Developed performance of rGO/p-Si Schottky junction solar cells

Ahmed M. Suhail*, Mazin Ahmed Abed, Samer Mahmmod Ahmed, Israa M.S. Al-Kadmy, Hiyam Altaii, Genhua Pan

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Graphene in combination with Si has been extensively used to prepare efficient and stable p-graphene/n-Si Schottky junction solar cells. In contrast, there is a difficulty in including graphene within the fabrication process of efficient and stable n-graphene/p-Si Schottky junction solar cells. The reason for this is that there is a challenge in achieving an effective and stable n-doping process for graphene or rGO due to the ambient environment. In this work, a novel approach is introduced for preparing more efficient, stable, larger and simpler n-rGO/p-Si Schottky junction solar cells. The n-rGO rather than graphene, which has been successfully developed using NH3 molecules, is included in the fabrication process of n-rGO/p-Si Schottky junction solar cells. Accordingly, the power conversion efficiency of 9.7 was obtained for prepared devices after applying ammonia treatment for 3 h. For the first time, the developed n-rGO layers are also excellently employed to prepare large n-rGO/p-Si Schottky junction solar cells with ideal J-V curves. The improved efficiency of 12.6 % is reached for n-rGO/p-Si Schottky junction solar cells prepared with an active area of 0.6 cm2. To improve the stability, devices are coated with PMMA as an encapsulated layer, leading to an improvement in the stability for 2 months in the ambient air. Additionally, a recorded efficiency of 13.8 % is achieved. We attribute this development to the chemisorption of ammonia molecules on rGO, which effectively develops the performance of devices.
Original languageEnglish
Number of pages0
JournalCarbon Trends
Volume9
Issue number0
Early online date28 Aug 2022
DOIs
Publication statusPublished - Oct 2022

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