The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells

Yiwen Wang; Joel Luke; Alberto Privitera; Nicolas Rolland; Chiara Labanti; Giacomo Londi; Vincent Lemaur; Daniel T.W. Toolan; Alexander J. Sneyd; Soyeong Jeong; Deping Qian; Yoann Olivier; Lorenzo Sorace; Ji Seon Kim; David Beljonne; Zhe Li; Alexander J. Gillett

doi:10.1016/j.joule.2023.03.002

The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells

Yiwen Wang, Joel Luke, Alberto Privitera, Nicolas Rolland, Chiara Labanti, Giacomo Londi, Vincent Lemaur, Daniel T.W. Toolan, Alexander J. Sneyd, Soyeong Jeong, Deping Qian, Yoann Olivier, Lorenzo Sorace, Ji Seon Kim, David Beljonne, Zhe Li, Alexander J. Gillett

Namur Institute of Structured Matter

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

Résumé

The poor operational stability of non-fullerene electron acceptor (NFA) organic solar cells (OSCs) currently limits their commercial application. While previous studies have primarily focused on the degradation of the NFA component, we also consider here the electron donor material. We examine the stability of three representative donor polymers, PM6, D18, and PTQ10, paired with the benchmark NFA, Y6. After light soaking PM6 and D18 in air, we find an enhanced conversion of singlet excitons into trapped interchain polaron pairs on sub-100 femtosecond timescales. This process outcompetes electron transfer to Y6, significantly reducing the charge generation yield. However, this pathway is absent in PTQ10. We identify twisting in the benzo[1,2-b:4,5-b′]dithiophene (BDT)-thiophene motif shared by PM6 and D18 as the cause. By contrast, PTQ10 does not contain this structural motif and has improved stability. Thus, we show that the donor polymer can be a weak link for OSC stability, which must be addressed collectively with the NFA.

langue originale	Anglais
Pages (de - à)	810-829
Nombre de pages	20
journal	Joule
Volume	7
Numéro de publication	4
Les DOIs	https://doi.org/10.1016/j.joule.2023.03.002
Etat de la publication	Publié - 19 avr. 2023

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10.1016/j.joule.2023.03.002

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Wang, Y., Luke, J., Privitera, A., Rolland, N., Labanti, C., Londi, G., Lemaur, V., Toolan, D. T. W., Sneyd, A. J., Jeong, S., Qian, D., Olivier, Y., Sorace, L., Kim, J. S., Beljonne, D., Li, Z., & Gillett, A. J. (2023). The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells. Joule, 7(4), 810-829. https://doi.org/10.1016/j.joule.2023.03.002

@article{52681375a1714edb9d9e0a8c59698dac,

title = "The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells",

abstract = "The poor operational stability of non-fullerene electron acceptor (NFA) organic solar cells (OSCs) currently limits their commercial application. While previous studies have primarily focused on the degradation of the NFA component, we also consider here the electron donor material. We examine the stability of three representative donor polymers, PM6, D18, and PTQ10, paired with the benchmark NFA, Y6. After light soaking PM6 and D18 in air, we find an enhanced conversion of singlet excitons into trapped interchain polaron pairs on sub-100 femtosecond timescales. This process outcompetes electron transfer to Y6, significantly reducing the charge generation yield. However, this pathway is absent in PTQ10. We identify twisting in the benzo[1,2-b:4,5-b′]dithiophene (BDT)-thiophene motif shared by PM6 and D18 as the cause. By contrast, PTQ10 does not contain this structural motif and has improved stability. Thus, we show that the donor polymer can be a weak link for OSC stability, which must be addressed collectively with the NFA.",

keywords = "electron paramagnetic resonance spectroscopy, material degradation, non-fullerene electron acceptor, organic solar cell, polaron pairs, Raman spectroscopy, stability, transient absorption spectroscopy",

author = "Yiwen Wang and Joel Luke and Alberto Privitera and Nicolas Rolland and Chiara Labanti and Giacomo Londi and Vincent Lemaur and Toolan, {Daniel T.W.} and Sneyd, {Alexander J.} and Soyeong Jeong and Deping Qian and Yoann Olivier and Lorenzo Sorace and Kim, {Ji Seon} and David Beljonne and Zhe Li and Gillett, {Alexander J.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = apr,

