Abdelhalim Zekry scite author profile

In this paper, an analytical model of a proposed low-cost high efficiency NPN silicon-based solar cell structure is presented. The structure is based on using low cost heavily doped commercially available silicon wafers and proposed to be fabricated by the same steps as the conventional solar cells except an extra deep trench etch step. Moreover, the cell has been engineered to react to the UV spectrum, resulting in a greater conversion performance. The presented analytical model takes the electrical and optical characteristics into account. Thus, the influence of both physical and technological parameters on the structure performance could be easily examined. Consequently, the optimization of the structure performance becomes visible. To inspect the validity of the analytical model, a comparison of the main performance parameters resulting from the model results with TCAD simulations is carried out showing good agreement.

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On the Investigation of Interface Defects of Solar Cells: Lead-Based vs Lead-Free Perovskite

Basyoni

Salah

Mousa

et al. 2021

IEEE Access

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Perovskite solar cells (PSCs) have drawn significant consideration as a competing solar cell technology because of the drastic advance in their power conversion efficiency (PCE) over the last two decades. The interfaces between the electron transport layer (ETL) and the absorber layer and between the absorber layer and the hole transport layer (HTL) have a major impact on the performance of the PSCs. In this paper, we have investigated the defect interfaces between ETL/absorber layer and absorber layer/HTL of calibrated experimental lead-based and lead-free PSCs. The influence of the defect interfaces is studied in order to find the optimum value for the maximum possible PCE. While the PCE has not been enhanced considerably for the lead-based, it is boosted from 1.76% to 5.35% for lead-free PSCs. Also, bulk traps were found to have minor role in comparison with interface traps for the lead-free cell while they have a significant impact for the lead-based cell. The results presented in this work would shed some light on designing interface defects of various types of practical PSC structures and demonstrates the crucial impact of the interface defects on lead-free vs lead-based PSCs. All simulation studies are performed by using SCAPS-1D simulator.

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Numerical study of organic graded bulk heterojunction solar cell using SCAPS simulation

et al. 2020

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Investigation of lead-free MASnI3-MASnIBr2 tandem solar cell: Numerical simulation

et al. 2022

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A Self-powered Wearable Wireless Sensor System Powered by a Hybrid Energy Harvester for Healthcare Applications

Mohsen

Zekry

Youssef

et al. 2020

Wireless Pers Commun

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Analysis of Hybrid Hetero-Homo Junction Lead-Free Perovskite Solar Cells by SCAPS Simulator

et al. 2021

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In this work, we report on the effect of substituting the active intrinsic i-layer on a conventional pin structure of lead-free perovskite solar cell (PSC) by a homo p-n junction, keeping the thickness of the active layer constant. It is expected that when the active i-layer is substituted by a p-n homo junction, one can increase the collection efficiency of the photo-generated electrons and holes due to the built-in electric field of the homo junction. The impact of the technological and physical device parameters on the performance parameters of the solar cell have been worked out. It was found that p-side thickness must be wider than the n-side, while its acceptor concentration should be slightly lower than the donor concentration of the n-side to achieve maximum efficiency. In addition, different absorber types, namely, i-absorber, n-absorber and p-absorber, are compared to the proposed pn-absorber, showing a performance-boosting effect when using the latter. Moreover, the proposed structure is made without a hole transport layer (HTL) to avoid the organic issues of the HTL materials. The back metal work function, bulk trap density and ETL material are optimized for best performance of the HTL-free structure, giving Jsc = 26.48, Voc = 0.948 V, FF = 77.20 and PCE = 19.37% for AM1.5 solar spectra. Such results highlight the prospective of the proposed structure and emphasize the importance of using HTL-free solar cells without deteriorating the efficiency. The solar cell is investigated by using SCAPS simulator.

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Influence of base doping level on the npn microstructure solar cell performance: A TCAD study

et al. 2021

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