Single-Crystal CdTe Homojunction Structures for Solar Cell Applications

We report two different CdTe homojunction solar cell structures. Single-crystal CdTe homojunction solar cells were grown on GaAs single-crystal substrates by metalorganic chemical vapor deposition. Arsenic and iodine were used as dopants for p-type and n-type CdTe, respectively. Another homojunction solar cell structure was fabricated by growing n-type CdTe directly on bulk p-type CdTe single-crystal substrates. The electrical properties of the different layers were characterized by Hall measurements. When arsine was used as arsenic source, the highest hole concentration was similar to 6 x 10(16) cm(-3) and the activation efficiency was similar to 3%. Very abrupt arsenic doping profiles were observed by secondary ion mass spectrometry. For n-type CdTe with a growth temperature of 250 degrees C and a high Cd/Te ratio the electron concentration was similar to 4.5 x 10(16) cm(-3). Because of the 300 nm thick n-type CdTe layer, the short circuit current of the solar cell grown on the bulk CdTe substrate was less than 10 mA/cm(2). The open circuit voltage of the device was 0.86 V. According to a prediction based on measurement of short circuit current density (J(sc)) as a function of open circuit voltage (V-oc), an open circuit voltage of 0.92 V could be achieved by growing CdTe solar cells on bulk CdTe substrates.