Synthesis of ZnO Nanorod Using Hydrothermal Technique for Dye-Sensitized Solar Cell Application

Noorasid, Nur Syamimi; Arith, Faiz; Alias, Salina; Mustafa, Ahmad Nizamuddin Muhammad; Roslan, Harry Sucitra; Johari, Siti Halma; Rahim, Hazli Rafis Abdul; Ismail, Mohd Muzafar

doi:10.1007/978-981-16-0866-7_78

Cited by 7 publications

(4 citation statements)

References 19 publications

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“…102 Additionally, the study concluded that nanoowers and NRs exhibited superior photoluminescence, ultraviolet (UV) absorption, and an optimal bandgap. 103,104 NRs, in particular, demonstrated enhanced heat stability compared to nanoowers. Hence, it can be inferred that the hydrothermal approach enables the modication of nanomaterial structures in terms of size and shape.…”

Section: Hydrothermalmentioning

confidence: 99%

Dopant engineering for ZnO electron transport layer towards efficient perovskite solar cells

Zainal Abidin,

Arith,

Noorasid

et al. 2023

RSC Adv.

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Section: Hydrothermalmentioning

confidence: 99%

Dopant engineering for ZnO electron transport layer towards efficient perovskite solar cells

Zainal Abidin,

Arith,

Noorasid

et al. 2023

RSC Adv.

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“…The advantages that are suitable for OPVs application is high surface area, conductivity, and mechanical elasticity. Besides, GO wide bandgap (3.6 eV) can enhance the potential for utilization as an electron blocking layer [23]. GO as HTL in inverted PSC shows that GO has a suitable WF of -4.9 eV which accumulates efficient hole extractions from perovskite to GO.…”

Section: Graphene Oxide (Go)mentioning

confidence: 99%

Analysis of Inverted Planar Perovskite Solar Cells with Graphene Oxide as HTL using L9 OA Taguchi Method

Nur Aliesa Johari,

Nabilah Ahmad Jalaludin,

Fauziyah Salehuddin

et al. 2024

ARMNE

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In this work, the Taguchi Method approach is used to optimize graphene oxide (GO) as the hole transport layer (HTL) in inverted perovskite solar cells (IPSC). By using this method, the data from the numerical modelling Solar Cell Capacitance Simulator-One Dimensional (SCAPS-1D) was optimized. While it has distinct parameter results and diverse causes, it also takes a long time to complete the analysis process. The Taguchi method is reported to be able to find the most significant factor and reduce the parameter variations in less time. The Taguchi algorithm is used in this experiment because it is based on orthogonal array (OA) experiments, which provide a substantially smaller variance for the experiment with optimal control parameter values. SCAPS-1D software was used to simulate the IPSC with GO as HTL. The results obtained with the software are then analysed and compared with the performance of the solar cell. The final results show that the Taguchi Method optimized IPSC with GO as HTL achieved better Power Conversion Efficiency (PCE) compared to previous researchers, with the efficiency increasing from 18.53%.to 23.408%.

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“…Typically, the method uses high autoclaving temperatures of between 100-1000 • C and high pressures between 1-10,000 atmospheres. Noorasid et al [27] synthesized ZnO nanorods for use as the electron transport layer in a dye-sensitized solar cell using a hydrothermal method. In their study, they varied the time of the growth process to obtain a pristine layer of ZnO nanorods.…”

Section: Hydrothermal Synthesis Of Zno Nanostructuresmentioning

confidence: 99%

Influence of ZnO Nanostructure Morphologies on Perovskite Solar Cell Performance: A Review

Manabeng¹,

Mwankemwa²,

Ocaya³

et al. 2022

Preprint

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Zinc oxide (ZnO) has been widely studied over the last decade for its remarkable properties in optoelectronic and photovoltaic devices because of its high electron mobility and excitonic properties, probably the broadest range of nanostructured forms, and their ease and low cost of synthesis by a wide variety of methods. The volume of recent work on ZnO nanostructures and their devices can potentially overshadow significant developments in the field. Therefore, there is a need for a concise description of the most recent advances in the field. In this review, we focus on the effect of ZnO nanostructure morphologies on the performance of ZnO-based solar cells sensitized using methylammonium lead iodide perovskite. We present an exhaustive discussion of the synthesis routes for different ZnO nanostructure morphologies, ways to control the morphology, and the impact of morphology on the photo-conversion efficiency of a given PSC.

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Synthesis of ZnO Nanorod Using Hydrothermal Technique for Dye-Sensitized Solar Cell Application

Cited by 7 publications

References 19 publications

Dopant engineering for ZnO electron transport layer towards efficient perovskite solar cells

Dopant engineering for ZnO electron transport layer towards efficient perovskite solar cells

Analysis of Inverted Planar Perovskite Solar Cells with Graphene Oxide as HTL using L9 OA Taguchi Method

Influence of ZnO Nanostructure Morphologies on Perovskite Solar Cell Performance: A Review

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