High-performance graphene-quantum-dot photodetectors

Chang Oh Kim; Sung Won Hwang; Sung Kim; Dong Hee Shin; Soo Seok Kang; Jong Min Kim; Chan Wook Jang; Ju Hwan Kim; Kyeong Won Lee; Suk Ho Choi; Euyheon Hwang

doi:10.1038/srep05603

High-performance graphene-quantum-dot photodetectors

Chang Oh Kim, Sung Won Hwang, Sung Kim, Dong Hee Shin, Soo Seok Kang, Jong Min Kim, Chan Wook Jang, Ju Hwan Kim, Kyeong Won Lee, Suk Ho Choi, Euyheon Hwang

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

145 Citations (Scopus)

Abstract

Graphene quantum dots (GQDs) have received much attention due to their novel phenomena of charge transport and light absorption/emission. The optical transitions are known to be available up to ∼6 eV in GQDs, especially useful for ultraviolet (UV) photodetectors (PDs). Thus, the demonstration of photodetection gain with GQDs would be the basis for a plenty of applications not only as a single-function device in detecting optical signals but also a key component in the optoelectronic integrated circuits. Here, we firstly report high-efficient photocurrent (PC) behaviors of PDs consisting of multiple-layer GQDs sandwiched between graphene sheets. High detectivity (>10 11 cm Hz 1/2/W) and responsivity (0.2 ∼ 0.5 A/W) are achieved in the broad spectral range from UV to near infrared. The observed unique PD characteristics prove to be dominated by the tunneling of charge carriers through the energy states in GQDs, based on bias-dependent variations of the band profiles, resulting in novel dark current and PC behaviors.

Original language	English
Article number	5603
Journal	Scientific Reports
Volume	4
DOIs	https://doi.org/10.1038/srep05603
Publication status	Published - 7 Jul 2014

Bibliographical note

Funding Information:
This work was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science, ICT & Future Planning (No. 2014022732 and NRF-2014R1A1A1A05008463).

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title = "High-performance graphene-quantum-dot photodetectors",

abstract = "Graphene quantum dots (GQDs) have received much attention due to their novel phenomena of charge transport and light absorption/emission. The optical transitions are known to be available up to ∼6 eV in GQDs, especially useful for ultraviolet (UV) photodetectors (PDs). Thus, the demonstration of photodetection gain with GQDs would be the basis for a plenty of applications not only as a single-function device in detecting optical signals but also a key component in the optoelectronic integrated circuits. Here, we firstly report high-efficient photocurrent (PC) behaviors of PDs consisting of multiple-layer GQDs sandwiched between graphene sheets. High detectivity (>10 11 cm Hz 1/2/W) and responsivity (0.2 ∼ 0.5 A/W) are achieved in the broad spectral range from UV to near infrared. The observed unique PD characteristics prove to be dominated by the tunneling of charge carriers through the energy states in GQDs, based on bias-dependent variations of the band profiles, resulting in novel dark current and PC behaviors.",

author = "Kim, {Chang Oh} and Hwang, {Sung Won} and Sung Kim and Shin, {Dong Hee} and Kang, {Soo Seok} and Kim, {Jong Min} and Jang, {Chan Wook} and Kim, {Ju Hwan} and Lee, {Kyeong Won} and Choi, {Suk Ho} and Euyheon Hwang",

note = "Funding Information: This work was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science, ICT & Future Planning (No. 2014022732 and NRF-2014R1A1A1A05008463).",

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AU - Kim, Jong Min

AU - Jang, Chan Wook

AU - Kim, Ju Hwan

AU - Lee, Kyeong Won

AU - Choi, Suk Ho

AU - Hwang, Euyheon

N1 - Funding Information: This work was supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Science, ICT & Future Planning (No. 2014022732 and NRF-2014R1A1A1A05008463).

PY - 2014/7/7

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N2 - Graphene quantum dots (GQDs) have received much attention due to their novel phenomena of charge transport and light absorption/emission. The optical transitions are known to be available up to ∼6 eV in GQDs, especially useful for ultraviolet (UV) photodetectors (PDs). Thus, the demonstration of photodetection gain with GQDs would be the basis for a plenty of applications not only as a single-function device in detecting optical signals but also a key component in the optoelectronic integrated circuits. Here, we firstly report high-efficient photocurrent (PC) behaviors of PDs consisting of multiple-layer GQDs sandwiched between graphene sheets. High detectivity (>10 11 cm Hz 1/2/W) and responsivity (0.2 ∼ 0.5 A/W) are achieved in the broad spectral range from UV to near infrared. The observed unique PD characteristics prove to be dominated by the tunneling of charge carriers through the energy states in GQDs, based on bias-dependent variations of the band profiles, resulting in novel dark current and PC behaviors.

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High-performance graphene-quantum-dot photodetectors

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