Dr. Ahmed El-Shafei's research team invented a new “sensitizer†or dye that can use more ambient light and sunlight than any dye currently on the market. It can be used in dye-sensitized solar cells (DSSCs). :dye-sensitized solar cells).
"A third-party solar company uses our new dye, the NCSU-10 dye, to compare the most advanced dyes on the market. Our dye power density is higher by more than 14%," said El. - Shafei said that he is an assistant professor of textile engineering, chemistry and science. “In other words, the University of North Carolina No. 10 allows us to harvest more energy, but only the same amount of sunlight.â€
This new dye can significantly increase the efficiency of dye-sensitized solar cells, which have a range of applications. Indoors, these dye-sensitized solar cell technologies can be used to drive cell phones, laptops, and MP3 players using only ambient light. Outdoors, they can be used in conventional solar arrays, or in advanced energy-driven applications, as building integrated photovoltaic products, including windows, facades, and skylights, but not limited to these.
Compared with the most advanced dyestuffs on the market, the University of North Carolina No. 10 dye can absorb more photons with lower dye concentration, so it can prepare more effective solar cells for windows and exterior walls while still allowing The window is highly transparent.
Dye-sensitized solar cells are prepared using inexpensive and environmentally friendly materials, including dyes, electrolytes, and titanium dioxide (TiO2). Titanium dioxide is the white component used in toothpaste. Dye-sensitized solar cells absorb photons, or discrete packets, and create free electrons with incident light (or light shining directly on the surface), which is performed in nanoporous semiconductors such as titanium dioxide, all in the battery. . These electrons are transferred to external circuits and generate current. Because they do not rely on the angle of incident light, and are highly responsive to low-level lighting conditions, this dye-sensitized solar cell is 20% to 40% more efficient than traditional silicon photovoltaic products, in diffuse light, cloudy or rainy days. This is also true in indoor ambient light, which makes dye-sensitized solar cells a unique optoelectronic product.
A patent is being filed for this new dye, and the university is contacting potential industry partners to negotiate permission to use the University of North Carolina No. 10 dye and to fund other research in this area.
The purpose of using fabric sandwiched rubber sealing material is to increase the stiffness and strength of the sealing ring, prevent rubber extrusion, and make it suitable for high pressure. At the same time, in the process of wear, rubber wears ahead of fabric. When the rubber of the parts with high contact pressure wears off, the wear extends to the parts with low contact pressure, so that the wear of the whole sealing surface tends to be uniform, but the friction does not change significantly. However, the lip of the rubber sealing ring sandwiched with fabric can easily scrape off the oil film on the sliding surface, so the lubricity is worse than that of leather and polytetrafluoroethylene.
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