Transparent p‐NiO/n‐ZnO diodes used in circuit rectifiers

Abstract: We report on the fabrication of a transparent photostable cell circuit composed of drive and resistor diodes which are face‐to‐face connected to each other with different device area. The diodes consisted of e‐beam evaporated p‐NiO on sputter‐deposited n‐ZnO for p/n diode formation on indium‐tin‐oxide glass. Our transparent diodes show photostable rectifying behavior, about 103 on/off current ratio and even dynamic rectification at a maximum frequency of 100 Hz AC input signal in ambient light. The noticeable … Show more

“…We obtained a carrier concentration ( N ) for the AgI thin films of −1.7(6) × 10 13 cm –3 , conductivity (ρ) of 7.00(4) × 10 –3 Ω –1 m –1 , and a mobility (μ) of 5(1) × 10 1 cm 2 V –1 s. For the CuI thin films, we obtained N = 2.43(1) × 10 18 cm –3 , ρ = 3.201(9) × 10 –1 Ω –1 m –1 , and μ = 8.01(2) cm 2 V –1 s, which are comparable to previous data in Table S1. Further effects of the AgI–CuI diode include the points of vanishing current flow, which deviate from zero bias by approximately 0.2 V. The on/off ratio was achieved using the current at V = +2 V divided by the absolute value of the current at V = −2 V. The on/off ratio of the n-AgI/p-CuI diodes was 9.4 × 10 4 , comparable to that of the transparent heterojunction diodes such as p-CuI/n-ZnO, p-NiO x /n-TiO x , and p-NiO/n-ZnO. − The ideality factor was estimated to be η = 1.00(9) via a linear fit in a ln ( J ) versus V ( V ) plot in the +0.2 V ≤ V ≤ +0.5 V regime, indicating a range between η = 1 (diffusion current) and η = 2 (recombination–generation).…”

Air-Stable Transparent Silver Iodide–Copper Iodide Heterojunction Diode

“…We obtained a carrier concentration ( N ) for the AgI thin films of −1.7(6) × 10 13 cm –3 , conductivity (ρ) of 7.00(4) × 10 –3 Ω –1 m –1 , and a mobility (μ) of 5(1) × 10 1 cm 2 V –1 s. For the CuI thin films, we obtained N = 2.43(1) × 10 18 cm –3 , ρ = 3.201(9) × 10 –1 Ω –1 m –1 , and μ = 8.01(2) cm 2 V –1 s, which are comparable to previous data in Table S1. Further effects of the AgI–CuI diode include the points of vanishing current flow, which deviate from zero bias by approximately 0.2 V. The on/off ratio was achieved using the current at V = +2 V divided by the absolute value of the current at V = −2 V. The on/off ratio of the n-AgI/p-CuI diodes was 9.4 × 10 4 , comparable to that of the transparent heterojunction diodes such as p-CuI/n-ZnO, p-NiO x /n-TiO x , and p-NiO/n-ZnO. − The ideality factor was estimated to be η = 1.00(9) via a linear fit in a ln ( J ) versus V ( V ) plot in the +0.2 V ≤ V ≤ +0.5 V regime, indicating a range between η = 1 (diffusion current) and η = 2 (recombination–generation).…”

Air-Stable Transparent Silver Iodide–Copper Iodide Heterojunction Diode

“…Transparent p-n heterojunctions have been widely studied due to their promising applications in optoelectronics [1] and microelectronics [2,3]. Heterojunction photodetectors (PD) are mainly developed using vacuum-based techniques such as evaporation or sputtering.…”

Solution-route low-temperature fabrication of thin-film p-n junctions

Effect of ZnO layer thickness upon optoelectrical properties of NiO/ ZnO heterojunction prepared at room temperature