A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites

Coating the perovskite layer via a two-step method is an adaptable solution for industries compared to the anti-solvent process. But what about the impact of unreacted PbI(2)? Usually, it is generated during perovskite conversion in a two-step method and considered beneficial within the grain bounda...

Descripción completa

Detalles Bibliográficos
Autores principales: Huang, Yuanmei, Yu, Guoping, Khan, Danish, Wang, Shuanglin, Sui, Yujie, Yang, Xin, Zhuang, Yu, Tang, Jun, Gao, Huaxi, Xin, Ming, Aierken, Abuduwayiti, Tang, Zeguo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10608809/
https://www.ncbi.nlm.nih.gov/pubmed/37894599
http://dx.doi.org/10.3390/molecules28207120
_version_ 1785127865575014400
author Huang, Yuanmei
Yu, Guoping
Khan, Danish
Wang, Shuanglin
Sui, Yujie
Yang, Xin
Zhuang, Yu
Tang, Jun
Gao, Huaxi
Xin, Ming
Aierken, Abuduwayiti
Tang, Zeguo
author_facet Huang, Yuanmei
Yu, Guoping
Khan, Danish
Wang, Shuanglin
Sui, Yujie
Yang, Xin
Zhuang, Yu
Tang, Jun
Gao, Huaxi
Xin, Ming
Aierken, Abuduwayiti
Tang, Zeguo
author_sort Huang, Yuanmei
collection PubMed
description Coating the perovskite layer via a two-step method is an adaptable solution for industries compared to the anti-solvent process. But what about the impact of unreacted PbI(2)? Usually, it is generated during perovskite conversion in a two-step method and considered beneficial within the grain boundaries, while also being accused of enhancing the interface defects and nonradiative recombination. Several additives are mixed in PbI(2) precursors for the purpose of improving the perovskite crystallinity and hindering the Pb(2+) defects. Herein, in lieu of adding additives to the PbI(2), the effects of the PbI(2) residue via the electron transport layer/perovskite interface modification are explored. Consequently, by introducing artemisinin decorated with hydrophobic alkyl units and a ketone group, it reduces the residual PbI(2) and improves the perovskites’ crystallinity by coordinating with Pb(2+). In addition, artemisinin-deposited perovskite enhances both the stability and efficiency of perovskite solar cells by suppressing nonradiative recombination
format Online
Article
Text
id pubmed-10608809
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-106088092023-10-28 A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites Huang, Yuanmei Yu, Guoping Khan, Danish Wang, Shuanglin Sui, Yujie Yang, Xin Zhuang, Yu Tang, Jun Gao, Huaxi Xin, Ming Aierken, Abuduwayiti Tang, Zeguo Molecules Article Coating the perovskite layer via a two-step method is an adaptable solution for industries compared to the anti-solvent process. But what about the impact of unreacted PbI(2)? Usually, it is generated during perovskite conversion in a two-step method and considered beneficial within the grain boundaries, while also being accused of enhancing the interface defects and nonradiative recombination. Several additives are mixed in PbI(2) precursors for the purpose of improving the perovskite crystallinity and hindering the Pb(2+) defects. Herein, in lieu of adding additives to the PbI(2), the effects of the PbI(2) residue via the electron transport layer/perovskite interface modification are explored. Consequently, by introducing artemisinin decorated with hydrophobic alkyl units and a ketone group, it reduces the residual PbI(2) and improves the perovskites’ crystallinity by coordinating with Pb(2+). In addition, artemisinin-deposited perovskite enhances both the stability and efficiency of perovskite solar cells by suppressing nonradiative recombination MDPI 2023-10-17 /pmc/articles/PMC10608809/ /pubmed/37894599 http://dx.doi.org/10.3390/molecules28207120 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Huang, Yuanmei
Yu, Guoping
Khan, Danish
Wang, Shuanglin
Sui, Yujie
Yang, Xin
Zhuang, Yu
Tang, Jun
Gao, Huaxi
Xin, Ming
Aierken, Abuduwayiti
Tang, Zeguo
A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title_full A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title_fullStr A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title_full_unstemmed A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title_short A Functional Biological Molecule Restores the PbI(2) Residue-Induced Defects in Two-Step Fabricated Perovskites
title_sort functional biological molecule restores the pbi(2) residue-induced defects in two-step fabricated perovskites
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10608809/
https://www.ncbi.nlm.nih.gov/pubmed/37894599
http://dx.doi.org/10.3390/molecules28207120
work_keys_str_mv AT huangyuanmei afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT yuguoping afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT khandanish afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT wangshuanglin afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT suiyujie afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT yangxin afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT zhuangyu afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT tangjun afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT gaohuaxi afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT xinming afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT aierkenabuduwayiti afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT tangzeguo afunctionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT huangyuanmei functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT yuguoping functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT khandanish functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT wangshuanglin functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT suiyujie functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT yangxin functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT zhuangyu functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT tangjun functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT gaohuaxi functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT xinming functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT aierkenabuduwayiti functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites
AT tangzeguo functionalbiologicalmoleculerestoresthepbi2residueinduceddefectsintwostepfabricatedperovskites

Ejemplares similares