Publication detail
Addressing ambient stability challenges in pure FASnI3 perovskite solar cells through organic additive engineering
Galve-Lahoz, S. Sánchez-Diaz, J. Echeverria-Arrondo, C. Simancas, J. Rodriguez-Pereira, J. Turren-Cruz, SH. Martinez-Pastor, JP. Mora-Seró, I. Delgado, JL.
Original Title
Addressing ambient stability challenges in pure FASnI3 perovskite solar cells through organic additive engineering
Type
journal article in Web of Science
Language
English
Original Abstract
Tin halide perovskite solar cells (Sn-PSCs) have emerged as promising alternatives to their lead-based counterparts. However, their potential for commercialization is threatened by their inherent stability issues and lower efficiencies that have not yet matched those of established technologies. Therefore, in this work we strategically designed and synthesized two novel organic compounds, referred to as OM4 and OM6, which have been successfully incorporated as additives into pure FASnI(3) PSCs enhancing the crystal properties and simultaneously acting as protective and passivating agents. Through a systematic exploration of chemical interactions, OM4 and OM6 demonstrated a remarkable ability to improve film morphology and optical properties. Consequently, both additives significantly contributed to the enhancement of the overall device performances and exhibited impressive stabilities in the ambient atmosphere, which is attributed to their hydrophobic nature. Notably, the unencapsulated devices incorporating OM4 and OM6 retained over 80% and 90% of their initial power conversion efficiency (PCE) after 250 hours in the ambient atmosphere at RH = 30%, respectively; in contrast, the devices without any of the organic additives suffered complete degradation after 72 hours under the same conditions. As a result, this work opens new possibilities in the rational design and development of organic additives capable of mitigating the instability and low-performance issues commonly associated with Sn-PSCs.
Keywords
TIN HALIDE PEROVSKITES; HIGHLY EFFICIENT; LEAD; PERFORMANCE; LIGHT; CRYSTALLIZATION; DEGRADATION; MOBILITIES; MECHANISM; OXIDATION
Authors
Galve-Lahoz, S.; Sánchez-Diaz, J.; Echeverria-Arrondo, C.; Simancas, J.; Rodriguez-Pereira, J.; Turren-Cruz, SH.; Martinez-Pastor, JP.; Mora-Seró, I.; Delgado, JL.
Released
20. 8. 2024
Publisher
ROYAL SOC CHEMISTRY
Location
CAMBRIDGE
ISBN
2050-7496
Periodical
Journal of Materials Chemistry A
Year of study
12
Number
33
State
United Kingdom of Great Britain and Northern Ireland
Pages from
21933
Pages to
21943
Pages count
11
URL
BibTex
@article{BUT189915,
author="Galve-Lahoz, S. and Sánchez-Diaz, J. and Echeverria-Arrondo, C. and Simancas, J. and Rodriguez-Pereira, J. and Turren-Cruz, SH. and Martinez-Pastor, JP. and Mora-Seró, I. and Delgado, JL.",
title="Addressing ambient stability challenges in pure FASnI3 perovskite solar cells through organic additive engineering",
journal="Journal of Materials Chemistry A",
year="2024",
volume="12",
number="33",
pages="21933--21943",
doi="10.1039/d4ta03291h",
issn="2050-7496",
url="https://pubs.rsc.org/en/content/articlelanding/2024/ta/d4ta03291h"
}