Solution processable perovskite-hybrid heterojunction silicon 4T tandem solar cells

Mohammad Adil Afroz; Bhavna Sharma; Ruchi K. Sharma; Ritesh Kumar Gupta; Ankita Sengupta; Sanjay K. Srivastava; Soumitra Satapathi

doi:10.1016/j.mtadv.2025.100558

Solution processable perovskite-hybrid heterojunction silicon 4T tandem solar cells

Mohammad Adil Afroz
, Bhavna Sharma
, Ruchi K. Sharma
, Ritesh Kumar Gupta
, Ankita Sengupta
, Sanjay K. Srivastava
, Soumitra Satapathi

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

8 Scopus citations

Abstract

Solar photovoltaic technology has witnessed significant advancements through the development of novel hybrid heterojunction solar cells (HHSCs). However, there is scope for enhancement of power conversion efficiency (PCE) of the HHSCs. Here, a solution-based fabrication approach involving a high-performance semi-transparent perovskite cell (ST-PSC) stacked in tandem with a hybrid heterojunction silicon solar cell (HHSC) has been demonstrated for efficiency enhancement. The proposed 4-terminal tandem architecture exploits light management through the bandgap matching of the perovskite cell with silicon to minimize thermalization and absorption losses. This has led to a significant 41 % enhancement in the PCE of the HHSC. The experimental results are also correlated with the help of SCAPS 1D simulation. These low cost tandem solar cells hold the potential for upscaling and commercialization.

Original language	English
Article number	100558
Journal	Materials Today Advances
Volume	25
DOIs	https://doi.org/10.1016/j.mtadv.2025.100558
State	Published - 1 Mar 2025
Externally published	Yes

Keywords

Hybrid heterojunction solar cell
SCAPS 1D
Semi-transparent perovskite cell
Solution processable
Tandem

ASJC Scopus subject areas

General Materials Science
Mechanical Engineering

UN SDGs

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

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10.1016/j.mtadv.2025.100558

Cite this

@article{606bd627f0d848e7afa9776e549744ac,

title = "Solution processable perovskite-hybrid heterojunction silicon 4T tandem solar cells",

abstract = "Solar photovoltaic technology has witnessed significant advancements through the development of novel hybrid heterojunction solar cells (HHSCs). However, there is scope for enhancement of power conversion efficiency (PCE) of the HHSCs. Here, a solution-based fabrication approach involving a high-performance semi-transparent perovskite cell (ST-PSC) stacked in tandem with a hybrid heterojunction silicon solar cell (HHSC) has been demonstrated for efficiency enhancement. The proposed 4-terminal tandem architecture exploits light management through the bandgap matching of the perovskite cell with silicon to minimize thermalization and absorption losses. This has led to a significant 41 \% enhancement in the PCE of the HHSC. The experimental results are also correlated with the help of SCAPS 1D simulation. These low cost tandem solar cells hold the potential for upscaling and commercialization.",

keywords = "Hybrid heterojunction solar cell, SCAPS 1D, Semi-transparent perovskite cell, Solution processable, Tandem",

author = "Afroz, \{Mohammad Adil\} and Bhavna Sharma and Sharma, \{Ruchi K.\} and Gupta, \{Ritesh Kumar\} and Ankita Sengupta and Srivastava, \{Sanjay K.\} and Soumitra Satapathi",

note = "Publisher Copyright: {\textcopyright} 2025",

year = "2025",

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day = "1",

doi = "10.1016/j.mtadv.2025.100558",

language = "English",

volume = "25",

journal = "Materials Today Advances",

issn = "2590-0498",

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T1 - Solution processable perovskite-hybrid heterojunction silicon 4T tandem solar cells

AU - Afroz, Mohammad Adil

AU - Sharma, Bhavna

AU - Sharma, Ruchi K.

AU - Gupta, Ritesh Kumar

AU - Sengupta, Ankita

AU - Srivastava, Sanjay K.

AU - Satapathi, Soumitra

PY - 2025/3/1

Y1 - 2025/3/1

N2 - Solar photovoltaic technology has witnessed significant advancements through the development of novel hybrid heterojunction solar cells (HHSCs). However, there is scope for enhancement of power conversion efficiency (PCE) of the HHSCs. Here, a solution-based fabrication approach involving a high-performance semi-transparent perovskite cell (ST-PSC) stacked in tandem with a hybrid heterojunction silicon solar cell (HHSC) has been demonstrated for efficiency enhancement. The proposed 4-terminal tandem architecture exploits light management through the bandgap matching of the perovskite cell with silicon to minimize thermalization and absorption losses. This has led to a significant 41 % enhancement in the PCE of the HHSC. The experimental results are also correlated with the help of SCAPS 1D simulation. These low cost tandem solar cells hold the potential for upscaling and commercialization.

AB - Solar photovoltaic technology has witnessed significant advancements through the development of novel hybrid heterojunction solar cells (HHSCs). However, there is scope for enhancement of power conversion efficiency (PCE) of the HHSCs. Here, a solution-based fabrication approach involving a high-performance semi-transparent perovskite cell (ST-PSC) stacked in tandem with a hybrid heterojunction silicon solar cell (HHSC) has been demonstrated for efficiency enhancement. The proposed 4-terminal tandem architecture exploits light management through the bandgap matching of the perovskite cell with silicon to minimize thermalization and absorption losses. This has led to a significant 41 % enhancement in the PCE of the HHSC. The experimental results are also correlated with the help of SCAPS 1D simulation. These low cost tandem solar cells hold the potential for upscaling and commercialization.

KW - Hybrid heterojunction solar cell

KW - SCAPS 1D

KW - Semi-transparent perovskite cell

KW - Solution processable

KW - Tandem

UR - https://www.scopus.com/pages/publications/85216482270

U2 - 10.1016/j.mtadv.2025.100558

DO - 10.1016/j.mtadv.2025.100558

M3 - Article

AN - SCOPUS:85216482270

SN - 2590-0498

VL - 25

JO - Materials Today Advances

JF - Materials Today Advances

M1 - 100558

ER -

Solution processable perovskite-hybrid heterojunction silicon 4T tandem solar cells

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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