printing technique....
Abstract Solar-driven processes may represent a key solution for the current energy and environment...
Creating of photovoltaic cells with high conversion of solar light – promising trend in the field of...
Materials based on titanium dioxide produced as a highly photoactive catalysts, attracted the attent...
This work investigates the use of different sol–gel routes for fabricating photocatalytic thin ...
A hybrid organo-silica sol was used as a binder for reinforcing of commercial titanium dioxide nanop...
In this paper, we present an inkjet printing approach suited for the deposition of photocatalyticall...
International audienceWe describe a one-pot chemical synthesis to produce TiO2−x(OH)2x colloidal sol...
Silicon solar cell manufacturing is an expensive and high energy consuming process. In contrast, dye...
This diploma thesis was focused on the preparation of self-cleaning and photocatalyticaly active tit...
This work reviews an eco-friendly process for producing TiO2 via colloidal aqueous sol–gel synthesis...
PhDThis thesis focuses on the synthesis and characterisation of titanium dioxide (TiO2) thin films f...
Silicon solar cell manufacturing is an expensive and high energy consuming process. In contrast, dye...
Ink-jet printing offers an ideal answer to the emerging trends and demands of depositing at ambient ...
TiO2 coatings can be used to create transparent, photocatalytically active, self-cleaning surfaces a...
Here we report the methodology for nanocomposite fabrication based on the inkjet printing technique....
Abstract Solar-driven processes may represent a key solution for the current energy and environment...