Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process

Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process

In perovskite solar cells (PSCs), the instability concern and complex synthesis process of organic hole transport layers (HTL) have led researchers to focus on widely available inorganic NiOx as an effective alternative. Herein, an eco-friendly and cost-effective green synthesis method has been impl...

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Main Authors: Islam M.A., Selvanathan V., Chelvanathan P., Haque M.M., Mottakin M., Alnaser I.A., Karim M.R., Ibrahim M.A., Suemasu T., Akhtaruzzaman M.
Other Authors: 57361246600
Format: Article
Published: Springer 2025
Subjects:
Calcination
Carbon films
Cost effectiveness
Crystallinity
Energy gap
Hole mobility
Morphology
Nickel oxide
Perovskite
Perovskite solar cells
Sol-gel process
Aloe vera
Calcination temperature
Eco-costs
Green synthesis
Hole transport layers
Inorganics
Organics
SCAPS-1D
Synthesis process
Thin-films
Thin films
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-368292025-03-03T15:44:59Z Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process Islam M.A. Selvanathan V. Chelvanathan P. Haque M.M. Mottakin M. Alnaser I.A. Karim M.R. Ibrahim M.A. Suemasu T. Akhtaruzzaman M. 57361246600 57160057200 35766323200 57217203359 57195305487 56741226700 56820318000 55843508000 7005897546 57195441001 Calcination Carbon films Cost effectiveness Crystallinity Energy gap Hole mobility Morphology Nickel oxide Perovskite Perovskite solar cells Sol-gel process Aloe vera Calcination temperature Eco-costs Green synthesis Hole transport layers Inorganics Organics SCAPS-1D Synthesis process Thin-films Thin films In perovskite solar cells (PSCs), the instability concern and complex synthesis process of organic hole transport layers (HTL) have led researchers to focus on widely available inorganic NiOx as an effective alternative. Herein, an eco-friendly and cost-effective green synthesis method has been implemented to fabricate the NiOx thin film using aloe vera (AV) leaf extract as a complexing agent and the effect of different calcination temperatures (300 �C, 400 �C and 500 �C) on the film?s properties have been thoroughly studied. XRD analysis has shown improved crystallinity in the films that were calcined at higher temperatures. Both Raman spectroscopy and EDX analysis have revealed the presence of low carbon content in all deposited thin films. The film calcined at 300 �C has shown the most favorable morphology that has been confirmed from the FESEM images. The band gap of the films has been shifted from 3.83 eV to 3.73 eV as the calcination temperature increased. Upon electrical characterizations, the film calcined at 500 �C has demonstrated the highest hole mobility (20.3 cm�/Vs). The results from numerical simulation have indicated that the PSC employing the NiOx HTL calcined at 500 �C exhibits the highest PCE, Voc and FF values of 16.04%, 1.70 V and 67.35%, respectively, while the film calcined at 300 �C results the highest Jsc (14.95 mA/cm�). (Figure presented.). ? The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024. Final 2025-03-03T07:44:59Z 2025-03-03T07:44:59Z 2024 Article 10.1007/s10971-023-06296-3 2-s2.0-85181513561 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85181513561&doi=10.1007%2fs10971-023-06296-3&partnerID=40&md5=b5416676becfd5e054ece8bd5dc0f0f5 https://irepository.uniten.edu.my/handle/123456789/36829 109 2 580 593 Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Calcination
Carbon films
Cost effectiveness
Crystallinity
Energy gap
Hole mobility
Morphology
Nickel oxide
Perovskite
Perovskite solar cells
Sol-gel process
Aloe vera
Calcination temperature
Eco-costs
Green synthesis
Hole transport layers
Inorganics
Organics
SCAPS-1D
Synthesis process
Thin-films
Thin films
spellingShingle Calcination
Carbon films
Cost effectiveness
Crystallinity
Energy gap
Hole mobility
Morphology
Nickel oxide
Perovskite
Perovskite solar cells
Sol-gel process
Aloe vera
Calcination temperature
Eco-costs
Green synthesis
Hole transport layers
Inorganics
Organics
SCAPS-1D
Synthesis process
Thin-films
Thin films
Islam M.A.
Selvanathan V.
Chelvanathan P.
Haque M.M.
Mottakin M.
Alnaser I.A.
Karim M.R.
Ibrahim M.A.
Suemasu T.
Akhtaruzzaman M.
Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
description In perovskite solar cells (PSCs), the instability concern and complex synthesis process of organic hole transport layers (HTL) have led researchers to focus on widely available inorganic NiOx as an effective alternative. Herein, an eco-friendly and cost-effective green synthesis method has been implemented to fabricate the NiOx thin film using aloe vera (AV) leaf extract as a complexing agent and the effect of different calcination temperatures (300 �C, 400 �C and 500 �C) on the film?s properties have been thoroughly studied. XRD analysis has shown improved crystallinity in the films that were calcined at higher temperatures. Both Raman spectroscopy and EDX analysis have revealed the presence of low carbon content in all deposited thin films. The film calcined at 300 �C has shown the most favorable morphology that has been confirmed from the FESEM images. The band gap of the films has been shifted from 3.83 eV to 3.73 eV as the calcination temperature increased. Upon electrical characterizations, the film calcined at 500 �C has demonstrated the highest hole mobility (20.3 cm�/Vs). The results from numerical simulation have indicated that the PSC employing the NiOx HTL calcined at 500 �C exhibits the highest PCE, Voc and FF values of 16.04%, 1.70 V and 67.35%, respectively, while the film calcined at 300 �C results the highest Jsc (14.95 mA/cm�). (Figure presented.). ? The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.
author2 57361246600
author_facet 57361246600
Islam M.A.
Selvanathan V.
Chelvanathan P.
Haque M.M.
Mottakin M.
Alnaser I.A.
Karim M.R.
Ibrahim M.A.
Suemasu T.
Akhtaruzzaman M.
format Article
author Islam M.A.
Selvanathan V.
Chelvanathan P.
Haque M.M.
Mottakin M.
Alnaser I.A.
Karim M.R.
Ibrahim M.A.
Suemasu T.
Akhtaruzzaman M.
author_sort Islam M.A.
title Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
title_short Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
title_full Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
title_fullStr Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
title_full_unstemmed Green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
title_sort green synthesis of nickel oxide hole transport layer via aloe vera extract-assisted sol-gel process
publisher Springer
publishDate 2025
_version_ 1825816246318268416

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