Improved photovoltaic performance and stability of perovskite solar cells by adoption of an n-type zwitterionic cathode interlayer

Young Wook Noh; Jung Min Ha; Jung Geon Son; Jongmin Han; Heunjeong Lee; Dae Woo Kim; Min Hun Jee; Woo Gyeong Shin; Shinuk Cho; Jin Young Kim; Myoung Hoon Song; Han Young Woo

doi:10.1039/d4mh00253a

Improved photovoltaic performance and stability of perovskite solar cells by adoption of an n-type zwitterionic cathode interlayer

Young Wook Noh
, Jung Min Ha
, Jung Geon Son
, Jongmin Han
, Heunjeong Lee
, Dae Woo Kim
, Min Hun Jee
, Woo Gyeong Shin
, Shinuk Cho
, Jin Young Kim
, Myoung Hoon Song^*
, Han Young Woo^*

^*Corresponding author for this work

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

9 Citations (Scopus)

Abstract

Recently, inverted perovskite solar cells (PeSCs) have witnessed significant advancements; however, their long-term stability remains a challenge because of the oxidation of silver cathodes to form AgI by mobile iodides. To overcome this problem, we propose the integration of an electron-deficient naphthalene diimide-based zwitterion (NDI-ZI) as the cathode interlayer. Compared to the physical ion-blocking layer, it effectively captures ions by forming ionic bonds via electrostatic Coulombic interaction to suppress the migration of iodide and Ag ions. The NDI-ZI interlayer also suppresses the shunt paths and modulates the work function of the Ag electrode by forming interface dipoles, thereby enhancing charge extraction. FA_0.85Cs_0.15PbI₃ based PeSCs incorporating NDI-ZI exhibited a noticeably high power conversion efficiency of up to 23.3% and outstanding stability, maintaining ∼80% of their initial performance over 1500 h at 85 °C and over 500 h under continuous 1-sun illumination. This study highlights the potential of a zwitterionic cathode interlayer in diverse perovskite optoelectronic devices, leading to their improved efficiency and stability.

Original language	English
Pages (from-to)	2926-2936
Number of pages	11
Journal	Materials Horizons
Volume	11
Issue number	12
DOIs	https://doi.org/10.1039/d4mh00253a
Publication status	Published - 2024 Mar 28

Bibliographical note

Publisher Copyright:
© 2024 The Royal Society of Chemistry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Process Chemistry and Technology
Electrical and Electronic Engineering

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10.1039/d4mh00253a

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title = "Improved photovoltaic performance and stability of perovskite solar cells by adoption of an n-type zwitterionic cathode interlayer",

abstract = "Recently, inverted perovskite solar cells (PeSCs) have witnessed significant advancements; however, their long-term stability remains a challenge because of the oxidation of silver cathodes to form AgI by mobile iodides. To overcome this problem, we propose the integration of an electron-deficient naphthalene diimide-based zwitterion (NDI-ZI) as the cathode interlayer. Compared to the physical ion-blocking layer, it effectively captures ions by forming ionic bonds via electrostatic Coulombic interaction to suppress the migration of iodide and Ag ions. The NDI-ZI interlayer also suppresses the shunt paths and modulates the work function of the Ag electrode by forming interface dipoles, thereby enhancing charge extraction. FA0.85Cs0.15PbI3 based PeSCs incorporating NDI-ZI exhibited a noticeably high power conversion efficiency of up to 23.3\% and outstanding stability, maintaining ∼80\% of their initial performance over 1500 h at 85 °C and over 500 h under continuous 1-sun illumination. This study highlights the potential of a zwitterionic cathode interlayer in diverse perovskite optoelectronic devices, leading to their improved efficiency and stability.",

author = "Noh, \{Young Wook\} and Ha, \{Jung Min\} and Son, \{Jung Geon\} and Jongmin Han and Heunjeong Lee and Kim, \{Dae Woo\} and Jee, \{Min Hun\} and Shin, \{Woo Gyeong\} and Shinuk Cho and Kim, \{Jin Young\} and Song, \{Myoung Hoon\} and Woo, \{Han Young\}",

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year = "2024",

month = mar,

day = "28",

doi = "10.1039/d4mh00253a",

language = "English",

volume = "11",

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T1 - Improved photovoltaic performance and stability of perovskite solar cells by adoption of an n-type zwitterionic cathode interlayer

AU - Noh, Young Wook

AU - Ha, Jung Min

AU - Son, Jung Geon

AU - Han, Jongmin

AU - Lee, Heunjeong

AU - Kim, Dae Woo

AU - Jee, Min Hun

AU - Shin, Woo Gyeong

AU - Cho, Shinuk

AU - Kim, Jin Young

AU - Song, Myoung Hoon

AU - Woo, Han Young

PY - 2024/3/28

Y1 - 2024/3/28

N2 - Recently, inverted perovskite solar cells (PeSCs) have witnessed significant advancements; however, their long-term stability remains a challenge because of the oxidation of silver cathodes to form AgI by mobile iodides. To overcome this problem, we propose the integration of an electron-deficient naphthalene diimide-based zwitterion (NDI-ZI) as the cathode interlayer. Compared to the physical ion-blocking layer, it effectively captures ions by forming ionic bonds via electrostatic Coulombic interaction to suppress the migration of iodide and Ag ions. The NDI-ZI interlayer also suppresses the shunt paths and modulates the work function of the Ag electrode by forming interface dipoles, thereby enhancing charge extraction. FA0.85Cs0.15PbI3 based PeSCs incorporating NDI-ZI exhibited a noticeably high power conversion efficiency of up to 23.3% and outstanding stability, maintaining ∼80% of their initial performance over 1500 h at 85 °C and over 500 h under continuous 1-sun illumination. This study highlights the potential of a zwitterionic cathode interlayer in diverse perovskite optoelectronic devices, leading to their improved efficiency and stability.

AB - Recently, inverted perovskite solar cells (PeSCs) have witnessed significant advancements; however, their long-term stability remains a challenge because of the oxidation of silver cathodes to form AgI by mobile iodides. To overcome this problem, we propose the integration of an electron-deficient naphthalene diimide-based zwitterion (NDI-ZI) as the cathode interlayer. Compared to the physical ion-blocking layer, it effectively captures ions by forming ionic bonds via electrostatic Coulombic interaction to suppress the migration of iodide and Ag ions. The NDI-ZI interlayer also suppresses the shunt paths and modulates the work function of the Ag electrode by forming interface dipoles, thereby enhancing charge extraction. FA0.85Cs0.15PbI3 based PeSCs incorporating NDI-ZI exhibited a noticeably high power conversion efficiency of up to 23.3% and outstanding stability, maintaining ∼80% of their initial performance over 1500 h at 85 °C and over 500 h under continuous 1-sun illumination. This study highlights the potential of a zwitterionic cathode interlayer in diverse perovskite optoelectronic devices, leading to their improved efficiency and stability.

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DO - 10.1039/d4mh00253a

M3 - Article

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AN - SCOPUS:85189536906

SN - 2051-6347

VL - 11

SP - 2926

EP - 2936

JO - Materials Horizons

JF - Materials Horizons

IS - 12

ER -

Improved photovoltaic performance and stability of perovskite solar cells by adoption of an n-type zwitterionic cathode interlayer

Abstract

Bibliographical note

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ASJC Scopus subject areas

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