Optimal TiO2 Nanoparticles Electron Transporting Layer for Highly Efficient Ambient-atmosphere Fabricated Carbon-based Perovskite Solar Cells

IF 0.6 4区综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES

Chiang Mai Journal of Science Pub Date : 2023-11-30 DOI:10.12982/cmjs.2023.072

Warunee Khampa, Woraprom Passatorntaschakorn, Wongsathon Musikpan, A. Gardchareon, P. Ruankham, D. Wongratanaphisan

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Abstract

T he electron transporting layer (ETL) is a critical component for carbon-based planar Cs0.17FA0.83Pb(I0.83Br0.17)3 perovskite solar cells (C-PSCs), as it facilitates efficient charge transport between the perovskite material and the cathode. The low temperature processed TiO2 nanoparticles (TiO2 NPs) ETL (150°C) are widely employed in C-PSCs. However, the dispersion of commercial TiO2 NPs in colloid solution is often unstable, leading to particle agglomeration and sedimentation, which negatively affects the performance of C-PSCs. Therefore, it is crucial to achieve stable dispersion of TiO2 NPs in colloid solution before their application as ETL in C-PSCs. Furthermore, the surface properties of the TiO2 ETL such as the uniformity of film significantly impact the overall performance of C-PSCs. The objective of this study was to optimize the TiO2 ETL by investigating the dispersion of TiO2 NPs and varying their concentration in the solution for applying in ambient-atmosphere fabricated C-PSCs. The TiO2 NPs were dispersed in different solvents, including isopropanol, ethanol, and water. As a result, ethanol was the most effective solvent for dispersing TiO2 NPs, demonstrating the best dispersion stability. The concentration of TiO2 NPs in ethanol was then varied between 10-70 mg/ml. The results showed that the optimal concentration was 50 mg/ml, as it produced a high-quality ETL with a more uniform TiO2 film. This optimized TiO2 ETL in C-PSCs resulted in the highest power conversion efficiency (PCE) of 13.10% with FF, VOC, and JSC values of 65.50%, 1.02 V, and 19.52 mA/cm2, respectively.

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优化 TiO2 纳米粒子电子传输层，实现高效环境-大气制备碳基 Perovskite 太阳能电池

电子传输层（ETL）是碳基平面 Cs0.17FA0.83Pb(I0.83Br0.17)3 包晶体太阳能电池（C-PSCs）的关键部件，因为它能促进包晶体材料与阴极之间有效的电荷传输。低温加工的二氧化钛纳米粒子（TiO2 NPs）ETL（150°C）被广泛应用于 C-PSC 中。然而，商用 TiO2 NPs 在胶体溶液中的分散通常不稳定，会导致颗粒团聚和沉淀，从而对 C-PSC 的性能产生负面影响。因此，在将 TiO2 NPs 用作 C-PSC 中的 ETL 之前，实现其在胶体溶液中的稳定分散至关重要。此外，TiO2 ETL 的表面特性（如薄膜的均匀性）也会对 C-PSC 的整体性能产生重大影响。本研究的目的是通过研究TiO2 NPs的分散性和改变其在溶液中的浓度来优化TiO2 ETL，以便将其应用于在环境-大气中制造的C-PSC中。TiO2 NPs分散在不同的溶剂中，包括异丙醇、乙醇和水。结果表明，乙醇是分散 TiO2 NPs 最有效的溶剂，其分散稳定性最好。随后，TiO2 NPs 在乙醇中的浓度在 10-70 毫克/毫升之间变化。结果表明，最佳浓度为 50 毫克/毫升，因为它能产生高质量的 ETL，TiO2 薄膜更均匀。这种优化的 TiO2 ETL 在 C-PSC 中的功率转换效率（PCE）最高，达到 13.10%，FF、VOC 和 JSC 值分别为 65.50%、1.02 V 和 19.52 mA/cm2。

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来源期刊

Chiang Mai Journal of Science MULTIDISCIPLINARY SCIENCES-

CiteScore

1.00

自引率

25.00%

发文量

103

审稿时长

3 months

期刊介绍： The Chiang Mai Journal of Science is an international English language peer-reviewed journal which is published in open access electronic format 6 times a year in January, March, May, July, September and November by the Faculty of Science, Chiang Mai University. Manuscripts in most areas of science are welcomed except in areas such as agriculture, engineering and medical science which are outside the scope of the Journal. Currently, we focus on manuscripts in biology, chemistry, physics, materials science and environmental science. Papers in mathematics statistics and computer science are also included but should be of an applied nature rather than purely theoretical. Manuscripts describing experiments on humans or animals are required to provide proof that all experiments have been carried out according to the ethical regulations of the respective institutional and/or governmental authorities and this should be clearly stated in the manuscript itself. The Editor reserves the right to reject manuscripts that fail to do so.

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