Cadmium Dysprosium Photovoltaic Glass

How are inorganic thin-film photovoltaic (PV) cells fabricated?

Inorganic thin-film photovoltaic (PV) cells have been fabricated using the n -type cadmium sulfide (CdS) window and p -type cadmium telluride (CdTe) absorber layers. This work combines significant literature with new results from a research programme including electroplated and chemical bath deposited CdTe and CdS, respectively.

Does window integrated semi-transparent photovoltaic glazing improve building energy performance?

The design factors of window integrated semi-transparent photovoltaic (STPV) glazing were evaluated using an innovative approach (combined optical, electrical and energy model) for their effects on building energy performance and luminous environment quality when subjected to varying climate conditions.

Are CdS/CdTe films suitable for photovoltaic applications?

The optical performance in terms of transmittance and PL spectra suggests that these films are suitable for photovoltaic (PV) applications. The results of HRTEM study confirm that CdS/CdTe particles are in circular shape with seed size (~3.2 nm).

How do different types of PV modules affect a glazing façade?

When integrating different types of PV modules into a building window or glazing façade, the variation of thermo-optical (e.g. emissivity, solar and visible) transmittance of the glazing material will affect the fraction of absorbed, transmitted and re-radiated solar radiation, as well as the amount of penetrating daylight.

Are thin-film PV technologies a real substitute for crystalline and multi-crystalline Si?

Thin-film PV technologies, especially based on the chalcogenide compounds (sulfides, selenides, and tellurides), are very well set to become a real substitute to traditional crystalline and multi-crystalline Si technologies owing to their flexibility, reasonable durability, and incrementing efficiencies [ 5 ].

Is CdTe a cadmium or tellurium?

CdTe is a stable semiconductor compound produced from cadmium (II group) and tellurium (VI group) with an optimum direct band-gap (E g = 1.45 eV) and higher absorption coefficient (10 5 cm − 1) that strongly absorbs the solar radiations in the visible wavelength range.