Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells

Chia Yuan Chen; Yu Fan Chang; Yen Chen Shih; Ying Chuan Liu; Chi Feng Chiu; Rahma Rahayu Dinarlita; Tsung Yu Tsai; Chieh Ming Hung; Hou Chin Cha; You Ren Chen; Zhi Hao Huang; Yu Cheng Zhang; H. C. Lin; Wei Chen Chu; Wei Hao Chiu; Sie Rong Li; Ting Jui Chang; Yi Hong Liao; Siti Utari Rahayu; Bo Yu Han; Yun Tou Lin; Pei Ling Wang; Zi Ting Liao; Jhao Yun Tsai; Zhong En Shi; Chia Tse Hsu; Po Shun Hsu; Po Yuan Chen; Jia Zhen Li; Anjali Thakran; Yu Ting Chen; Yu Sheng Li; Hao Wei Yu; Chu Chen Chueh; Tzung Fang Guo; Chih Wei Chu; Leeyih Wang; Kuo Chuan Ho; Fang Chung Chen; Chih Ping Chen; Yian Tai; Chun Ting Li; Ming Way Lee; Chih Liang Wang; Shih Sheng Sun; Kun Mu Lee; Zong Liang Tseng; Yu Ching Huang; Pi Tai Chou; Chung Wen Ko; Chun Guey Wu

doi:10.1002/solr.202500538

Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells

Chia Yuan Chen
, Yu Fan Chang
, Yen Chen Shih
, Ying Chuan Liu
, Chi Feng Chiu
, Rahma Rahayu Dinarlita
, Tsung Yu Tsai
, Chieh Ming Hung
, Hou Chin Cha
, You Ren Chen
, Zhi Hao Huang
, Yu Cheng Zhang
, H. C. Lin
, Wei Chen Chu
, Wei Hao Chiu
, Sie Rong Li
, Ting Jui Chang
, Yi Hong Liao
, Siti Utari Rahayu
, Bo Yu Han

Yun Tou Lin, Pei Ling Wang, Zi Ting Liao, Jhao Yun Tsai, Zhong En Shi, Chia Tse Hsu, Po Shun Hsu, Po Yuan Chen, Jia Zhen Li, Anjali Thakran, Yu Ting Chen, Yu Sheng Li, Hao Wei Yu, Chu Chen Chueh, Tzung Fang Guo, Chih Wei Chu, Leeyih Wang, Kuo Chuan Ho, Fang Chung Chen, Chih Ping Chen, Yian Tai, Chun Ting Li, Ming Way Lee, Chih Liang Wang, Shih Sheng Sun, Kun Mu Lee, Zong Liang Tseng, Yu Ching Huang, Pi Tai Chou, Chung Wen Ko, Chun Guey Wu

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

1 Scopus citations

Abstract

Organic-thin film and perovskite solar cells are extremely promising because of their rapid progress in photovoltaic conversion efficiency (PCE). Beyond developing new materials and fabrication techniques, accurate performance characterization is essential for research and application. This study reports a round-robin interlaboratory comparison of current density–voltage (J–V) characteristics under standard test conditions (STC) and external quantum efficiency (EQE) spectra for large-area (>1 cm²) organic thin-film, perovskite, as well as reference solar cells with distinct spectral responses. Among 20 participating laboratories, the relative deviation in PCE of the samples reaches an unprecedented 111%. A comprehensive analysis identifies critical obstacles to measurement accuracy, including total incident irradiance for the samples, EQE spectrum measurements for spectral mismatch factors (SMM), temperature control, and methodologies for obtaining the J–V curves. Based on these findings, corresponding recommendations are presented to enhance the accuracy of performance characterization for emerging solar cells.

Original language	English
Article number	e202500538
Journal	Solar RRL
Volume	9
Issue number	22
DOIs	https://doi.org/10.1002/solr.202500538
State	Published - Nov 2025

UN SDGs

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

SDG 7 Affordable and Clean Energy

Keywords

organic thin-film photovoltaics (OPV)
perovskite solar cells (PSC)
round-robin intercomparison
spectral mismatch factor (SMM)
standard test conditions (STC)

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10.1002/solr.202500538

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Chen, C. Y., Chang, Y. F., Shih, Y. C., Liu, Y. C., Chiu, C. F., Dinarlita, R. R., Tsai, T. Y., Hung, C. M., Cha, H. C., Chen, Y. R., Huang, Z. H., Zhang, Y. C., Lin, H. C., Chu, W. C., Chiu, W. H., Li, S. R., Chang, T. J., Liao, Y. H., Rahayu, S. U., ... Wu, C. G. (2025). Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells. Solar RRL, 9(22), Article e202500538. https://doi.org/10.1002/solr.202500538

