Organic charge transfer complexes on graphene with ultrahigh near infrared photogain

Muhammad Ahsan Iqbal; Menghua Cui; Adeel Liaqat; Rakba Faiz; Mongur Hossain; Xinsheng Wang; Sabir Hussain; Chunhe Dang; Haining Liu; Wen Wen; Junxia Wu; Liming Xie

doi:10.1088/1361-6528/ab0608

Organic charge transfer complexes on graphene with ultrahigh near infrared photogain

Muhammad Ahsan Iqbal
, Menghua Cui
, Adeel Liaqat
, Rakba Faiz
, Mongur Hossain
, Xinsheng Wang
, Sabir Hussain
, Chunhe Dang
, Haining Liu
, Wen Wen
, Junxia Wu
, Liming Xie

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

Abstract

Photodetectors have widespread applications in fields including telecommunications, thermal imaging and bio-medical imaging. The photogating effect, arising from charge trapping at defects and/or interfaces, can have extremely high photoelectric gain which can be a benefit to high-sensitivity room temperature photodetection. Here, we introduce thin layered organic charge transfer complexes (CPXs) integrated on graphene transistors for the development of hybrid phototransistors with ultra-high photoresponsivity of ∼10⁶ A W^-1 in the near infrared (NIR) region at room temperature. Our study has demonstrated a graphene-organic CPX with a broadband photoresponse ranging from the visible to the NIR region. The high photoelectric gain was from the photogating effect at the graphene/CPX interface. In addition, the photoresponse properties of the graphene-organic CPX can be regulated by electrical gating of graphene.

Original language	English
Article number	254003
Journal	Nanotechnology
Volume	30
Issue number	25
DOIs	https://doi.org/10.1088/1361-6528/ab0608
Publication status	Published - 5 Apr 2019
Externally published	Yes

Keywords

charge transfer complex
grapheme
near infrared
photodetector
photogating

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10.1088/1361-6528/ab0608

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title = "Organic charge transfer complexes on graphene with ultrahigh near infrared photogain",

abstract = "Photodetectors have widespread applications in fields including telecommunications, thermal imaging and bio-medical imaging. The photogating effect, arising from charge trapping at defects and/or interfaces, can have extremely high photoelectric gain which can be a benefit to high-sensitivity room temperature photodetection. Here, we introduce thin layered organic charge transfer complexes (CPXs) integrated on graphene transistors for the development of hybrid phototransistors with ultra-high photoresponsivity of ∼106 A W-1 in the near infrared (NIR) region at room temperature. Our study has demonstrated a graphene-organic CPX with a broadband photoresponse ranging from the visible to the NIR region. The high photoelectric gain was from the photogating effect at the graphene/CPX interface. In addition, the photoresponse properties of the graphene-organic CPX can be regulated by electrical gating of graphene.",

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doi = "10.1088/1361-6528/ab0608",

language = "English",

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TY - JOUR

T1 - Organic charge transfer complexes on graphene with ultrahigh near infrared photogain

AU - Iqbal, Muhammad Ahsan

AU - Cui, Menghua

AU - Liaqat, Adeel

AU - Faiz, Rakba

AU - Hossain, Mongur

AU - Wang, Xinsheng

AU - Hussain, Sabir

AU - Dang, Chunhe

AU - Liu, Haining

AU - Wen, Wen

AU - Wu, Junxia

AU - Xie, Liming

PY - 2019/4/5

Y1 - 2019/4/5

N2 - Photodetectors have widespread applications in fields including telecommunications, thermal imaging and bio-medical imaging. The photogating effect, arising from charge trapping at defects and/or interfaces, can have extremely high photoelectric gain which can be a benefit to high-sensitivity room temperature photodetection. Here, we introduce thin layered organic charge transfer complexes (CPXs) integrated on graphene transistors for the development of hybrid phototransistors with ultra-high photoresponsivity of ∼106 A W-1 in the near infrared (NIR) region at room temperature. Our study has demonstrated a graphene-organic CPX with a broadband photoresponse ranging from the visible to the NIR region. The high photoelectric gain was from the photogating effect at the graphene/CPX interface. In addition, the photoresponse properties of the graphene-organic CPX can be regulated by electrical gating of graphene.

AB - Photodetectors have widespread applications in fields including telecommunications, thermal imaging and bio-medical imaging. The photogating effect, arising from charge trapping at defects and/or interfaces, can have extremely high photoelectric gain which can be a benefit to high-sensitivity room temperature photodetection. Here, we introduce thin layered organic charge transfer complexes (CPXs) integrated on graphene transistors for the development of hybrid phototransistors with ultra-high photoresponsivity of ∼106 A W-1 in the near infrared (NIR) region at room temperature. Our study has demonstrated a graphene-organic CPX with a broadband photoresponse ranging from the visible to the NIR region. The high photoelectric gain was from the photogating effect at the graphene/CPX interface. In addition, the photoresponse properties of the graphene-organic CPX can be regulated by electrical gating of graphene.

KW - charge transfer complex

KW - grapheme

KW - near infrared

KW - photodetector

KW - photogating

UR - https://www.scopus.com/pages/publications/85064578216

U2 - 10.1088/1361-6528/ab0608

DO - 10.1088/1361-6528/ab0608

M3 - Article

C2 - 30743254

AN - SCOPUS:85064578216

SN - 0957-4484

VL - 30

JO - Nanotechnology

JF - Nanotechnology

IS - 25

M1 - 254003

ER -

Organic charge transfer complexes on graphene with ultrahigh near infrared photogain

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Keywords

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