Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances

Kunnummal Mangott Muhammed Salim; Loreta A. Muscarella; Imme Schuringa; Ramses Alejandro Miranda Gamboa; Jeevan Torres; Carlos Echeverría-Arrondo; Andrés F. Gualdrón-Reyes; Jhonatan Rodriguez-Pereira; Marina E. Rincon; Bruno Ehrler; Iván Mora-Seró; Sofia Masi

doi:10.1002/solr.202300892

Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances

Kunnummal Mangott Muhammed Salim, Loreta A. Muscarella, Imme Schuringa, Ramses Alejandro Miranda Gamboa, Jeevan Torres, Carlos Echeverría-Arrondo, Andrés F. Gualdrón-Reyes, Jhonatan Rodriguez-Pereira, Marina E. Rincon, Bruno Ehrler, Iván Mora-Seró^*, Sofia Masi^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The combination of inorganic PbS quantum dots (QDs) and lead halide perovskite in one nanocomposite is considered as a promising approach to overcoming the limitations of metastable perovskites. However, to date, only a few examples of improved optoelectronic perovskites are realized with such materials. One of the keys to unraveling the full potential offered by the PbS QDs/perovskite material is the ability to purposefully modulate the interfacial electronic energy levels by changing the PbS QDs capping shell. Herein, this approach to adjust the offsets of the energy levels of the perovskite is demonstrated. To prepare the perovskite films with embedded PbS QDs, the organic capping of QDs is exchanged by a halide perovskite shell. Film properties are correlated to the structural changes of the soft perovskite matrix and their optical properties. Interestingly, this approach can be used to adjust the energy levels in the whole nanocomposite film, without changing the original bandgap, and thus paves the way for novel functional materials for optoelectronic devices. The applicability of this method is exemplified by fabricating solar cells with the perovskite nanocomposite, observing that the introduction of PbS/FAPI QDs into FAPI matrix boosts the average performance from 17.9% to 18.9% (21.3% champion device).

Original language	English
Article number	2300892
Journal	Solar RRL
Volume	8
Issue number	5
DOIs	https://doi.org/10.1002/solr.202300892
Publication status	Published - Mar 2024

Bibliographical note

Publisher Copyright:
© 2024 Wiley-VCH GmbH.

Funding

This work was supported by Ministry of Science and Innovation of Spain MCIN/AEI/10.13039/501100011033/ and by FEDER "Una manera de hacer Europa" under Projects She-LED (PID2021-122960OA-I00) and Step-Up (TED2021-131600B-C31) and by Generalitat Valenciana via PROMETEO project Q-Solutions (CIPROM/2021/078). S.M. acknowledges financial support from MICINN (Spain) through the program Juan de la Cierva-Incorporacion IJC2020-042618-I. I.S. acknowledges OCENW.KLEIN.076, which was financed by the Dutch Research Council (NWO). R.A.M.G. acknowledges financial support from UNAM-Mexico.

Funders	Funder number
UNAM-México
Federación Española de Enfermedades Raras	PID2021‐122960OA‐I00, TED2021‐131600B‐C31
Federación Española de Enfermedades Raras
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
Generalitat Valenciana	CIPROM/2021/078
Generalitat Valenciana
Ministerio de Ciencia e Innovación	MCIN/AEI/10.13039/501100011033
Ministerio de Ciencia e Innovación

Keywords

capping shells
formamidinium lead iodide
methylammonium lead iodide
PbS quantum dots
performances
perovskite solar cells
stability

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Solar RRL - 2024 - Salim - Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot AdditiveFinal published version, 7.5 MB

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Salim, K. M. M., Muscarella, L. A., Schuringa, I., Miranda Gamboa, R. A., Torres, J., Echeverría-Arrondo, C., Gualdrón-Reyes, A. F., Rodriguez-Pereira, J., Rincon, M. E., Ehrler, B., Mora-Seró, I., & Masi, S. (2024). Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances. Solar RRL, 8(5), Article 2300892. https://doi.org/10.1002/solr.202300892

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title = "Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances",

abstract = "The combination of inorganic PbS quantum dots (QDs) and lead halide perovskite in one nanocomposite is considered as a promising approach to overcoming the limitations of metastable perovskites. However, to date, only a few examples of improved optoelectronic perovskites are realized with such materials. One of the keys to unraveling the full potential offered by the PbS QDs/perovskite material is the ability to purposefully modulate the interfacial electronic energy levels by changing the PbS QDs capping shell. Herein, this approach to adjust the offsets of the energy levels of the perovskite is demonstrated. To prepare the perovskite films with embedded PbS QDs, the organic capping of QDs is exchanged by a halide perovskite shell. Film properties are correlated to the structural changes of the soft perovskite matrix and their optical properties. Interestingly, this approach can be used to adjust the energy levels in the whole nanocomposite film, without changing the original bandgap, and thus paves the way for novel functional materials for optoelectronic devices. The applicability of this method is exemplified by fabricating solar cells with the perovskite nanocomposite, observing that the introduction of PbS/FAPI QDs into FAPI matrix boosts the average performance from 17.9% to 18.9% (21.3% champion device).",

