Enhancement of Photo-Electrical Properties of CdS Thin Films: Effect of N2 Purging and N2 Annealing

Electronic Materials Pub Date : 2024-03-13 DOI:10.3390/electronicmat5010003

Gayan K. L. Sankalpa, Gayan R. K. K. G. R. Kumarasinghe, B. Dassanayake, Gayan W. C. Kumarage

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Abstract

The impact of N2 purging in the CdS deposition bath and subsequent N2 annealing is examined and contrasted with conventional CdS films, which were deposited without purging and annealed in ambient air. All films were fabricated using the chemical bath deposition method at a temperature of 80 °C on fluorine-doped tin oxide glass slides (FTO). N2 purged films were deposited by introducing nitrogen gas into the deposition bath throughout the CdS deposition process. Subsequently, both N2 purged and un-purged films underwent annealing at temperatures ranging from 100 to 500 °C for one hour, either in a nitrogen or ambient air environment. Photoelectrochemical (PEC) cell studies reveal that films subjected to both N2 purging and N2 annealing exhibit a notable enhancement of 37.5% and 27% in ISC (short-circuit current) and VOC (open-circuit voltage) values, accompanied by a 5% improvement in optical transmittance compared to conventional CdS thin films. The films annealed at 300 °C demonstrate the highest ISC, VOC, and VFB values, 55 μA, 0.475 V, and −675 mV, respectively. The improved optoelectrical properties in both N2-purged and N2-annealed films are attributed to their well-packed structure, enhanced interconnectivity, and a higher sulfur to cadmium ratio of 0.76 in the films.

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增强 CdS 薄膜的光电特性：氮气吹扫和氮气退火的影响

我们研究了在 CdS 沉积槽中进行 N2 吹扫以及随后进行 N2 退火的影响，并将其与传统的 CdS 薄膜进行了对比，后者是在没有吹扫的情况下沉积并在环境空气中退火的。所有薄膜都是在掺氟氧化锡玻璃片（FTO）上用化学沉积浴法在 80 ℃ 的温度下制作的。在整个 CdS 沉积过程中，通过向沉积槽中引入氮气来沉积 N2 吹扫薄膜。随后，在氮气或环境空气环境中，氮气净化和未净化薄膜都在 100 至 500 °C 的温度下退火一小时。光电化学（PEC）电池研究表明，与传统的 CdS 薄膜相比，经过 N2 吹扫和 N2 退火处理的薄膜的 ISC（短路电流）和 VOC（开路电压）值分别显著提高了 37.5% 和 27%，同时透光率也提高了 5%。在 300 °C 下退火的薄膜具有最高的 ISC、VOC 和 VFB 值，分别为 55 μA、0.475 V 和 -675 mV。氮气净化和氮气退火薄膜的光电特性都得到了改善，这要归功于其良好的堆积结构、增强的互联性以及薄膜中较高的硫镉比 0.76。

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来源期刊

Electronic Materials

CiteScore

2.80

自引率

0.00%

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