Mid-Infrared Intraband Photodetector via High Carrier Mobility HgSe Colloidal Quantum Dots

Menglu Chen; Qun Hao; Yuning Luo; Xin Tang

doi:10.1021/acsnano.2c03631

Mid-Infrared Intraband Photodetector via High Carrier Mobility HgSe Colloidal Quantum Dots

Menglu Chen^*, Qun Hao^*, Yuning Luo, Xin Tang^*

^*此作品的通讯作者

光电学院

科研成果: 期刊稿件 › 文章 › 同行评审

37 引用（Scopus）

摘要

In this work, a room-temperature mixed-phase ligand exchange method is developed to obtain a relatively high carrier mobility (∼1 cm2/(V s)) on HgSe intraband colloidal quantum dot solids without any observable trap state. What is more, the doping from 1Se to 1Pe state in the conduction band could be precisely controlled by additional salts during this method, proved by optical and transport experiments. The high mobility and controllable doping benefit the mid-infrared photodetector utilizing the 1Se to 1Pe transition, with a 1000-fold improvement in response speed, which is several μs, a 55-fold increase in responsivity, which is 77 mA/W, and a 10-fold increase in specific detectivity, which is above 1.7 × 109 Jones at 80 K. The high-performance photodetector could serve as an intraband infrared camera for thermal imaging, as well as a CO2 gas sensor with a range from 0.25 to 2000 ppm.

源语言	英语
页（从-至）	11027-11035
页数	9
期刊	ACS Nano
卷	16
期	7
DOI	https://doi.org/10.1021/acsnano.2c03631
出版状态	已出版 - 26 7月 2022

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10.1021/acsnano.2c03631

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title = "Mid-Infrared Intraband Photodetector via High Carrier Mobility HgSe Colloidal Quantum Dots",

abstract = "In this work, a room-temperature mixed-phase ligand exchange method is developed to obtain a relatively high carrier mobility (∼1 cm2/(V s)) on HgSe intraband colloidal quantum dot solids without any observable trap state. What is more, the doping from 1Se to 1Pe state in the conduction band could be precisely controlled by additional salts during this method, proved by optical and transport experiments. The high mobility and controllable doping benefit the mid-infrared photodetector utilizing the 1Se to 1Pe transition, with a 1000-fold improvement in response speed, which is several μs, a 55-fold increase in responsivity, which is 77 mA/W, and a 10-fold increase in specific detectivity, which is above 1.7 × 109 Jones at 80 K. The high-performance photodetector could serve as an intraband infrared camera for thermal imaging, as well as a CO2 gas sensor with a range from 0.25 to 2000 ppm.",

keywords = "colloidal quantum dots, doping, infrared photodetection, intraband, mobility",

author = "Menglu Chen and Qun Hao and Yuning Luo and Xin Tang",

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AU - Chen, Menglu

AU - Hao, Qun

AU - Luo, Yuning

AU - Tang, Xin

PY - 2022/7/26

Y1 - 2022/7/26

N2 - In this work, a room-temperature mixed-phase ligand exchange method is developed to obtain a relatively high carrier mobility (∼1 cm2/(V s)) on HgSe intraband colloidal quantum dot solids without any observable trap state. What is more, the doping from 1Se to 1Pe state in the conduction band could be precisely controlled by additional salts during this method, proved by optical and transport experiments. The high mobility and controllable doping benefit the mid-infrared photodetector utilizing the 1Se to 1Pe transition, with a 1000-fold improvement in response speed, which is several μs, a 55-fold increase in responsivity, which is 77 mA/W, and a 10-fold increase in specific detectivity, which is above 1.7 × 109 Jones at 80 K. The high-performance photodetector could serve as an intraband infrared camera for thermal imaging, as well as a CO2 gas sensor with a range from 0.25 to 2000 ppm.

AB - In this work, a room-temperature mixed-phase ligand exchange method is developed to obtain a relatively high carrier mobility (∼1 cm2/(V s)) on HgSe intraband colloidal quantum dot solids without any observable trap state. What is more, the doping from 1Se to 1Pe state in the conduction band could be precisely controlled by additional salts during this method, proved by optical and transport experiments. The high mobility and controllable doping benefit the mid-infrared photodetector utilizing the 1Se to 1Pe transition, with a 1000-fold improvement in response speed, which is several μs, a 55-fold increase in responsivity, which is 77 mA/W, and a 10-fold increase in specific detectivity, which is above 1.7 × 109 Jones at 80 K. The high-performance photodetector could serve as an intraband infrared camera for thermal imaging, as well as a CO2 gas sensor with a range from 0.25 to 2000 ppm.

KW - colloidal quantum dots

KW - doping

KW - infrared photodetection

KW - intraband

KW - mobility

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Mid-Infrared Intraband Photodetector via High Carrier Mobility HgSe Colloidal Quantum Dots

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