Electrical and photovoltaic properties of Cu-doped p-GaSe/n-InSe heterojunction

GaSe(Cu)/InSe heterojunctions have been formed by bringing the cleavage sur face of undoped n-InSe and Cu-doped p-GaSe into direct contact. Transport a nd phototransport properties are studied by the measurements of capacitance -voltage, current-voltage, and the spectral response of short-circuit curre nt. Moreover, the efficiency parameters under illumination are estimated by using the open-circuit voltage and short-circuit current. These characteri stics of GaSe(Cu)/InSe heterojunctions are compared with those of GaSe(Un)/ InSe heterojunctions fabricated by undoped p-GaSe and n-InSe. The series re sistance of GaSe(Cu)/InSe heterojunctions is found, the value of which is a bout 10(3) times lower than the corresponding value of GaSe(Un)/InSe hetero junctions. A short-circuit current density of 9.0 mA/cm(2) and an open- cir cuit voltage of 0.42 V on GaSe(Cu)/InSe heterojunctions are obtained under illumination of 120 mW/cm(2) of a halogen lamp. The short-circuit current o f GaSe(Cu)/InSe heterojunctions is about one order of magnitude lager than that of GaSe(Un)/InSe heterojunctions. These experimental results indicate that the low-resistivity of Cu-doped GaSe is effective for the electrical a nd photovoltaic properties of GaSe/InSe heterojunctions. (C) 2000 American Institute of Physics. [S0021-8979(00)03712-9].