Enhancing the Photovoltaic Performance of Cd(1−x)ZnxS Thin Films Using Seed Assistance and EDTA Treatment

Micro Pub Date : 2023-11-12 DOI:10.3390/micro3040059

Gayan W. C. Kumarage, Ruwan P. Wijesundera, Elisabetta Comini, Buddhika S. Dassanayake

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Abstract

This research article provides a comprehensive investigation into the optoelectronic characteristics of three distinct types of cadmium sulfide (CdS) thin films, namely: (a) conventionally prepared CdS thin films using chemical bath deposition (CBD-CdS), (b) CdS thin films produced via chemical bath deposition with the inclusion of zinc (CBD-Cd(1−x)ZnxS, x = 0.3), and (c) CdS thin films synthesized using a seed-assisted approach, treated with ethylenediaminetetraacetic acid (EDTA), and incorporating zinc (ED/CBD + EDTA-Cd(1−x)ZnxS). The investigation reveals that the crystallite size of these thin films decreases upon the addition of EDTA to the reaction solution, leading to an increase in the inter-planar spacing and dislocation density. Furthermore, a blue shift in the transmittance edge of the ED/CBD + EDTA-Cd(1−x)ZnxS samples compared to CBD-CdS implies modifications in the band gaps of the deposited films. The incorporation of Zn2+ into the reaction solution results in an increased band gap value of up to 2.42 eV. This suggests that Cd(1−x)ZnxS thin films permit more efficient photon transmission compared to conventional CdS. Among the three types of films studied, ED/CBD + EDTA-Cd(1−x)ZnxS exhibits the highest optical band gap of 2.50 eV. This increase in the optical band gap is attributed to the smaller crystallite size and the splitting of the tail levels from the band structure. Additionally, the increment in the optical band gap leads to reduced light absorption at longer wavelengths, thereby enhancing the electrical properties. Notably, ED/CBD + EDTA-Cd(1−x)ZnxS thin films demonstrate improved photovoltaic performance in a photoelectrochemical (PEC) cell, characterized by enhanced open-circuit voltage (363 mV, VOC), short-circuit current (35.35 μA, ISC), and flat-band voltage (−692 mV, Vfb). These improvements are attributed to the better adhesion of CdS to the fluorine-doped tin oxide (FTO) substrate and improved inter-particle connectivity.

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利用种子辅助和EDTA处理提高Cd(1−x)ZnxS薄膜的光电性能

本文全面研究了三种不同类型的硫化镉(cd)薄膜的光电特性，即:(a)采用化学浴沉积法常规制备的CdS薄膜(CBD-CdS)， (b)采用化学浴沉积法制备含锌的CdS薄膜(CBD- cd(1−x)ZnxS, x = 0.3)，以及(c)采用种子辅助方法合成的CdS薄膜，用乙二胺四乙酸(EDTA)处理，并加入锌(ED/CBD + EDTA- cd(1−x)ZnxS)。研究表明，EDTA的加入使薄膜的晶粒尺寸减小，从而导致薄膜的面间距和位错密度增大。此外，与CBD- cds相比，ED/CBD + EDTA-Cd(1−x)ZnxS样品的透射率边缘出现了蓝移，这意味着沉积膜的带隙发生了改变。在反应溶液中加入Zn2+后，带隙值增加到2.42 eV。这表明与传统Cd相比，Cd(1−x)ZnxS薄膜允许更有效的光子传输。在三种薄膜中，ED/CBD + EDTA-Cd(1−x)ZnxS具有最高的光学带隙，为2.50 eV。光学带隙的增加归因于较小的晶体尺寸和带结构尾部水平的分裂。此外，光学带隙的增加导致较长波长的光吸收减少，从而增强了电学性能。值得注意的是，ED/CBD + EDTA-Cd(1−x)ZnxS薄膜在光电化学(PEC)电池中的光电性能得到了改善，其特点是开路电压(363 mV, VOC)、短路电流(35.35 μA, ISC)和平带电压(- 692 mV, Vfb)均有所提高。这些改进是由于CdS与氟掺杂氧化锡(FTO)衬底的附着力更好，颗粒间连通性得到改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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