Sarah McElvain scite author profile

Vapor transport deposition is being developed for high-rate synthesis of CdTe thin films. Films have been deposited at rates in excess of 20 μm/min. Thegrowth ratedependenceon source temperature yielded an apparent activation energy of 42 kcal/mol, in good agreement with the theoretical value for CdTe sublimation (45.7 kcal/mol). For substrate temperatures greater than 400°C the rate limiting step was resublimation. This phenomenon had a dramatic influence on morphology, although x-ray diffraction of all films indicated a strong (111) orientation. A preliminary device optimization investigating the effect of CdTe deposition temperature, post-deposition CdCl2 anneal parameters, alternative back contacts, and high-resistance buffer layers yielded a best cell with efficiency of 9.8% (704 mV Voc, 21.0mA/cm2 Jsc, 66% FF).

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Sarah McElvain

An experimental and modeling analysis of vapor transport deposition of cadmium telluride

Vapor Transport Deposition and Characterization of Polycrystalline CdTe Solar Absorbers

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