Titanium dioxide Nano 

1. Substrates improve the corrosion resistance of the electrolyte, effectively improve the stability of the substrate of the photoelectric conversion, significantly extending the life of DSSC devices;

 

 

 

 

 

 

 

 

 9. Use wet processing micro particles were prepared TTO-102 Photoelectric effect compared to traditional abrasive agent, mixing and chemical dispersion process, with process stability, processing efficiency, low energy consumption, pollution-free benefits, you can ensure market stability needs.8.TTO-102 Photoelectric effect a good dispersion agent can prevent the material in the transport, storage and use of aggregates occurs during all or part caused by material failure, effective guarantee product quality in industrial production and stability. 7.TTO-102 Photoelectric effect agent contains only titanium dioxide and deionized water, does not contain any surface active agents or chemical additives, the traditional chemical methods to solve the DSSC fabricated into the substrate slurry dispersant in the device system of dye and electrolyte disturbances due to substantially reduce the internal loss of the device, effectively improve the photoelectric conversion device capabilities. 6.TTO-102 Photoelectric effect agent titanium dioxide materials for use crystal nucleus size is smaller than a 15nm, the substrate can be effectively used to enhance the DSSC device short-circuit current indicators; 5.TTO-102 photoelectric effect of nano titanium dioxide containing agent, D50 for the 59nm, D90 down to 202nm in the nano-porous structure of the crystal particles have a great surface area for the DSSC in the adsorption can be increased to improve the optical device conversion rate. In contrast, titanium dioxide slurry prepared using traditional methods, it is difficult to 500nm process will be less titanium dioxide particles, and particle size distribution is difficult to control, but also easily produced in the grinding process of impurity; 4.TTO-102 Photoelectric effect agent for the anatase titanium tube material, particle size distribution near the focus on 60nm, the width from 400nm-800nm wavelength region of the full visible spectrum of light has a good optical response characteristics, for DSSC significant increase in favor of the device under the conditions of non-direct sunlight vertical capacity of photovoltaic conversion; 3. DSSC devices can significantly reduce manufacturing costs; 2. Dioxide can effectively play the strong adsorption capacity of porous structure, making the substrate of a substantial increase in dye adsorption capacity, thus improving the light absorption efficiency DSSC devices, and ultimately improve the light conversion purposes;