@article{a2ae2f75ecc14ee1a94a6e8889e13095,

title = "Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells",

abstract = "Organic-thin film and perovskite solar cells are extremely promising because of their rapid progress in photovoltaic conversion efficiency (PCE). Beyond developing new materials and fabrication techniques, accurate performance characterization is essential for research and application. This study reports a round-robin interlaboratory comparison of current density–voltage (J–V) characteristics under standard test conditions (STC) and external quantum efficiency (EQE) spectra for large-area (>1 cm2) organic thin-film, perovskite, as well as reference solar cells with distinct spectral responses. Among 20 participating laboratories, the relative deviation in PCE of the samples reaches an unprecedented 111\%. A comprehensive analysis identifies critical obstacles to measurement accuracy, including total incident irradiance for the samples, EQE spectrum measurements for spectral mismatch factors (SMM), temperature control, and methodologies for obtaining the J–V curves. Based on these findings, corresponding recommendations are presented to enhance the accuracy of performance characterization for emerging solar cells.",

keywords = "organic thin-film photovoltaics (OPV), perovskite solar cells (PSC), round-robin intercomparison, spectral mismatch factor (SMM), standard test conditions (STC)",

author = "Chen, \{Chia Yuan\} and Chang, \{Yu Fan\} and Shih, \{Yen Chen\} and Liu, \{Ying Chuan\} and Chiu, \{Chi Feng\} and Dinarlita, \{Rahma Rahayu\} and Tsai, \{Tsung Yu\} and Hung, \{Chieh Ming\} and Cha, \{Hou Chin\} and Chen, \{You Ren\} and Huang, \{Zhi Hao\} and Zhang, \{Yu Cheng\} and Lin, \{H. C.\} and Chu, \{Wei Chen\} and Chiu, \{Wei Hao\} and Li, \{Sie Rong\} and Chang, \{Ting Jui\} and Liao, \{Yi Hong\} and Rahayu, \{Siti Utari\} and Han, \{Bo Yu\} and Lin, \{Yun Tou\} and Wang, \{Pei Ling\} and Liao, \{Zi Ting\} and Tsai, \{Jhao Yun\} and Shi, \{Zhong En\} and Hsu, \{Chia Tse\} and Hsu, \{Po Shun\} and Chen, \{Po Yuan\} and Li, \{Jia Zhen\} and Anjali Thakran and Chen, \{Yu Ting\} and Li, \{Yu Sheng\} and Yu, \{Hao Wei\} and Chueh, \{Chu Chen\} and Guo, \{Tzung Fang\} and Chu, \{Chih Wei\} and Leeyih Wang and Ho, \{Kuo Chuan\} and Chen, \{Fang Chung\} and Chen, \{Chih Ping\} and Yian Tai and Li, \{Chun Ting\} and Lee, \{Ming Way\} and Wang, \{Chih Liang\} and Sun, \{Shih Sheng\} and Lee, \{Kun Mu\} and Tseng, \{Zong Liang\} and Huang, \{Yu Ching\} and Chou, \{Pi Tai\} and Ko, \{Chung Wen\} and Wu, \{Chun Guey\}",

note = "Publisher Copyright: {\textcopyright} 2025 Wiley-VCH GmbH.",

year = "2025",

month = nov,

doi = "10.1002/solr.202500538",

language = "???core.languages.en\_GB???",

volume = "9",

journal = "Solar RRL",

issn = "2367-198X",

number = "22",

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Chen, CY, Chang, YF, Shih, YC, Liu, YC, Chiu, CF, Dinarlita, RR, Tsai, TY, Hung, CM, Cha, HC, Chen, YR, Huang, ZH, Zhang, YC, Lin, HC, Chu, WC, Chiu, WH, Li, SR, Chang, TJ, Liao, YH, Rahayu, SU, Han, BY, Lin, YT, Wang, PL, Liao, ZT, Tsai, JY, Shi, ZE, Hsu, CT, Hsu, PS, Chen, PY, Li, JZ, Thakran, A, Chen, YT, Li, YS, Yu, HW, Chueh, CC, Guo, TF, Chu, CW, Wang, L, Ho, KC, Chen, FC, Chen, CP, Tai, Y, Li, CT, Lee, MW, Wang, CL, Sun, SS, Lee, KM, Tseng, ZL, Huang, YC, Chou, PT, Ko, CW & Wu, CG 2025, 'Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells', Solar RRL, vol. 9, no. 22, e202500538. https://doi.org/10.1002/solr.202500538

TY - JOUR

T1 - Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells

AU - Chen, Chia Yuan

AU - Chang, Yu Fan

AU - Shih, Yen Chen

AU - Liu, Ying Chuan

AU - Chiu, Chi Feng

AU - Dinarlita, Rahma Rahayu

AU - Tsai, Tsung Yu

AU - Hung, Chieh Ming

AU - Cha, Hou Chin

AU - Chen, You Ren

AU - Huang, Zhi Hao

AU - Zhang, Yu Cheng

AU - Lin, H. C.

