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MGW Glass
MGW Glass
The cadmium telluride (CdTe) thin-film solar cell consists of a simple five-layer structure: glass substrate, transparent conductive oxide layer (TCO), cadmium sulfide (CdS) window layer, cadmium telluride (CdTe) absorption layer, and back contact layer. This streamlined design ensures high efficiency and durability for modern architectural needs.
| Category | Parameter Range | Scenarios | Thickness/Transmittance | Power Output |
|---|---|---|---|---|
| Residential | 1200×600mm / 1600×800mm | Roofs / Balcony Railings | 10-12mm / 10%-60% | 100W-300W/unit |
| Commercial | 2400×1200mm / 3000×1500mm | Factory Walls / Power Plants | 22mm / 10%-60% | 500W-1000W/unit |
| Custom | 1000-4000mm available | Curtain Walls / Landscapes | 6-20mm / 10%-60% | Calculated by size |
CdTe is a direct bandgap material with excellent spectrum absorption. It performs significantly better than crystalline silicon in low-light conditions such as dawn, dusk, or hazy weather.
With a temperature coefficient of -0.21~0.25%/ºC, these cells maintain stable power generation even in high-temperature environments, outperforming standard silicon cells.
CdTe can absorb 90% of visible light with only 1μm thickness. The theoretical photoelectric conversion efficiency reaches up to 28-29%.
Minimal raw material usage and a simplified manufacturing process make this power generation glass highly competitive for large-scale production.
Unlike crystalline silicon, CdTe power generation glass does not suffer from light-induced degradation, ensuring consistent output over its lifecycle.
Our enterprise specializes in the R&D and production of cadmium telluride (CdTe) and perovskite thin-film solar cells. Focusing on BIPV (Building-Integrated Photovoltaics) and photovoltaic-powered consumer electronics, we target diverse applications such as centralized systems, urban renewal projects, and renewable energy vehicles.
Our R&D team has established dedicated laboratories achieving breakthroughs in high-efficiency, low-cost inverted perovskite cells and advanced thin-film deposition instruments like CSS and VTD.
