TH171264A - Rear electrodes of a dye-sensitized solar cell using carbon nanotubes. Mixed with cement as a catalyst - Google Patents

Abstract

The back electrode of a dye-sensitized solar cell using cement-based carbon nanotubes is composed of a catalytic film layer made from carbon nanotubes. Mixed with cement Glazed on the floor A translucent conductive film that is coated on a translucent glass. Carbon nanotubes have good catalyst properties. Close to platinum metal By using cement as a binder, carbon nanotubes can be attached to the leading film. Translucent electrodes are coated on translucent glass. And can be used as a catalyst in the rear electrodes of Dye-sensitized solar cells In addition, composite films between carbon nanotubes and cement can also be prepared. At low temperature (room temperature) without the need for heat-firing Dye-sensitized solar cells used Rear electrode, carbon nanotubes mixed with cement as catalyst. Ensure the efficiency of the replacement Solar energy is up to 9.60 percent of electricity, which is an efficiency of 85.7 percent compared to dye-sensitized solar cells that use platinum metal as a catalyst. -------------------------------------------------- ---------- New Request Update 4/8/2016 The back electrode of a dye-sensitized solar cell using cement-based carbon nanotubes consists of a film layer of the catalyst. Reaction made from carbon nanotubes mixed with cement. Glazed on the floor A translucent conductive film that is coated on a translucent glass. Carbon nanotubes have good catalyst properties. Close to platinum metal By using cement as a binder, carbon nanotubes can be attached to the leading film. Translucent electrodes are coated on translucent glass. And can be used as a catalyst in the rear electrodes of Dye-sensitized solar cells In addition, composite films between carbon nanotubes and cement can also be prepared. At low temperature (room temperature) without the need for heat-firing Dye-sensitized solar cells used Rear electrode, carbon nanotubes mixed with cement as catalyst. Ensure the efficiency of the replacement Solar energy is up to 9.60 percent of electricity, which is an efficiency of 85.7 percent compared to the dye-sensitized solar cells that use platinum metal as a catalyst.

Claims (1)

: Edit Summary of Invention 8/05/2015 The back electrode of a dye-sensitized photovoltaic cell using cement-based carbon nanotubes consists of a catalytic film layer made from nanotubes Carbon mixed with cement Glazed on the floor A translucent conductive film that is coated on a translucent glass. Carbon nanotubes have good catalyst properties. Close to platinum metal By using cement as a binder, carbon nanotubes can be attached to the leading film. Translucent electrodes are coated on translucent glass. And can be used as a catalyst in the rear electrodes of Dye-sensitized solar cells In addition, composite films between carbon nanotubes and cement can also be prepared. At low temperature (room temperature) without the need for heat-firing Dye-sensitized solar cells used Rear electrode, carbon nanotubes mixed with cement as catalyst. Ensure the efficiency of the replacement Solar energy is up to 9.60 percent of electricity, which is an efficiency of 85.7 percent compared to dye-sensitized solar cells that use platinum metal as a catalyst. -------------------------------------------------- ---------- New Request Update 4/8/2016 The back electrode of a dye-sensitized solar cell using cement-based carbon nanotubes consists of a film layer of the catalyst. Reaction made from carbon nanotubes mixed with cement. Glazed on the floor A translucent conductive film that is coated on a translucent glass. Carbon nanotubes have good catalyst properties. Close to platinum metal By using cement as a binder, carbon nanotubes can be attached to the leading film. Translucent electrodes are coated on translucent glass. And can be used as a catalyst in the rear electrodes of Dye-sensitized solar cells In addition, composite films between carbon nanotubes and cement can also be prepared. At low temperature (room temperature) without the need for heat firing Dye-sensitized solar cells used Rear electrode, carbon nanotubes mixed with cement as catalyst. Ensure the efficiency of the replacement Solar energy is up to 9.60 percent electric power, which is 85.7 percent efficient compared to dye-sensitized solar cells that use platinum metal as a catalyst. (Item one) which will appear on the advertisement page: edit 8/05/2015 1. The back electrode of a dye-sensitized solar cell that uses carbon nanotubes mixed with cement as Catalyst Layered Three layers are connected in order as follows: - The catalytic film layer (1), the top layer of the back electrode of the dye-sensitized solar cell, and acts as the catalyst for the vapor redox pair. Odide-Triiodite (I- / I3- redox cou Tag: