Multidimensional Perovskites for High Detectivity Photodiodes

Riccardo Ollearo; Alessandro Caiazzo; Junyu Li; Marco Fattori; Albert J.J.M. van Breemen; Martijn M. Wienk; Gerwin H. Gelinck; René A.J. Janssen

doi:10.1002/adma.202205261

Multidimensional Perovskites for High Detectivity Photodiodes

Riccardo Ollearo, Alessandro Caiazzo, Junyu Li, Marco Fattori, Albert J.J.M. van Breemen, Martijn M. Wienk, Gerwin H. Gelinck, René A.J. Janssen (Corresponding author)

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

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Abstract

Low-dimensional perovskites attract increasing interest due to tunable optoelectronic properties and high stability. Here, it is shown that perovskite thin films with a vertical gradient in dimensionality result in graded electronic bandgap structures that are ideal for photodiode applications. Positioning low-dimensional, vertically-oriented perovskite phases at the interface with the electron blocking layer increases the activation energy for thermal charge generation and thereby effectively lowers the dark current density to a record-low value of 5 × 10⁻⁹ mA cm⁻² without compromising responsivity, resulting in a noise-current-based specific detectivity exceeding 7 × 10¹² Jones at 600 nm. These multidimensional perovskite photodiodes show promising air stability and a dynamic range over ten orders of magnitude, and thus represent a new generation of high-performance low-cost photodiodes.

Original language	English
Article number	2205261
Number of pages	9
Journal	Advanced Materials
Volume	34
Issue number	40
Early online date	24 Aug 2022
DOIs	https://doi.org/10.1002/adma.202205261
Publication status	Published - 6 Oct 2022

Keywords

2D perovskites
photodiodes
dark current
2D-3D gradient
perovskites

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10.1002/adma.202205261

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@article{689afaba84e64759a37f649b2d105236,

title = "Multidimensional Perovskites for High Detectivity Photodiodes",

abstract = "Low-dimensional perovskites attract increasing interest due to tunable optoelectronic properties and high stability. Here, it is shown that perovskite thin films with a vertical gradient in dimensionality result in graded electronic bandgap structures that are ideal for photodiode applications. Positioning low-dimensional, vertically-oriented perovskite phases at the interface with the electron blocking layer increases the activation energy for thermal charge generation and thereby effectively lowers the dark current density to a record-low value of 5 × 10−9 mA cm−2 without compromising responsivity, resulting in a noise-current-based specific detectivity exceeding 7 × 1012 Jones at 600 nm. These multidimensional perovskite photodiodes show promising air stability and a dynamic range over ten orders of magnitude, and thus represent a new generation of high-performance low-cost photodiodes.",

keywords = "2D perovskites, photodiodes, dark current, 2D-3D gradient, perovskites",

author = "Riccardo Ollearo and Alessandro Caiazzo and Junyu Li and Marco Fattori and {van Breemen}, {Albert J.J.M.} and Wienk, {Martijn M.} and Gelinck, {Gerwin H.} and Janssen, {Ren{\'e} A.J.}",

year = "2022",

month = oct,

day = "6",

doi = "10.1002/adma.202205261",

language = "English",

volume = "34",

journal = "Advanced Materials",

issn = "0935-9648",

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T1 - Multidimensional Perovskites for High Detectivity Photodiodes

AU - Ollearo, Riccardo

AU - Caiazzo, Alessandro

AU - Li, Junyu

AU - Fattori, Marco

AU - van Breemen, Albert J.J.M.

AU - Wienk, Martijn M.

AU - Gelinck, Gerwin H.

AU - Janssen, René A.J.

PY - 2022/10/6

Y1 - 2022/10/6

N2 - Low-dimensional perovskites attract increasing interest due to tunable optoelectronic properties and high stability. Here, it is shown that perovskite thin films with a vertical gradient in dimensionality result in graded electronic bandgap structures that are ideal for photodiode applications. Positioning low-dimensional, vertically-oriented perovskite phases at the interface with the electron blocking layer increases the activation energy for thermal charge generation and thereby effectively lowers the dark current density to a record-low value of 5 × 10−9 mA cm−2 without compromising responsivity, resulting in a noise-current-based specific detectivity exceeding 7 × 1012 Jones at 600 nm. These multidimensional perovskite photodiodes show promising air stability and a dynamic range over ten orders of magnitude, and thus represent a new generation of high-performance low-cost photodiodes.

AB - Low-dimensional perovskites attract increasing interest due to tunable optoelectronic properties and high stability. Here, it is shown that perovskite thin films with a vertical gradient in dimensionality result in graded electronic bandgap structures that are ideal for photodiode applications. Positioning low-dimensional, vertically-oriented perovskite phases at the interface with the electron blocking layer increases the activation energy for thermal charge generation and thereby effectively lowers the dark current density to a record-low value of 5 × 10−9 mA cm−2 without compromising responsivity, resulting in a noise-current-based specific detectivity exceeding 7 × 1012 Jones at 600 nm. These multidimensional perovskite photodiodes show promising air stability and a dynamic range over ten orders of magnitude, and thus represent a new generation of high-performance low-cost photodiodes.

KW - 2D perovskites

KW - photodiodes

KW - dark current

KW - 2D-3D gradient

KW - perovskites

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VL - 34

JO - Advanced Materials

JF - Advanced Materials

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ER -

Multidimensional Perovskites for High Detectivity Photodiodes

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Exploiting Perovskites Multidimensionality for High Performance Photodiodes

Exploiting Perovskites Multidimensionality for High Performance Photodiodes

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Multidimensional Perovskites for High Detectivity Photodiodes

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Exploiting Perovskites Multidimensionality for High Performance Photodiodes

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Exploiting Perovskites Multidimensionality for High Performance Photodiodes

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