day = "19",

doi = "10.1016/j.joule.2023.03.002",

language = "English",

volume = "7",

pages = "810--829",

journal = "Joule",

issn = "2542-4351",

publisher = "Cell Press",

number = "4",

}

Wang, Y, Luke, J, Privitera, A, Rolland, N, Labanti, C, Londi, G, Lemaur, V, Toolan, DTW, Sneyd, AJ, Jeong, S, Qian, D, Olivier, Y, Sorace, L, Kim, JS, Beljonne, D, Li, Z & Gillett, AJ 2023, 'The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells', Joule, VOL. 7, Numéro 4, p. 810-829. https://doi.org/10.1016/j.joule.2023.03.002

TY - JOUR

T1 - The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells

AU - Wang, Yiwen

AU - Luke, Joel

AU - Privitera, Alberto

AU - Rolland, Nicolas

AU - Labanti, Chiara

AU - Londi, Giacomo

AU - Lemaur, Vincent

AU - Toolan, Daniel T.W.

AU - Sneyd, Alexander J.

AU - Jeong, Soyeong

AU - Qian, Deping

AU - Olivier, Yoann

AU - Sorace, Lorenzo

AU - Kim, Ji Seon

AU - Beljonne, David

AU - Li, Zhe

AU - Gillett, Alexander J.

PY - 2023/4/19

Y1 - 2023/4/19

N2 - The poor operational stability of non-fullerene electron acceptor (NFA) organic solar cells (OSCs) currently limits their commercial application. While previous studies have primarily focused on the degradation of the NFA component, we also consider here the electron donor material. We examine the stability of three representative donor polymers, PM6, D18, and PTQ10, paired with the benchmark NFA, Y6. After light soaking PM6 and D18 in air, we find an enhanced conversion of singlet excitons into trapped interchain polaron pairs on sub-100 femtosecond timescales. This process outcompetes electron transfer to Y6, significantly reducing the charge generation yield. However, this pathway is absent in PTQ10. We identify twisting in the benzo[1,2-b:4,5-b′]dithiophene (BDT)-thiophene motif shared by PM6 and D18 as the cause. By contrast, PTQ10 does not contain this structural motif and has improved stability. Thus, we show that the donor polymer can be a weak link for OSC stability, which must be addressed collectively with the NFA.

AB - The poor operational stability of non-fullerene electron acceptor (NFA) organic solar cells (OSCs) currently limits their commercial application. While previous studies have primarily focused on the degradation of the NFA component, we also consider here the electron donor material. We examine the stability of three representative donor polymers, PM6, D18, and PTQ10, paired with the benchmark NFA, Y6. After light soaking PM6 and D18 in air, we find an enhanced conversion of singlet excitons into trapped interchain polaron pairs on sub-100 femtosecond timescales. This process outcompetes electron transfer to Y6, significantly reducing the charge generation yield. However, this pathway is absent in PTQ10. We identify twisting in the benzo[1,2-b:4,5-b′]dithiophene (BDT)-thiophene motif shared by PM6 and D18 as the cause. By contrast, PTQ10 does not contain this structural motif and has improved stability. Thus, we show that the donor polymer can be a weak link for OSC stability, which must be addressed collectively with the NFA.

KW - electron paramagnetic resonance spectroscopy

KW - material degradation

KW - non-fullerene electron acceptor

KW - organic solar cell

KW - polaron pairs

KW - Raman spectroscopy

KW - stability

KW - transient absorption spectroscopy

UR - http://www.scopus.com/inward/record.url?scp=85153521746&partnerID=8YFLogxK

U2 - 10.1016/j.joule.2023.03.002

DO - 10.1016/j.joule.2023.03.002

M3 - Article

AN - SCOPUS:85153521746

SN - 2542-4351

VL - 7

SP - 810

EP - 829

JO - Joule

JF - Joule

IS - 4

ER -

The critical role of the donor polymer in the stability of high-performance non-fullerene acceptor organic solar cells

Résumé

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