Temperature-dependent current–voltage characteristics of p-GaSe0.75S0.25/n-Si heterojunction

GaSe 0.75 S 0.25 having layered structure is a potential semiconductor compound for optoelectronics and two-dimensional materials technologies. Optical and structural measurements of the GaSe 0.75 S 0.25 thin film grown on the glass substrate showed that the compound has hexagonal structure and band...

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Veröffentlicht in:Applied physics. A, Materials science & processing Materials science & processing, 2023-08, Vol.129 (8), Article 538
Hauptverfasser: Isik, M., Surucu, O., Gasanly, N. M.
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Sprache:eng
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Zusammenfassung:GaSe 0.75 S 0.25 having layered structure is a potential semiconductor compound for optoelectronics and two-dimensional materials technologies. Optical and structural measurements of the GaSe 0.75 S 0.25 thin film grown on the glass substrate showed that the compound has hexagonal structure and band energy of 2.34 eV. GaSe 0.75 S 0.25 thin film was also grown on the silicon wafer and p -GaSe 0.75 S 0.25 / n -Si heterojunction was obtained. To make the electrical characterization of this diode, temperature-dependent current–voltage ( I – V ) measurements were carried out between 240 and 360 K. Room temperature ideality factor and barrier height of the device were determined from the analyses of I – V plot as 1.90 and 0.87 eV, respectively. Temperature-dependent plots of these electrical parameters showed that the ideality factor decreases from 2.19 to 1.77, while barrier height increases to 0.94 from 0.71 eV when the temperature was increased from 240 to 360 K. The conduction mechanism in the heterojunction was studied considering the Gaussian distribution due to presence of inhomogeneity in barrier height. The analyses presented the mean zero-bias barrier height, zero-bias standard deviation, and Richardson constant.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-023-06807-7