Titania paste, transparent

Greatcell Solar®, TiO2 paste
Número MDL:
ID de la sustancia en PubChem:


Crystal Structure: > 99% anatase (analysis carried out on starting material, prior to paste manufacture)

Nivel de calidad



paste (yellow)


19.0 wt. %

tam. prom. pieza

20 nm (active)


40000-55000 mPa.s(20 °C) (Analysis carried out at 20°C with 20mm 4 degree cone/plate; 40 s-1))



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Descripción general

Transparent titania (TiO2) paste is a visual range transparent paste that has a large surface area to volume ratio. The average diameter of the TiO2 nanoparticle within the paste is 20nm and the transparent sintered films are around 6-7 μm thick per printed layer.


Use Transparent Titania Paste in applications that require a transparent sintered titania film with a large surface/volume ratio.

Transparent Titania Paste is formulated to yield sintered film thicknesses of 6-7μm when screen printed with a 43T mesh. Transparent Titania Paste has highly dispersed and stable anatase nanoparticles.

It is optimised for screen printing using a synthetic 43T mesh screen (or similar). After drying; this paste must be fired at or above 500°C. This results in a transparent sintered layer; with a film thickness of approximately 6-7μm for one printed layer and ~12μm for two printed layers; when using a 43T mesh screen.

The paste exhibits optimal rheological properties that provide good surface uniformity and contains organic binders specially formulated to provide versatile porosity suitable for a range of dye/electrolyte systems.

Storage: Store in the dark at 20°C
TiO2 paste forms a screen printed film which is majorly used as a conduction band on indium tin oxide (ITO) or fluorine doped tin oxide (FTO) based substrates for dye sensitized solar cells and for major photovoltaic based applications.


10, 20 g in glass bottle

Información legal

Product of Greatcell Solar® exclusive supplier of Sun2 products under license from EPFL
Greatcell Solar is a registered trademark of Greatcell Solar


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Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3

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An evidence for an organic N-doped multiwall carbon nanotube heterostructure and its superior electrocatalytic properties for promising dye-sensitized solar cells.
Arbab AA, et al
Journal of Materials Chemistry, 6(18), 8307-8322 (2018)
Energy conversion efficiency of genipin-based dye sensitized solar cells.
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Heather Vanselous et al.
The journal of physical chemistry letters, 8(4), 825-830 (2017-02-06)
Molecular monolayers exhibit structural and dynamical properties that are different from their bulk counterparts due to their interaction with the substrate. Extracting these distinct properties is crucial for a better understanding of processes such as heterogeneous catalysis and interfacial charge...
Aggregated mesoporous nanoparticles for high surface area light scattering layer TiO2 photoanodes in Dye-sensitized Solar Cells.
Al-Attafi K, et al.
Scientific Reports, 7(1), 10341-10341 (2017)
Synthesis of active absorber layer by dip-coating method for perovskite solar cell.
Singh R, at al.
Journal of Molecular Structure, 1158(1), 229-233 (2018)
Professor Shinar (Iowa State University, USA) summarizes the developments of a variety of sensor configurations based on organic and hybrid electronics, as low-cost, disposable, non-invasive, wearable bioelectronics for healthcare.
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Few Monolayer Atomic Layer Deposition (ALD) on Surfaces and Interfaces for Energy Applications
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