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Zinc oxide (ZnO) is one of the best transparent conducting oxide (TCO) materials with a wide bandgap and good electrical and optical properties. Its low cost, nontoxicity and transparency in the optical region of the electromagnetic spectrum make it very promising candidate for solar cell applications. In this work, zinc acetate precursor was used to grow a ZnO thin film by using sol-gel spin-coating technique. The surface morphological study using scanning electron microscope (SEM) was carried out to confirm the growth pattern and crystal distribution. The optical properties, transmission (T), reflection (R), optical bandgap (Eg), refractive index (n), and extinction coefficient (k) were extracted and investigated to be used in the simulation of ZnO/Cu2O heterostructure solar cell, where ZnO thin film plays a double role: as the TCO window, as well as the emitter of the n-p junction. However, the solar cell showed weak external quantum efficiency (EQE) compared to those prepared by using zinc nitrate and diethyl zinc precursors. TCAD numerical simulation was used to clarify the origin of this weak EQE by taking into account two parameters. The first studied parameter is the root-mean-square interface roughness, RMS, in Haze modeling approach, H, which describes how much of incident light is scattered at the interface. The second studied parameter is the density of defects in the ZnO bulk with continuous distribution of states in its bandgap similar to an amorphous semiconductor made of tail bands and Gaussian distribution deep level bands. Consequently, and by adjusting and investigating the effect of the RMS and the constituents of the bandgap states, we were able to obtain a good agreement between simulated and measured EQE characteristics of the solar cell.

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Dependence of Structural and Optical Properties of ZnO Thin Films Grown by Sol–Gel Spin-Coating Technique on Solution Molarity

Chala

Bdirina

Elbar

et al. 2022

Trans. Electr. Electron. Mater.

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Effect of multiwall carbon nanotube (MWCNT) content on thermal and structural properties enhancement of FeCu–MWCNT nanocomposites synthesized by high-energy ball milling

et al. 2020

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Influence of the Carbon Allotropes on Dilatometric Properties of the Fe–Cu Nanocomposites

Bouleklab

Hamamda

Naoui

et al. 2020

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Thermostructural properties of the Al + 1.5% MWCNT nanocomposite

et al. 2023

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Influence of the MWCNTs on the properties of the HDPE + X% MWCNTs nanocomposites

Khelil

Barama²,

Naoui³

et al. 2023

Appl Nanosci

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Synthesis and characterization of Al+0.25%MWCNTs nanocomposite with reduced thermal expansion coefficient

Dorbani

Bouleklab

Settar

et al. 2022

Journal of Materials Research and Technology

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Thermal expansion of the iron – copper composites incorporated with carbon nanotubes

Bouleklab¹,

Hamamda²,

Naoui³

et al. 2019

Energy and automation

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Університет імені братів Ментурі Константіне 1, Алжир В. В. Бойко, кандидат фізико-математичних наук, доцент Національний університет біоресурсів та природокористування України К. І. Іваненко, кандидат фізико-математичних наук С. Л. Рево, доктор фізико-математичних наук, професор С. Г. Неділько, доктор фізико-математичних наук, старший науковий співробітник Київський національний університет імені Тараса Шевченка В. І. Шелудько, кандидат фізико-математичних наук, доцент Глухівський національний педагогічний університет ім. О. Довженка

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Y. Naoui

Synthesis and Characterization of ZnO Thin Film for Modeling the Effect of Its Defects on ZnO/Cu2O Solar Cell EQE

Dependence of Structural and Optical Properties of ZnO Thin Films Grown by Sol–Gel Spin-Coating Technique on Solution Molarity

Effect of multiwall carbon nanotube (MWCNT) content on thermal and structural properties enhancement of FeCu–MWCNT nanocomposites synthesized by high-energy ball milling

Influence of the Carbon Allotropes on Dilatometric Properties of the Fe–Cu Nanocomposites

Thermostructural properties of the Al + 1.5% MWCNT nanocomposite

Influence of the MWCNTs on the properties of the HDPE + X% MWCNTs nanocomposites

Synthesis and characterization of Al+0.25%MWCNTs nanocomposite with reduced thermal expansion coefficient

Thermal expansion of the iron – copper composites incorporated with carbon nanotubes

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