Enhanced diode performance in cadmium telluride–silicon nanowire heterostructures
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is the responsivity, J d is the dark current density at a given reverse bias, and q is the elementary charge of a single electron. Figure 7 (a) shows the spectral detectivity of fabricated devices. A relatively high degree of detectivity is obtained due to the low dark current in both heterojunction diodes. The detectivity was found to be higher for the CdTe thin film/Si nanowire heterojunction device as compared to the planar reference sample. The highest value of the detectivity was found to be 9 x 10 12 cm Hz 1/2 W -1 at 845 nm for the nanowire based device due to its higher photoresponse at this particular wavelength. The external quantum efficiency (EQE) of the fabricated heterojunction photodiodes was estimated using the relation [37], (4) , where R( ) is the photoresponsivity in A W -1 at a given wavelength of incident light and is the wavelength in nm. The obtained spectral EQE (%) curve is shown in Figure 7 (b). It was noticed that the EQE is higher for the nanowire based device than that of the planar control device over the entire wavelength range. The peak value of EQE was about 70% for the nanowire based device; whereas it was 10% for the planar device at a wavelength of 845 nm. The high EQE of the nanowire based device indicates the effect of enhanced light absorption within the Si nanowire arrays (as shown in Figure 6 (a)) resulting in effective electron-hole pair generation, separation in the junction, and transportation of the photogenerated charge carriers towards metallic contacts, and consequently efficient collection leading to a higher photocurrent. 20
nanowire arrays offers the effective absorption of light within a broader wave length range from 350 nm to 1100 nm. Three-dimensional nature of the p-n junction between the Si nanowires and CdTe thin film suppressed the lattice mismatch between these two complementary materials and allowed the deposition of highly crystalline CdTe film on the nanowires. Therefore, an improved spectral response in the whole visible and near-infrared range was observed for the heterojunction device with nanowires. We believe that the deposition of a higher quality complementary semiconductor CdTe thin film and the development of effective nanowire surface passivation could further improve the p-n junction quality leading to enhanced device performance of studied Si nanowire based heterojunction photodiodes. Yüklə 1,06 Mb. Dostları ilə paylaş:
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