AU - Chu, Wei Chen

AU - Chiu, Wei Hao

AU - Li, Sie Rong

AU - Chang, Ting Jui

AU - Liao, Yi Hong

AU - Rahayu, Siti Utari

AU - Han, Bo Yu

AU - Lin, Yun Tou

AU - Wang, Pei Ling

AU - Liao, Zi Ting

AU - Tsai, Jhao Yun

AU - Shi, Zhong En

AU - Hsu, Chia Tse

AU - Hsu, Po Shun

AU - Chen, Po Yuan

AU - Li, Jia Zhen

AU - Thakran, Anjali

AU - Chen, Yu Ting

AU - Li, Yu Sheng

AU - Yu, Hao Wei

AU - Chueh, Chu Chen

AU - Guo, Tzung Fang

AU - Chu, Chih Wei

AU - Wang, Leeyih

AU - Ho, Kuo Chuan

AU - Chen, Fang Chung

AU - Chen, Chih Ping

AU - Tai, Yian

AU - Li, Chun Ting

AU - Lee, Ming Way

AU - Wang, Chih Liang

AU - Sun, Shih Sheng

AU - Lee, Kun Mu

AU - Tseng, Zong Liang

AU - Huang, Yu Ching

AU - Chou, Pi Tai

AU - Ko, Chung Wen

AU - Wu, Chun Guey

PY - 2025/11

Y1 - 2025/11

N2 - Organic-thin film and perovskite solar cells are extremely promising because of their rapid progress in photovoltaic conversion efficiency (PCE). Beyond developing new materials and fabrication techniques, accurate performance characterization is essential for research and application. This study reports a round-robin interlaboratory comparison of current density–voltage (J–V) characteristics under standard test conditions (STC) and external quantum efficiency (EQE) spectra for large-area (>1 cm2) organic thin-film, perovskite, as well as reference solar cells with distinct spectral responses. Among 20 participating laboratories, the relative deviation in PCE of the samples reaches an unprecedented 111%. A comprehensive analysis identifies critical obstacles to measurement accuracy, including total incident irradiance for the samples, EQE spectrum measurements for spectral mismatch factors (SMM), temperature control, and methodologies for obtaining the J–V curves. Based on these findings, corresponding recommendations are presented to enhance the accuracy of performance characterization for emerging solar cells.

AB - Organic-thin film and perovskite solar cells are extremely promising because of their rapid progress in photovoltaic conversion efficiency (PCE). Beyond developing new materials and fabrication techniques, accurate performance characterization is essential for research and application. This study reports a round-robin interlaboratory comparison of current density–voltage (J–V) characteristics under standard test conditions (STC) and external quantum efficiency (EQE) spectra for large-area (>1 cm2) organic thin-film, perovskite, as well as reference solar cells with distinct spectral responses. Among 20 participating laboratories, the relative deviation in PCE of the samples reaches an unprecedented 111%. A comprehensive analysis identifies critical obstacles to measurement accuracy, including total incident irradiance for the samples, EQE spectrum measurements for spectral mismatch factors (SMM), temperature control, and methodologies for obtaining the J–V curves. Based on these findings, corresponding recommendations are presented to enhance the accuracy of performance characterization for emerging solar cells.

KW - organic thin-film photovoltaics (OPV)

KW - perovskite solar cells (PSC)

KW - round-robin intercomparison

KW - spectral mismatch factor (SMM)

KW - standard test conditions (STC)

UR - https://www.scopus.com/pages/publications/105018519720

U2 - 10.1002/solr.202500538

DO - 10.1002/solr.202500538

M3 - 期刊論文

AN - SCOPUS:105018519720

SN - 2367-198X

VL - 9

JO - Solar RRL

JF - Solar RRL

IS - 22

M1 - e202500538

ER -

Round-Robin Interlaboratory Comparison of Large-Area Organic Thin-Film and Perovskite Solar Cells

Abstract

UN SDGs

Keywords

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