High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response

Srinivasa Reddy  Tamalampudi; Yi Ying Lu; U. Rajesh Kumar; Raman Sankar; Chun-Da  Chun-Da Liao; Karukanara  Moorthy B; Che-Hsuan  Cheng; Fang-Cheng Chou; Yit-Tsong Chen

High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response

Srinivasa Reddy Tamalampudi
, Yi Ying Lu
, U. Rajesh Kumar
, Raman Sankar
, Chun-Da Chun-Da Liao
, Karukanara Moorthy B
, Che-Hsuan Cheng
, Fang-Cheng Chou
, Yit-Tsong Chen^*

^*Corresponding author for this work

PSMC-NYCU Research Center

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

765 Scopus citations

Abstract

Two-dimensional crystals with a wealth of exotic dimensional-dependent properties are promising candidates for next-generation ultrathin and flexible optoelectronic devices. For the first time, we demonstrate that few-layered InSe
photodetectors, fabricated on both a rigid SiO2/Si substrate and a flexible polyethylene terephthalate (PET) film, are capable of conducting broadband photodetection from the visible to near-infrared region (450−785 nm) with high photoresponsivities of
up to 12.3 AW−1 at 450 nm (on SiO2/Si) and 3.9 AW−1 at 633 nm (on PET). These photoresponsivities are superior to those of other recently reported two-dimensional (2D) crystal-based (graphene, MoS2, GaS, and GaSe) photodetectors. The InSe devices
fabricated on rigid SiO2/Si substrates possess a response time of ∼50 ms and exhibit long-term stability in photoswitching. These
InSe devices can also operate on a flexible substrate with or without bending and reveal comparable performance to those devices
on SiO2/Si. With these excellent optoelectronic merits, we envision that the nanoscale InSe layers will not only find applications
in flexible optoelectronics but also act as an active component to configure versatile 2D heterostructure devices.

Original language	American English
Pages (from-to)	2800−2806
Journal	Nano Letters
State	Published - 2014

Keywords

Indium selenide
two-dimensional materials
flexible photodetectors
transistor
responsivity

Access to Document

2014 High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response

Cite this

@article{923adffefa684bb6a109bcf09d529fac,

title = "High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response",

abstract = "Two-dimensional crystals with a wealth of exotic dimensional-dependent properties are promising candidates for next-generation ultrathin and flexible optoelectronic devices. For the first time, we demonstrate that few-layered InSe photodetectors, fabricated on both a rigid SiO2/Si substrate and a flexible polyethylene terephthalate (PET) film, are capable of conducting broadband photodetection from the visible to near-infrared region (450−785 nm) with high photoresponsivities of up to 12.3 AW−1 at 450 nm (on SiO2/Si) and 3.9 AW−1 at 633 nm (on PET). These photoresponsivities are superior to those of other recently reported two-dimensional (2D) crystal-based (graphene, MoS2, GaS, and GaSe) photodetectors. The InSe devices fabricated on rigid SiO2/Si substrates possess a response time of ∼50 ms and exhibit long-term stability in photoswitching. These InSe devices can also operate on a flexible substrate with or without bending and reveal comparable performance to those devices on SiO2/Si. With these excellent optoelectronic merits, we envision that the nanoscale InSe layers will not only find applications in flexible optoelectronics but also act as an active component to configure versatile 2D heterostructure devices.",

keywords = "Indium selenide, two-dimensional materials, flexible photodetectors, transistor, responsivity",

author = "Tamalampudi, \{Srinivasa Reddy\} and Lu, \{Yi Ying\} and Kumar, \{U. Rajesh\} and Raman Sankar and \{Chun-Da Liao\}, Chun-Da and \{Moorthy B\}, Karukanara and Che-Hsuan Cheng and Fang-Cheng Chou and Yit-Tsong Chen",

year = "2014",

language = "American English",

pages = "2800−2806",

journal = "Nano Letters",

issn = "1530-6984",

publisher = "American Chemical Society",

}

TY - JOUR

T1 - High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response

AU - Tamalampudi, Srinivasa Reddy

AU - Lu, Yi Ying

AU - Kumar, U. Rajesh

AU - Sankar, Raman

AU - Chun-Da Liao, Chun-Da

AU - Moorthy B, Karukanara

AU - Cheng, Che-Hsuan

AU - Chou, Fang-Cheng

AU - Chen, Yit-Tsong

PY - 2014

Y1 - 2014

N2 - Two-dimensional crystals with a wealth of exotic dimensional-dependent properties are promising candidates for next-generation ultrathin and flexible optoelectronic devices. For the first time, we demonstrate that few-layered InSe photodetectors, fabricated on both a rigid SiO2/Si substrate and a flexible polyethylene terephthalate (PET) film, are capable of conducting broadband photodetection from the visible to near-infrared region (450−785 nm) with high photoresponsivities of up to 12.3 AW−1 at 450 nm (on SiO2/Si) and 3.9 AW−1 at 633 nm (on PET). These photoresponsivities are superior to those of other recently reported two-dimensional (2D) crystal-based (graphene, MoS2, GaS, and GaSe) photodetectors. The InSe devices fabricated on rigid SiO2/Si substrates possess a response time of ∼50 ms and exhibit long-term stability in photoswitching. These InSe devices can also operate on a flexible substrate with or without bending and reveal comparable performance to those devices on SiO2/Si. With these excellent optoelectronic merits, we envision that the nanoscale InSe layers will not only find applications in flexible optoelectronics but also act as an active component to configure versatile 2D heterostructure devices.

AB - Two-dimensional crystals with a wealth of exotic dimensional-dependent properties are promising candidates for next-generation ultrathin and flexible optoelectronic devices. For the first time, we demonstrate that few-layered InSe photodetectors, fabricated on both a rigid SiO2/Si substrate and a flexible polyethylene terephthalate (PET) film, are capable of conducting broadband photodetection from the visible to near-infrared region (450−785 nm) with high photoresponsivities of up to 12.3 AW−1 at 450 nm (on SiO2/Si) and 3.9 AW−1 at 633 nm (on PET). These photoresponsivities are superior to those of other recently reported two-dimensional (2D) crystal-based (graphene, MoS2, GaS, and GaSe) photodetectors. The InSe devices fabricated on rigid SiO2/Si substrates possess a response time of ∼50 ms and exhibit long-term stability in photoswitching. These InSe devices can also operate on a flexible substrate with or without bending and reveal comparable performance to those devices on SiO2/Si. With these excellent optoelectronic merits, we envision that the nanoscale InSe layers will not only find applications in flexible optoelectronics but also act as an active component to configure versatile 2D heterostructure devices.

KW - Indium selenide

KW - two-dimensional materials

KW - flexible photodetectors

KW - transistor

KW - responsivity

M3 - Article

SN - 1530-6984

SP - 2800−2806

JO - Nano Letters

JF - Nano Letters

ER -

High Performance and Bendable Few-Layered InSe Photodetectors with Broad Spectral Response

Abstract

Keywords

Access to Document

Fingerprint

Cite this