Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization

Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization

Strong characterization methods are needed to fully comprehend the chemistry and composition of perovskite solar cells. Understanding the interaction between layers inside a cell and how they react with the environment is important to achieve optimum manufacturing processes, and improve efficiency o...

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Main Authors: L. Valerio, A. De La Rosa, V. Rodriguez, C. Enriquez, A. Telles, Y. Ramirez, D. Rivera, J. Hierro, L. Bustamante, X. Tong, D. Hodges
Format: Article
Language:English
Published: AIP Publishing LLC 2019-10-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5123400
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spelling doaj-fec5a0660531459d8e6f7e7858e1fab12020-11-25T02:09:29ZengAIP Publishing LLCAIP Advances2158-32262019-10-01910105006105006-810.1063/1.5123400006910ADVCharacterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimizationL. Valerio0A. De La Rosa1V. Rodriguez2C. Enriquez3A. Telles4Y. Ramirez5D. Rivera6J. Hierro7L. Bustamante8X. Tong9D. Hodges10Department of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesDepartment of Mechanical Engineering, School of Engineering at Bilbao, Bilbao 48013, SpainDepartment of Mechanical Engineering, School of Engineering at Bilbao, Bilbao 48013, SpainCenter for Functional Nanomaterials at Brookhaven National Laboratory, Upton, NY 11973, United StatesDepartment of Electrical and Computer Engineering, University of Texas at El Paso, El Paso, TX 79968, United StatesStrong characterization methods are needed to fully comprehend the chemistry and composition of perovskite solar cells. Understanding the interaction between layers inside a cell and how they react with the environment is important to achieve optimum manufacturing processes, and improve efficiency of perovskite solar cells. Here, we probe a hybrid organic-inorganic perovskite cell structure formed by a fluorine-doped tin oxide (FTO), cassiterite (SnO2), mixed halide perovskite, Spiro-OMeTAD and silver layers. We have demonstrated a power conversion efficiency (PCE) greater than 19% and aVoc of more than 1.1 V for a wide-band gap (1.6 eV) perovskite solar cell.http://dx.doi.org/10.1063/1.5123400
collection DOAJ
language English
format Article
sources DOAJ
author L. Valerio
A. De La Rosa
V. Rodriguez
C. Enriquez
A. Telles
Y. Ramirez
D. Rivera
J. Hierro
L. Bustamante
X. Tong
D. Hodges
spellingShingle L. Valerio
A. De La Rosa
V. Rodriguez
C. Enriquez
A. Telles
Y. Ramirez
D. Rivera
J. Hierro
L. Bustamante
X. Tong
D. Hodges
Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
AIP Advances
author_facet L. Valerio
A. De La Rosa
V. Rodriguez
C. Enriquez
A. Telles
Y. Ramirez
D. Rivera
J. Hierro
L. Bustamante
X. Tong
D. Hodges
author_sort L. Valerio
title Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
title_short Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
title_full Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
title_fullStr Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
title_full_unstemmed Characterization and analysis of FAxCs(1−x) Pb(IyBr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
title_sort characterization and analysis of faxcs(1−x) pb(iybr(1−y))3 perovskite solar cells with thickness controlled transport layers for performance optimization
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2019-10-01
description Strong characterization methods are needed to fully comprehend the chemistry and composition of perovskite solar cells. Understanding the interaction between layers inside a cell and how they react with the environment is important to achieve optimum manufacturing processes, and improve efficiency of perovskite solar cells. Here, we probe a hybrid organic-inorganic perovskite cell structure formed by a fluorine-doped tin oxide (FTO), cassiterite (SnO2), mixed halide perovskite, Spiro-OMeTAD and silver layers. We have demonstrated a power conversion efficiency (PCE) greater than 19% and aVoc of more than 1.1 V for a wide-band gap (1.6 eV) perovskite solar cell.
url http://dx.doi.org/10.1063/1.5123400
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