keywords = "capping shells, formamidinium lead iodide, methylammonium lead iodide, PbS quantum dots, performances, perovskite solar cells, stability",

author = "Salim, {Kunnummal Mangott Muhammed} and Muscarella, {Loreta A.} and Imme Schuringa and {Miranda Gamboa}, {Ramses Alejandro} and Jeevan Torres and Carlos Echeverr{\'i}a-Arrondo and Gualdr{\'o}n-Reyes, {Andr{\'e}s F.} and Jhonatan Rodriguez-Pereira and Rincon, {Marina E.} and Bruno Ehrler and Iv{\'a}n Mora-Ser{\'o} and Sofia Masi",

note = "Publisher Copyright: {\textcopyright} 2024 Wiley-VCH GmbH.",

year = "2024",

month = mar,

doi = "10.1002/solr.202300892",

language = "English",

volume = "8",

journal = "Solar RRL",

issn = "2367-198X",

publisher = "Wiley-VCH Verlag",

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Salim, KMM, Muscarella, LA, Schuringa, I, Miranda Gamboa, RA, Torres, J, Echeverría-Arrondo, C, Gualdrón-Reyes, AF, Rodriguez-Pereira, J, Rincon, ME, Ehrler, B, Mora-Seró, I & Masi, S 2024, 'Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances', Solar RRL, vol. 8, no. 5, 2300892. https://doi.org/10.1002/solr.202300892

TY - JOUR

T1 - Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances

AU - Salim, Kunnummal Mangott Muhammed

AU - Muscarella, Loreta A.

AU - Schuringa, Imme

AU - Miranda Gamboa, Ramses Alejandro

AU - Torres, Jeevan

AU - Echeverría-Arrondo, Carlos

AU - Gualdrón-Reyes, Andrés F.

AU - Rodriguez-Pereira, Jhonatan

AU - Rincon, Marina E.

AU - Ehrler, Bruno

AU - Mora-Seró, Iván

AU - Masi, Sofia

PY - 2024/3

Y1 - 2024/3

N2 - The combination of inorganic PbS quantum dots (QDs) and lead halide perovskite in one nanocomposite is considered as a promising approach to overcoming the limitations of metastable perovskites. However, to date, only a few examples of improved optoelectronic perovskites are realized with such materials. One of the keys to unraveling the full potential offered by the PbS QDs/perovskite material is the ability to purposefully modulate the interfacial electronic energy levels by changing the PbS QDs capping shell. Herein, this approach to adjust the offsets of the energy levels of the perovskite is demonstrated. To prepare the perovskite films with embedded PbS QDs, the organic capping of QDs is exchanged by a halide perovskite shell. Film properties are correlated to the structural changes of the soft perovskite matrix and their optical properties. Interestingly, this approach can be used to adjust the energy levels in the whole nanocomposite film, without changing the original bandgap, and thus paves the way for novel functional materials for optoelectronic devices. The applicability of this method is exemplified by fabricating solar cells with the perovskite nanocomposite, observing that the introduction of PbS/FAPI QDs into FAPI matrix boosts the average performance from 17.9% to 18.9% (21.3% champion device).

AB - The combination of inorganic PbS quantum dots (QDs) and lead halide perovskite in one nanocomposite is considered as a promising approach to overcoming the limitations of metastable perovskites. However, to date, only a few examples of improved optoelectronic perovskites are realized with such materials. One of the keys to unraveling the full potential offered by the PbS QDs/perovskite material is the ability to purposefully modulate the interfacial electronic energy levels by changing the PbS QDs capping shell. Herein, this approach to adjust the offsets of the energy levels of the perovskite is demonstrated. To prepare the perovskite films with embedded PbS QDs, the organic capping of QDs is exchanged by a halide perovskite shell. Film properties are correlated to the structural changes of the soft perovskite matrix and their optical properties. Interestingly, this approach can be used to adjust the energy levels in the whole nanocomposite film, without changing the original bandgap, and thus paves the way for novel functional materials for optoelectronic devices. The applicability of this method is exemplified by fabricating solar cells with the perovskite nanocomposite, observing that the introduction of PbS/FAPI QDs into FAPI matrix boosts the average performance from 17.9% to 18.9% (21.3% champion device).

KW - capping shells

KW - formamidinium lead iodide

KW - methylammonium lead iodide

KW - PbS quantum dots

KW - performances

KW - perovskite solar cells

KW - stability

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M3 - Article

AN - SCOPUS:85182843963

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VL - 8

JO - Solar RRL

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M1 - 2300892

ER -

Tuning the Optical and Structural Properties of Halide Perovskite by PbS Quantum Dot Additive Engineering for Enhanced Photovoltaic Performances

Abstract

Bibliographical note

Funding

Keywords

Access to Document

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