Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection

Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection

Abstract Platinum telluride (PtTe2), a member of metallic transition metal dichalcogenides, provides a new platform for investigating various properties such as type‐II Dirac fermions, topological superconductivity, and wide‐band photodetection. However, the study of PtTe2 is largely limited to exfo...

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Main Authors: Yang Yang, Kaixuan Zhang, Libo Zhang, Guo Hong, Chao Chen, Hongmei Jing, Jiangbo Lu, Peng Wang, Xiaoshuang Chen, Lin Wang, Hua Xu
Format: Article
Language:English
Published: Wiley 2021-06-01
Series:InfoMat
Subjects:
2D materials
chemical vapor deposition
Dirac semimetal
platinum telluride
terahertz photodetection
Online Access:https://doi.org/10.1002/inf2.12193
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spelling doaj-1ca89c0518a54be1b5e4ee1c4d69f1762021-06-01T23:07:00ZengWileyInfoMat2567-31652021-06-013670571510.1002/inf2.12193Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetectionYang Yang0Kaixuan Zhang1Libo Zhang2Guo Hong3Chao Chen4Hongmei Jing5Jiangbo Lu6Peng Wang7Xiaoshuang Chen8Lin Wang9Hua Xu10Key Laboratory of Applied Surface and Colloid Chemistry Ministry of Education Shaanxi Key Laboratory for Advanced Energy Devices, School of Materials Science and Engineering, Shaanxi Normal University Xi'an ChinaState Key Laboratory for Infrared Physics Shanghai Institute of Technical Physics, Chinese Academy of Sciences Shanghai ChinaState Key Laboratory for Infrared Physics Shanghai Institute of Technical Physics, Chinese Academy of Sciences Shanghai ChinaDepartment of Physics and Chemistry, Faculty of Science and Technology Institute of Applied Physics and Materials Engineering, University of Macau Macau ChinaKey Laboratory of Applied Surface and Colloid Chemistry Ministry of Education Shaanxi Key Laboratory for Advanced Energy Devices, School of Materials Science and Engineering, Shaanxi Normal University Xi'an ChinaSchool of Physics and Information Technology Shaanxi Normal University Xi'an ChinaSchool of Physics and Information Technology Shaanxi Normal University Xi'an ChinaKey Laboratory of Applied Surface and Colloid Chemistry Ministry of Education Shaanxi Key Laboratory for Advanced Energy Devices, School of Materials Science and Engineering, Shaanxi Normal University Xi'an ChinaState Key Laboratory for Infrared Physics Shanghai Institute of Technical Physics, Chinese Academy of Sciences Shanghai ChinaState Key Laboratory for Infrared Physics Shanghai Institute of Technical Physics, Chinese Academy of Sciences Shanghai ChinaKey Laboratory of Applied Surface and Colloid Chemistry Ministry of Education Shaanxi Key Laboratory for Advanced Energy Devices, School of Materials Science and Engineering, Shaanxi Normal University Xi'an ChinaAbstract Platinum telluride (PtTe2), a member of metallic transition metal dichalcogenides, provides a new platform for investigating various properties such as type‐II Dirac fermions, topological superconductivity, and wide‐band photodetection. However, the study of PtTe2 is largely limited to exfoliated flakes, and its direct synthesis remains challenging. Herein, we report the controllable synthesis of highly crystalline 2D PtTe2 crystals with tunable morphology and thickness via chemical vapor deposition (CVD) growth on Au substrate. By adjusting Te amount and substrate temperature, anisotropic and isotropic growth modes of PtTe2 were realized on the solid and molten Au substrates, respectively. The domain size of PtTe2 crystal was achieved up to 30 μm, and its thickness can be tuned from 5.6 to 50 nm via controlling the growth time. Furthermore, a metal–PtTe2–metal structural device was fabricated to validate the wide‐band terahertz (THz) photodetection from 0.04 to 0.3 THz at room temperature. Owing to the high crystallinity of PtTe2 crystal, the photodetector acquires high responsivity (30–250 mA W‐1 from 0.12 to 0.3 THz), fast response rate (rise time: 7 μs, decay time: 8 μs), and high‐quality imaging ability. Our work demonstrates the feasibility for realistic exploitation of high‐performing photodetection system at THz band based on the CVD‐grown 2D Dirac semimetal materials.https://doi.org/10.1002/inf2.121932D materialschemical vapor depositionDirac semimetalplatinum tellurideterahertz photodetection
collection DOAJ
language English
format Article
sources DOAJ
author Yang Yang
Kaixuan Zhang
Libo Zhang
Guo Hong
Chao Chen
Hongmei Jing
Jiangbo Lu
Peng Wang
Xiaoshuang Chen
Lin Wang
Hua Xu
spellingShingle Yang Yang
Kaixuan Zhang
Libo Zhang
Guo Hong
Chao Chen
Hongmei Jing
Jiangbo Lu
Peng Wang
Xiaoshuang Chen
Lin Wang
Hua Xu
Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
InfoMat
2D materials
chemical vapor deposition
Dirac semimetal
platinum telluride
terahertz photodetection
author_facet Yang Yang
Kaixuan Zhang
Libo Zhang
Guo Hong
Chao Chen
Hongmei Jing
Jiangbo Lu
Peng Wang
Xiaoshuang Chen
Lin Wang
Hua Xu
author_sort Yang Yang
title Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
title_short Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
title_full Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
title_fullStr Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
title_full_unstemmed Controllable growth of type‐II Dirac semimetal PtTe2 atomic layer on Au substrate for sensitive room temperature terahertz photodetection
title_sort controllable growth of type‐ii dirac semimetal ptte2 atomic layer on au substrate for sensitive room temperature terahertz photodetection
publisher Wiley
series InfoMat
issn 2567-3165
publishDate 2021-06-01
description Abstract Platinum telluride (PtTe2), a member of metallic transition metal dichalcogenides, provides a new platform for investigating various properties such as type‐II Dirac fermions, topological superconductivity, and wide‐band photodetection. However, the study of PtTe2 is largely limited to exfoliated flakes, and its direct synthesis remains challenging. Herein, we report the controllable synthesis of highly crystalline 2D PtTe2 crystals with tunable morphology and thickness via chemical vapor deposition (CVD) growth on Au substrate. By adjusting Te amount and substrate temperature, anisotropic and isotropic growth modes of PtTe2 were realized on the solid and molten Au substrates, respectively. The domain size of PtTe2 crystal was achieved up to 30 μm, and its thickness can be tuned from 5.6 to 50 nm via controlling the growth time. Furthermore, a metal–PtTe2–metal structural device was fabricated to validate the wide‐band terahertz (THz) photodetection from 0.04 to 0.3 THz at room temperature. Owing to the high crystallinity of PtTe2 crystal, the photodetector acquires high responsivity (30–250 mA W‐1 from 0.12 to 0.3 THz), fast response rate (rise time: 7 μs, decay time: 8 μs), and high‐quality imaging ability. Our work demonstrates the feasibility for realistic exploitation of high‐performing photodetection system at THz band based on the CVD‐grown 2D Dirac semimetal materials.
topic 2D materials
chemical vapor deposition
Dirac semimetal
platinum telluride
terahertz photodetection
url https://doi.org/10.1002/inf2.12193
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