Performance Measurement Guidance for Multi-Terminal Tandem Solar Cells

Tao Song; John Geisz; Charles Mack; Jeremy Brewer; Rafell Williams; Nikos Kopidakis

doi:10.1109/PVSC59419.2025.11132532

Performance Measurement Guidance for Multi-Terminal Tandem Solar Cells

Chemistry and Nanoscience

National Laboratory of the Rockies

Research output: Contribution to conference › Paper

Abstract

Tandem solar cells are not restricted to the conventional 2-terminal configuration. Multi-terminal designs like 3-terminal (3-T) and 4-T devices have been gaining popularity within the PV community. However, studies addressing the reliable and accurate performance measurement of multi-terminal tandem solar cells remain limited. This paper aims to fill this gap by presenting comprehensive measurement guidance tailored for these advanced configurations. This paper also examines the challenges in measuring these multi-terminal cells, which arise from their complex electrical and optical coupling impacts between the subcells. Special attention is given to emerging perovskite-based multi-terminal devices, whose dynamic current responses introduce additional measurement complexities.

Original language	American English
Pages	784-786
Number of pages	3
DOIs	https://doi.org/10.1109/PVSC59419.2025.11132532
State	Published - 2025
Event	53rd IEEE Photovoltaic Specialists Conference (PVSC-53) - Montreal, Quebec, Canada Duration: 8 Jun 2025 → 13 Jun 2025

Conference

Conference	53rd IEEE Photovoltaic Specialists Conference (PVSC-53)
City	Montreal, Quebec, Canada
Period	8/06/25 → 13/06/25

NLR Publication Number

NLR/CP-5900-92839

Keywords

accuracy
complexity theory
current measurement
optical coupling
optical variables measurement
performance evaluation
photovoltaic cells
photovoltaic systems
reliability

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10.1109/PVSC59419.2025.11132532

Cite this

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title = "Performance Measurement Guidance for Multi-Terminal Tandem Solar Cells",

abstract = "Tandem solar cells are not restricted to the conventional 2-terminal configuration. Multi-terminal designs like 3-terminal (3-T) and 4-T devices have been gaining popularity within the PV community. However, studies addressing the reliable and accurate performance measurement of multi-terminal tandem solar cells remain limited. This paper aims to fill this gap by presenting comprehensive measurement guidance tailored for these advanced configurations. This paper also examines the challenges in measuring these multi-terminal cells, which arise from their complex electrical and optical coupling impacts between the subcells. Special attention is given to emerging perovskite-based multi-terminal devices, whose dynamic current responses introduce additional measurement complexities.",

keywords = "accuracy, complexity theory, current measurement, optical coupling, optical variables measurement, performance evaluation, photovoltaic cells, photovoltaic systems, reliability",

author = "Tao Song and John Geisz and Charles Mack and Jeremy Brewer and Rafell Williams and Nikos Kopidakis",

year = "2025",

doi = "10.1109/PVSC59419.2025.11132532",

language = "American English",

pages = "784--786",

note = "53rd IEEE Photovoltaic Specialists Conference (PVSC-53) ; Conference date: 08-06-2025 Through 13-06-2025",

}

TY - CONF

T1 - Performance Measurement Guidance for Multi-Terminal Tandem Solar Cells

AU - Song, Tao

AU - Geisz, John

AU - Mack, Charles

AU - Brewer, Jeremy

AU - Williams, Rafell

AU - Kopidakis, Nikos

PY - 2025

Y1 - 2025

N2 - Tandem solar cells are not restricted to the conventional 2-terminal configuration. Multi-terminal designs like 3-terminal (3-T) and 4-T devices have been gaining popularity within the PV community. However, studies addressing the reliable and accurate performance measurement of multi-terminal tandem solar cells remain limited. This paper aims to fill this gap by presenting comprehensive measurement guidance tailored for these advanced configurations. This paper also examines the challenges in measuring these multi-terminal cells, which arise from their complex electrical and optical coupling impacts between the subcells. Special attention is given to emerging perovskite-based multi-terminal devices, whose dynamic current responses introduce additional measurement complexities.

AB - Tandem solar cells are not restricted to the conventional 2-terminal configuration. Multi-terminal designs like 3-terminal (3-T) and 4-T devices have been gaining popularity within the PV community. However, studies addressing the reliable and accurate performance measurement of multi-terminal tandem solar cells remain limited. This paper aims to fill this gap by presenting comprehensive measurement guidance tailored for these advanced configurations. This paper also examines the challenges in measuring these multi-terminal cells, which arise from their complex electrical and optical coupling impacts between the subcells. Special attention is given to emerging perovskite-based multi-terminal devices, whose dynamic current responses introduce additional measurement complexities.

KW - accuracy

KW - complexity theory

KW - current measurement

KW - optical coupling

KW - optical variables measurement

KW - performance evaluation

KW - photovoltaic cells

KW - photovoltaic systems

KW - reliability

U2 - 10.1109/PVSC59419.2025.11132532

DO - 10.1109/PVSC59419.2025.11132532

M3 - Paper

SP - 784

EP - 786

T2 - 53rd IEEE Photovoltaic Specialists Conference (PVSC-53)

Y2 - 8 June 2025 through 13 June 2025

ER -

Performance Measurement Guidance for Multi-Terminal Tandem Solar Cells

Abstract

Conference

NLR Publication Number

Keywords

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